PATENT DOCUMENT

Publication Number: US-10309132-B1
Application Number: US-201715623967-A
Country: US
Kind Code: B1

Title: Passenger vehicle and door structure

Abstract:
A passenger vehicle a vehicle body, a front door, and a rear door. The vehicle body comprises a forward base structure, a rearward base structure, and a floor structure extending between the forward base structure and the rearward base structure, which cooperatively define a passenger compartment and a continuous opening for a passenger to enter into and exit out of the passenger compartment. The front door is movable between a first closed position and a first open position. The rear door is movable between a second closed position and a second open position. When the front door is in the first closed position and the rear door is simultaneously in the second closed position, the continuous opening is closed cooperatively by the front door and the rear door.

Claims:
What is claimed is: 
     
       1. A passenger vehicle comprising:
 a vehicle body comprising a forward base structure, a rearward base structure, and a floor structure extending between the forward base structure and the rearward base structure, which cooperatively define a passenger compartment and a continuous opening for a passenger to enter into and exit out the passenger compartment; 
 a front door movable between a first closed position and a first open position; and 
 a rear door movable between a second closed position and a second open position; 
 wherein when the front door is in the first closed position and the rear door is simultaneously in the second closed position, the continuous opening is closed cooperatively by the front door and the rear door, and the front door and the rear door are in tension. 
 
     
     
       2. The passenger vehicle according to  claim 1 , wherein when the front door is in the first closed position and the rear door is simultaneously in the second closed position, the front door and the rear door are in tension proximate a beltline of the passenger vehicle. 
     
     
       3. The passenger vehicle according to  claim 2 , wherein when the front door is in the first closed position and the rear door is simultaneously in the second closed position, the front door is in tension between the forward base structure and the rear door, and the rear door is in tension between the front door and the rearward base structure. 
     
     
       4. The passenger vehicle according to  claim 3 , wherein when the front door is in the first closed position and the rear door is simultaneously in the second closed position, the front door is releasably coupled to the rear door. 
     
     
       5. The passenger vehicle according to  claim 4 , wherein when the front door is in the first closed position and the rear door is simultaneously in the second closed position, the front door is releasably coupled to the forward base structure with a forward latch mechanism, the rear door is releasably coupled to the rearward base structure with a rearward latch mechanism, and the front door is releasably coupled to the rear door with an intermediate latch mechanism, and wherein the intermediate latch mechanism, the forward latch mechanism, and the rearward latch mechanism cooperatively operate to place the front door and the rear door in tension. 
     
     
       6. The passenger vehicle according to  claim 1 , wherein the front door comprises a first internal door structure that is covered from view and that includes a first upper portion and a first lower portion, the rear door comprises a second internal door structure that is hidden from view and that includes a second upper portion and a second lower portion, and a rear end of the first upper portion is releasably coupleable to a forward end of the second upper portion to releasably couple the front door to the rear door and place the front door and the rear door in tension. 
     
     
       7. The passenger vehicle according to  claim 6 , wherein when the front door is in the first closed position, the first upper portion overlaps the forward base structure and the first lower portion overlaps the floor structure, and when the rear door is in the second closed position, the second upper portion overlaps the rearward base structure and the second lower portion overlaps the floor structure. 
     
     
       8. The passenger vehicle according to  claim 7 , wherein the first lower portion is releasably coupleable to the floor structure to releasably couple the front door to the floor structure in the first closed position, and the second lower portion is releasably coupleable to the floor structure to releasably couple the rear door to the floor structure in the second closed position. 
     
     
       9. The passenger vehicle according to  claim 8 , wherein a rearward end of the first upper portion and a forward end of the second upper portion are not directly coupleable to any static portion of the vehicle body with any latch mechanism. 
     
     
       10. The passenger vehicle according to  claim 1 , wherein in an intermediate fore-aft region of the continuous opening proximate a rearward end of the front door and a forward end of the rear door, the vehicle body comprises no static structure extending upward from the floor structure to proximate a beltline of the passenger vehicle to divide the continuous opening. 
     
     
       11. The passenger vehicle according to  claim 10 , wherein the vehicle body further comprises a roof structure, and no static structure extends from the roof structure to the floor structure in the intermediate fore-aft region of the continuous opening. 
     
     
       12. The passenger vehicle according to  claim 1 , wherein when the front door is in the first closed position and the rear door is simultaneously in the second closed position, the front door is in tension between the forward base structure and the rear door proximate a beltline of the passenger vehicle, and the rear door is in tension between the front door and the rearward base structure proximate the beltline;
 wherein when the front door is in the first closed position and the rear door is simultaneously in the second closed position, the front door is releasably coupled to the forward base structure with a forward latch mechanism, the rear door is releasably coupled to the rearward base structure with a rearward latch mechanism, and the front door is releasably coupled to the rear door with an intermediate latch mechanism, and wherein the intermediate latch mechanism, the forward latch mechanism, and the rearward latch mechanism cooperatively operate to place the front door and the rear door in tension; 
 wherein the front door comprises a first internal door structure that is covered from view and that includes a first upper portion and a first lower portion, the rear door comprises a second internal door structure that is hidden from view and that includes a second upper portion and a second lower portion, and wherein when the front door is in the first closed position, the first upper portion overlaps the forward base structure and the first lower portion overlaps the floor structure, and when the rear door is in the second closed position, the second upper portion overlaps the rearward base structure and the second lower portion overlaps the floor structure; and 
 wherein in an intermediate fore-aft region of the continuous opening proximate a rearward end of the front door and a forward end of the rear door, the vehicle body comprises no static structure extending upward from the floor structure to proximate a beltline of the passenger vehicle to divide the continuous opening, and wherein the vehicle body further comprises a roof structure, and no static structure extends from the roof structure to the floor structure in the intermediate fore-aft region of the continuous opening. 
 
     
     
       13. A passenger vehicle comprising:
 a vehicle body comprising a forward base structure, a rearward base structure, and a floor structure extending between the forward base structure and the rearward base structure, which cooperatively define a passenger compartment and a continuous opening for a passenger to enter into and exit out the passenger compartment; 
 a door movable between a closed position and an open position, the door comprising an outer door structure and an internal door structure coupled to and substantially hidden from view by the outer door structure; and 
 another door movable between another closed position and another open position, the door and the other door cooperatively closing the continuous opening when in the closed position and the other closed position, respectively; 
 wherein the internal door structure includes a primary structural member including a forward structural segment, a rearward structural segment, and an intermediate structural segment extending between the forward structural segment and the rearward structural segment; and 
 wherein when the door is in the closed position, the forward structural segment overlaps the forward base structure in a forward direction and is in close proximity thereto in an inboard-outboard direction, the rearward structural segment overlaps the floor structure in a downward direction and is in close proximity thereto in the inboard-outboard direction, and the intermediate structural segment extends diagonally downward and rearward from the forward structural segment to the rearward structural segment. 
 
     
     
       14. The passenger vehicle according to  claim 13 , wherein the forward structural segment overlaps an upper segment of the forward base structure proximate a beltline of the passenger vehicle. 
     
     
       15. The passenger vehicle according to  claim 13 , wherein the rearward structural segment overlaps the floor structure in an intermediate fore-aft region of the continuous opening. 
     
     
       16. The passenger vehicle according to  claim 13 , wherein the forward structural segment overlaps an upper segment of the forward base structure proximate a beltline of the passenger vehicle, and the rearward structural segment overlaps the floor structure in an intermediate fore-aft region of the continuous opening;
 wherein the internal door structure further includes a beam member coupled to the primary structural member and hidden from view by the outer door structure, the beam member including a forward beam segment mated with the forward structural segment, a rearward beam segment mated with the rearward structural segment, and an intermediate beam segment extending downward and rearward from the forward beam segment to the rearward beam segment and mated with the intermediate structural segment; 
 wherein when the door is in the closed position, the forward beam segment overlaps in the forward direction the forward base structure, the rearward beam segment extends downward from the intermediate beam segment to overlap the floor structure, and the rearward structural segment extends downward from the intermediate structural segment to overlap the floor structure; and 
 wherein the internal door structure includes a foot member coupled to and extending inboard of the primary structural member, the foot member being positioned above and in close proximity to the floor structure when the door is in the closed position. 
 
     
     
       17. The passenger vehicle according to  claim 15 , wherein the intermediate fore-aft region is within a middle 50% of an overall length of the continuous opening. 
     
     
       18. A passenger vehicle comprising:
 a vehicle body comprising a forward base structure, a rearward base structure, and a floor structure extending between the forward base structure and the rearward base structure, which cooperatively define a passenger compartment and a continuous opening for a passenger to enter into and exit out the passenger compartment; and 
 a door movable between a closed position and a open position, the door comprising an outer door structure and an internal door structure coupled to and substantially hidden from view by the outer door structure; 
 wherein the internal door structure includes a primary structural member including a forward structural segment, a rearward structural segment, and an intermediate structural segment extending between the forward structural segment and the rearward structural segment; 
 wherein when the door is in the closed position, the forward structural segment overlaps the forward base structure in a forward direction and is in close proximity thereto in an inboard-outboard direction, the rearward structural segment overlaps the floor structure in a downward direction and is in close proximity thereto in the inboard-outboard direction, and the intermediate structural segment extends diagonally downward and rearward from the forward structural segment to the rearward structural segment; and 
 wherein the internal door structure further includes a beam member coupled to the primary structural member and hidden from view by the outer door structure, the beam member including a forward beam segment mated with the forward structural segment, a rearward beam segment mated with the rearward structural segment, and an intermediate beam segment extending downward and rearward from the forward beam segment to the rearward beam segment and mated with the intermediate structural segment; 
 wherein when the door is in the closed position, the forward beam segment overlaps in the forward direction the forward base structure and the rearward beam segment overlaps the floor structure. 
 
     
     
       19. The passenger vehicle according to  claim 18 , wherein the beam member is positioned outboard of the primary structural member. 
     
     
       20. The passenger vehicle according to  claim 19 , wherein the intermediate structural segment is concave, and the intermediate beam segment is received at least partially in the intermediate structural segment. 
     
     
       21. The passenger vehicle according to  claim 18 , wherein the rearward beam segment extends downward from the intermediate beam segment to overlap the floor structure, and the rearward structural segment extends downward from the intermediate structural segment to overlap the floor structure. 
     
     
       22. A passenger vehicle comprising:
 a vehicle body comprising a forward base structure, a rearward base structure, and a floor structure extending between the forward base structure and the rearward base structure, which cooperatively define a passenger compartment and a continuous opening for a passenger to enter into and exit out the passenger compartment; and 
 a door movable between a closed position and a open position, the door comprising an outer door structure and an internal door structure coupled to and substantially hidden from view by the outer door structure; 
 wherein the internal door structure includes a primary structural member including a forward structural segment, a rearward structural segment, and an intermediate structural segment extending between the forward structural segment and the rearward structural segment; 
 wherein when the door is in the closed position, the forward structural segment overlaps the forward base structure in a forward direction and is in close proximity thereto in an inboard-outboard direction, the rearward structural segment overlaps the floor structure in a downward direction and is in close proximity thereto in the inboard-outboard direction, and the intermediate structural segment extends diagonally downward and rearward from the forward structural segment to the rearward structural segment; 
 wherein the internal door structure further includes a foot member coupled to and extending inboard of the primary structural member, the foot member being positioned above and in close proximity to the floor structure when the door is in the closed position; and 
 wherein the floor structure includes a latch mechanism, and the rearward structural segment overlaps the latch mechanism of the floor structure. 
 
     
     
       23. A passenger vehicle comprising:
 a vehicle body comprising a forward base structure, a rearward base structure, and a floor structure extending between the forward base structure and the rearward base structure, which cooperatively define a passenger compartment and a continuous opening for a passenger to enter into and exit out the passenger compartment; and 
 a door movable between a closed position and a open position, the door comprising an outer door structure and an internal door structure coupled to and substantially hidden from view by the outer door structure; 
 wherein the internal door structure includes a primary structural member including a forward structural segment, a rearward structural segment, and an intermediate structural segment extending between the forward structural segment and the rearward structural segment; and 
 wherein when the door is in the closed position, the forward structural segment overlaps the forward base structure in a forward direction and is in close proximity thereto in an inboard-outboard direction, the rearward structural segment overlaps the floor structure in a downward direction and is in close proximity thereto in the inboard-outboard direction, and the intermediate structural segment extends diagonally downward and rearward from the forward structural segment to the rearward structural segment; 
 wherein the door is a front door, and the passenger vehicle further comprises a second door that is a rear door movable between a second closed position and a second open position; 
 wherein when the door is in the closed position and the second door is in the second closed position, the door and the second door cooperatively close the continuous opening; and 
 wherein the second door comprises a second outer door structure and a second internal door structure that is coupled to and substantially hidden from view by the outer door structure, wherein the second internal door structure includes a second primary structural member including a second forward structural segment, a second rearward structural segment, and a second intermediate structural segment extending between the second forward structural segment and the second rearward structural segment; and 
 wherein when the second door is in the second closed position, the second forward structural segment overlaps the floor structure, the rearward structural segment overlaps in a rearward direction the rearward base structure and is in close proximity thereto in the inboard-outboard direction, and the second intermediate structural segment extends diagonally upward and rearward from the second forward structural segment to the second rearward structural segment. 
 
     
     
       24. The passenger vehicle according to  claim 23 , wherein the second door further comprises a second beam member coupled to the second primary structural member and substantially hidden from view by the second outer door structure, the second beam member including a second forward beam segment mated with the second forward structural segment, a second rearward beam segment mated with the second rearward structural segment, and a second intermediate beam segment extending upward and rearward from the second forward beam segment to the second rearward beam segment and mated with the second intermediate structural segment;
 wherein when the second door is in the second closed position, the second forward beam segment overlaps the floor structure, and the second rearward beam segment overlaps in a rearward direction the rearward base structure. 
 
     
     
       25. The passenger vehicle according to  claim 23 , wherein the primary structural member further includes a upper structural segment extending rearward from the forward structural segment;
 wherein the second primary structural member further includes a second upper structural segment extending forward from the second rearward structural segment; and 
 wherein the upper structural segment is releasably coupleable to the second upper structural segment with an intermediate latch mechanism that places the upper structural segment and the second upper structural segment in tension. 
 
     
     
       26. A passenger vehicle comprising:
 a vehicle body comprising a forward base structure, a rearward base structure, and a floor structure extending between the forward base structure and the rearward base structure, which cooperatively define a passenger compartment and a continuous opening for a passenger to enter into and exit out the passenger compartment; and 
 a door movable between a closed position and a open position, the door comprising an outer door structure and an internal door structure coupled to and substantially hidden from view by the outer door structure; 
 wherein the internal door structure includes a primary structural member including a forward structural segment, a rearward structural segment, and an intermediate structural segment extending between the forward structural segment and the rearward structural segment; 
 wherein when the door is in the closed position, the forward structural segment overlaps the forward base structure in a forward direction and is in close proximity thereto in an inboard-outboard direction, the rearward structural segment overlaps the floor structure in a downward direction and is in close proximity thereto in the inboard-outboard direction, and the intermediate structural segment extends diagonally downward and rearward from the forward structural segment to the rearward structural segment; and 
 wherein in a region of the continuous opening proximate a rearward end of the door, the vehicle body comprises no static structure extending between the floor structure to a roof structure of the vehicle body to divide the continuous opening. 
 
     
     
       27. A passenger vehicle comprising:
 a vehicle body comprising a forward body structure, a rearward body structure, and a floor structure extending between the forward body structure and the rearward body structure, which cooperatively define a passenger compartment and a continuous opening for a passenger to enter into and exit out the passenger compartment; 
 a front door movable between a first closed position and a first open position, wherein the front door comprises a first internal door structure including a first upper portion and a first lower portion; 
 a rear door moveable between a second closed position and a second open position, wherein the rear door comprises a second internal door structure including a second upper portion and a second lower portion; 
 wherein in the first closed position, a forward end of the first upper portion is releasably coupled to the forward body structure with a forward latch mechanism, and a rearward end of the first lower portion is releasably coupled to the floor structure with a lower latch mechanism; 
 wherein in the second closed position, a rearward end of the second upper portion is releasably coupled to the rearward body structure with a rearward latch mechanism, and a forward end of the second lower portion is releasably coupled to the floor structure with one of the lower latch mechanism or another lower latch mechanism; and 
 wherein when the front door is in the first closed position and the rear door is simultaneously in the second closed position, a rearward end of the first upper portion is releasably coupled to a forward end of the second upper portion with an intermediate latch mechanism. 
 
     
     
       28. The passenger vehicle according to  claim 27 , wherein the forward latch mechanism, the intermediate latch mechanism, and the rearward latch mechanism are positioned proximate a beltline of the passenger vehicle. 
     
     
       29. The passenger vehicle according to  claim 28 , wherein the forward latch mechanism, the intermediate latch mechanism, and the rearward latch mechanism are cooperatively configured to place the first internal door structure and the second internal door structure in tension between the forward body structure and the rearward body structure. 
     
     
       30. The passenger vehicle according to  claim 27 , wherein in a region of the continuous opening proximate a rearward end of the front door and a forward end of the rear door, the vehicle body does not include a static structure extending upward from the floor structure to proximate a beltline of the passenger vehicle to divide the continuous opening.

Description:
CROSS-REFERENCE TO RELATED APPLICATION(S) 
     This application claims priority to and the benefit of U.S. Provisional Application No. 62/350,871, filed Jun. 16, 2016, which is incorporated herein by reference in its entirety. This application additionally incorporates by reference in their entireties U.S. Provisional Application No. 62/346,109, filed Jun. 6, 2016, and U.S. Utility application Ser. No. 15/613,969, filed Jun. 5, 2017. 
    
    
     TECHNICAL FIELD 
     This disclosure relates to passenger vehicles for roadways and, in particular, to door and body structures therefor. 
     BACKGROUND 
     Passenger vehicles for roadways, such as cars, trucks, or other automobiles, typically include doors whose ends are configured to transfer loading, such as standard dynamic and quasi-static loading during test procedures under Federal Motor Vehicle Safety Standards (FMVSS) 214, to static structures of a body structure of the passenger vehicle. In four-door vehicles (i.e., those having two openable doors on each side of a vehicle to provide passenger ingress and egress), the body structure of the vehicle typically includes an intermediately positioned vertical structure (e.g., a “B-pillar”) extending upward from a floor structure to a roof structure of the body, which transfers standard loading from a rear end of a front door and a front end of a rear door to the roof and floor structures of the vehicle body. Other vehicles may include a movable vertical structure (e.g., contained in a front end of the rear door), which similarly transfers standard loading from the rear end of the front door and the front end of the rear door to the vehicle body. These vertical structures, however, impede passengers&#39; view from inside to outside the vehicle, and can also define separate openings for passenger ingress/egress. 
     SUMMARY 
     Disclosed herein is a passenger vehicle that includes a vehicle body, a front door, and a rear door. The vehicle body comprises a forward base structure, a rearward base structure, and a floor structure extending between the forward base structure and the rearward base structure, which cooperatively define a passenger compartment and a continuous opening for a passenger to enter into and exiat out of the passenger compartment. The front door is movable between a first closed position and a first open position. The rear door is movable between a second closed position and a second open position. When the front door is in the first closed position and the rear door is simultaneously in the second closed position, the continuous opening is closed cooperatively by the front door and the rear door, and the front door and the rear door are in tension. For example, the front door and the rear door may be in tension at an intermediate height of the continuous opening, such as proximate a beltline of the vehicle, with the front door being in tension between the forward base structure and the rear door, and the rear door being in tension between the front door and the rearward base structure. 
     Another passenger vehicle includes a vehicle body, and a first door. The vehicle body includes a forward base structure, a rearward base structure, and a floor structure extending between the forward body structure and the rearward body structure, which cooperatively define a passenger compartment and a continuous opening for a passenger to enter into and exit out the passenger compartment. The first door is movable between a first closed position and a first open position. The first door includes a first outer door structure and a first internal door structure coupled to and substantially hidden from view by the first outer door structure. The first internal door structure comprises a primary structural member having a forward structural segment, a rearward structural segment, and an intermediate structural segment extending between the forward structural segment and the rearward structural segment. When the first door is in the first closed position, the forward structural segment overlaps the forward body structure in a forward direction and is close proximity thereto, the rearward structural segment overlaps the floor structure and is in close proximity thereto, and the intermediate structural segment extends diagonally downward and rearward from the forward structural segment to the rearward structural segment. The first internal door structure may further comprise a beam member coupled to the primary member, which includes a forward beam segment, a rearward beam segment, and an intermediate beam segment extending downward and rearward from the forward beam segment to the rearward beam segment. The forward beam segment overlaps in the forward direction the forward body structure and is mated with the forward structural segment, the intermediate beam segment is mated with the intermediate structural segment, and the rearward beam segment overlaps floor structure and is mated to the rearward structural segment. 
     Another vehicle includes a vehicle body, and a front door. The vehicle body includes a forward base structure, a rearward base structure, and a floor structure extending between the forward body structure and the rearward body structure, which cooperatively define a passenger compartment and a continuous opening for a passenger to enter into and exit out the passenger compartment. The front door is movable between a first closed position in which the front door at least partially closes the opening and a first open position. The front door includes a first primary door structure having a first rearward portion. When the front door is in the first closed position, the first rearward portion of the first primary door structure is configured to transfer loading to the floor structure to resist an inboard moment caused by a standard dynamic load applied to the front door in a manner substantially independent of any roof structure of the vehicle body. The first primary door structure may additionally include a foot portion that protrudes inboard of the rearward portion to which the floor structure is configured to apply an upward reaction force to resist the inboard moment. The vehicle may additionally include a latch mechanism that is configured to apply an inward reaction force to the first rearward structural portion to resist the inboard moment. The vehicle may further include a rear door, which is cooperatively configured with the front door to transfer loading to the floor structure to resist the inboard moment substantially independent of any roof structure of the vehicle body. 
     A passenger vehicle includes a vehicle body, a front door, and a rear door. The vehicle body includes a forward base structure, a rearward base structure, and a floor structure extending between the forward body structure and the rearward body structure, which cooperatively define a passenger compartment and a continuous opening for a passenger to enter into and exit out the passenger compartment. The front door is movable between a first closed position and a first open position. The rear door is movable between a second closed position and a second open position. When the front door is in the first closed position and the rear door is simultaneously in the second closed position, the continuous opening is closed cooperatively by the front door and the rear door, the front door is movable to the first open position with the rear door remaining in the second closed position, and the rear door is movable to the second open position with the front door remaining in the first closed position. The front door may also be releasably coupleable to the rear door when in the first and second closed positions, respectively, such as with an intermediate latch mechanism. 
     Another passenger vehicle includes a vehicle body, a front door, and a rear door. The vehicle body includes a forward base structure, a rearward base structure, and a floor structure extending between the forward body structure and the rearward body structure, which cooperatively define a passenger compartment and a continuous opening for a passenger to enter into and exit out the passenger compartment. The front door is movable between a first closed position and a first open position. The front door comprises a first internal door structure having a first upper portion and a first lower portion. The rear door is moveable between a second closed position and a second open position. The rear door includes a second internal door structure having a second upper portion and a second lower portion. In the first closed, position, a forward end of the first upper portion is releasably coupled to the forward body structure with a forward upper latch mechanism, and a rearward end of the first lower portion is releasably coupled to the floor structure with a forward lower latch mechanism. In the second closed position, a rearward end of the second upper portion is releasably coupled to the rearward body structure with a rearward upper latch mechanism, and a forward end of the second lower portion is releasably coupled to the floor structure with a rearward lower latch mechanism. When the front door is in the first closed position and the rear door is simultaneously in the second closed position, a rearward end of the first upper portion is releasably coupled to a forward end of the second upper portion with an intermediate latch mechanism. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         FIG. 1  is top schematic view of a passenger vehicle according to an exemplary embodiment. 
         FIG. 2  is a side view of the passenger vehicle in a first configuration with closed doors. 
         FIG. 3  is a side view of the passenger vehicle in a second configuration with open doors. 
         FIG. 4  is a schematic side view of the passenger vehicle. 
         FIG. 5  is an upper perspective exploded view of a first door of the vehicle. 
         FIG. 6  is an upper perspective exploded view of a second door of the vehicle. 
         FIG. 7  is another side view of the passenger vehicle. 
         FIG. 8  is a cross-sectional view taken along line  8 - 8  in  FIG. 7 . 
         FIG. 9  is a schematic cross-sectional view taken along line  9 - 9  in  FIG. 4 . 
         FIG. 10  is a cross-sectional view taken along line  10 - 10  in  FIG. 7 . 
         FIG. 11  is a schematic cross-sectional view taken along line  11 - 11  in  FIG. 4 . 
         FIG. 12  is a cross-sectional view taken along line  12 - 12  in  FIG. 7 . 
         FIG. 13  is a cross-sectional view taken along line  13 - 13  in  FIG. 7 . 
         FIG. 14  a partial view taken of a latch mechanism  436   a  depicted schematically in  FIG. 4 . 
         FIG. 15  is a partial side view of a vehicle according to another embodiment. 
         FIG. 16  is a partial side view of a vehicle according to another embodiment. 
     
    
    
     DETAILED DESCRIPTION 
     As discussed in further detail below with reference to the figures, an exemplary passenger vehicle includes a vehicle body and one or more doors configured to absorb and/or distribute loading of the doors to the vehicle body. For example, the door configured to absorb and/or distribute loading from a standard dynamic loading event (e.g., from a mobile deformable barrier (MDB) during dynamic testing under Federal Motor Vehicle Safety Standard (FMVSS) 214D) and/or from a quasi-static loading event (e.g., during quasi-stating testing under FMVSS 214S) substantially independent of a roof structure of the vehicle body. Advantageously, the passenger vehicle incorporating the vehicle body and doors disclosed herein may provide passengers with substantially unobstructed views out a side of a vehicle and provide a continuous opening for ingress/egress by omitting an intermediate body structure extending to the roof structure (i.e., a B-pillar), as is typically found in four-door passenger vehicles. The vehicle body, doors, and their various subsystems, subassemblies, components, and related methods may, however, provide various other advantages. 
     As used herein directional terms, such as “forward,” “rearward,” “fore,” “aft,” etc. are oriented with respect to a normal direction of travel of the vehicle. Directional terms “inboard” and “outboard” refer to generally horizontal directions moving, respectively, from outside to inside, or inside to outside, a passenger compartment of the passenger vehicle. 
     Referring to  FIG. 1 , a vehicle  100  (e.g., passenger vehicle) is configured for use on a public roadway, such as a highway, interstate freeway, or local roads managed by a federal, state, or local government. As shown schematically, the vehicle  100  generally includes a powertrain  110  and a vehicle body  120  (e.g., body structure) coupled to the powertrain  110 . The powertrain  110  is configured to convert energy from a stored energy source (e.g., battery, gasoline, diesel fuel, hydrogen, etc.) into motive force for propelling the vehicle  100  along the public roadway. For example, the powertrain  110  may include one or more electric motors and/or one or more combustion engines that rotate wheels for propelling the vehicle  100  along the roadway. 
     As shown in the left side views of  FIG. 2  and  FIG. 3 , the vehicle body  120  generally includes a forward body structure  222 , a rearward body structure  224 , a floor structure  226 , and a roof structure  228 . The forward body structure  222 , the rearward body structure  224 , the floor structure  226 , and the roof structure  228  are fixedly coupled to each other to cooperatively form the vehicle body  120  as a generally rigid structure but which may resiliently flex (e.g., under normal driving conditions). According to some exemplary embodiments, the vehicle body  120  may omit the roof structure  228 , or the roof structure  228  may be movable. 
     The vehicle body  120  defines a passenger compartment  330  therein, while the forward body structure  222 , the rearward body structure  224 , and the floor structure  226  cooperatively define an opening  332  (e.g., entrance) that allows entry of a passenger into (e.g., ingress) and exit of a passenger out of (e.g., egress) the passenger compartment  330 . The opening  332  is continuous between the forward body structure  222 , the rearward body structure  224 , the floor structure  226 , and the roof structure  228  (if present). That is, the opening  332  is not physically divided (e.g., partitioned, interrupted, etc.) into multiple separate openings. In contrast, a typical four-door vehicle (i.e., having front and rear doors on each side of the vehicle) includes a static B-pillar structure at an outboard position extending between a floor and a roof at an intermediate fore-aft location of the traditional vehicle. Other previous four-door vehicles include a static B-post structure at an outboard position, which extends upward from a floor to a beltline but not to a roof of such vehicle. These static B-pillar and B-post structures provide or define a front passenger opening and a separate rear passenger opening. The vehicle body  120  of the vehicle  100 , however, does not include a similar static B-pillar, B-post structure, or other static portion or structure extending between the floor structure  226  and the roof structure  228  at an intermediate location along a length of the vehicle  100  (e.g., within a middle 50% of the overall length of the opening  332 ), but instead the opening  332  is continuous. 
     The forward body structure  222 , the rearward body structure  224 , the floor structure  226 , and the roof structure  228  may be individual components that are fixedly coupled to each other, or may be cooperatively formed by one or more components that are coupled to each other (e.g., a lower portion of the forward body structure  222  and a forward portion of the floor structure  226  may be formed by one or more common components). The vehicle body  120  may be similarly configured on its right side (not shown). 
     The forward body structure  222  generally includes a forward base structure  222   a  and a forward pillar structure  222   b  (e.g., A-pillar or first pillar structure or portion). The forward pillar structure  222   b  is coupled to and extends upward from the forward base structure  222   a , and is coupled to and supports a forward end of the roof structure  228 . A front window (e.g., a windshield or windscreen; not shown) may also be coupled to and supported by the forward pillar structure  222   b  and an opposite forward pillar structure (i.e., on a right side of the vehicle). The forward base structure  222   a  and the forward pillar structure  222   b  may be formed by one or more common components, or separate components coupled to each other. The forward body structure  222  transitions from, or demarcates between, the forward base structure  222   a  and the forward pillar structure  222   b  in a beltline  201  (e.g., beltline region) of the vehicle  100 . The beltline  201  of the vehicle  100  is a location or region at an intermediate height of the vehicle  100  surrounding the transition or demarcation between opaque lower side structures of the vehicle structure (e.g., body and door panels) and transparent side windows (e.g., window panel or pane). While the beltline  201  is depicted as being straight and horizontal, the beltline  201  may follow other profiles (e.g., curved, non-horizontal, etc.). 
     The rearward body structure  224  includes a rearward base structure  224   a  and may also include one or more rearward pillar structures  224   b  (e.g., C-pillar, D-pillar, or second pillar structure or portion). The rearward pillar structure  224   b  is coupled to and extends upward from the rearward base structure  224   a , and is coupled to and supports a rearward portion or end of the roof structure  228 . A rear window (e.g., rear wide window or rear windshield; not shown) may also be coupled to and supported by the rearward pillar structure  224   b . The rearward base structure  224   a  and the rearward pillar structure  224   b  may be formed by one or more common components, or separate components coupled to each other. The rearward body structure  224  is considered to transition from, or demarcate between, the rearward base structure  224   a  and the rearward pillar structure  224   b  in the beltline  201  of the vehicle  100 . For vehicles  100  having a roof structure  228  that is movable (e.g., a convertible), the rearward pillar structure  224   b  may be movable or omitted. 
     The vehicle  100 , on its left side, further includes a first door  240  (e.g., first or front door) and another second door  260  (e.g., second or rear door). The first door  240  and the second door  260  are cooperatively configured to close the opening  332  (i.e., to prevent ingress and egress of passengers), while also being configured to absorb and transfer outboard loading (e.g., standardized loading) to the forward body structure  222 , the rearward body structure  224 , the floor structure  226 , and/or the roof structure  228 . The vehicle  100  may similarly include an additional first door  240  and an additional second door  260  on its right side (not shown). The second door  260  and its various structures, components, features, etc. may be labeled as being a second or rear such structures, components, features, etc. so as to distinguish between those of the first door  240 . 
     The first door  240  generally includes a door structure  242  and a window  244  (e.g., first window). The first door  240  is movable between a closed position (e.g., a first closed position) as shown in  FIG. 2  and an open position (e.g., a first open position) as shown in  FIG. 3 . The second door  260  similarly includes a door structure  262  (e.g., second or rear door structure) and a window  264  (e.g., second or rear window). The second door  260  is also movable between a closed position (e.g., a second closed position) as shown in  FIG. 2  and an open position (e.g., a second open position) as shown in  FIG. 3 . When the first door  240  and the second door  260  are simultaneously in their respective closed positions, the opening  332  is closed to prevent or restrict ingress into and egress out of the passenger compartment  330  by a passenger. The first door  240  and the second door  260  may be slidably coupled to the vehicle body  120  as shown in  FIG. 3 , or may be hingedly coupled (e.g., pivotably coupled), for example, to the forward body structure  222  and the rearward body structure  224 , respectively, for example, about substantially vertical axes. 
     As depicted schematically in  FIG. 4 , the door structure  242  of the first door  240  includes a primary door structure  446  (e.g., a first or primary internal door structure; shown in dash-dot lines), which is coupled to and substantially hidden from view by an outer door structure  248  (e.g., first outer or secondary door structure). The door structure  262  of the second door  260  includes another primary door structure  466  (e.g., a second primary or internal door structure; shown in dash-dot lines), which is coupled to and substantially hidden from view by another outer door structure  268  (e.g., second outer or secondary door structure). The primary door structures  446 ,  466  of the first door  240  and the second door  260  are configured to cooperatively transfer a substantial majority of loading to the first door  240  and the second door  260  from the standard dynamic loading event (e.g., from an MDB during FMVSS dynamic testing) to the vehicle body  120  to limit intrusion into the passenger compartment  330 . In  FIG. 4 , inboard edges of the forward base structure  222   a , floor structure  226 , and rearward base structure  224   a  are depicted in phantom as dash-dash lines, which illustrate overlapping relationships for load transfer between the primary door structures  446 ,  466  to portions of the vehicle body  120 . 
     As compared to the primary door structures  446 ,  466 , the outer door structures  248 ,  268  and/or other structures and components of the first door  240  and the second door  260  are configured for absorbing, distributing, and/or transferring only an insubstantial portion of the standard dynamic loading to the vehicle body  120  (e.g., FMVSS dynamic testing). However, the outer door structures  248 ,  268  and other door structures and components may be configured to absorb, distribute, and/or transfer substantial portions of other standard loading (e.g., such as the standard quasi-static loading applied during the quasi-static testing under FMVSS 214S) to the vehicle body  120 . Furthermore, while the windows  244 ,  264  or other upper structures of the first door  240  or second door  260  may engage the roof structure  228 , such upper structures of the first door  240  and the second door  260  are capable of absorbing, distributing, and/or transferring only an insubstantial portion of the standard loading to the vehicle body  120 , such that substantial majorities of the standard dynamic and quasi-static loading of the first door  240  and the second door  260  are transferred to the vehicle body  120  independent of the roof structure  228 . 
     Focusing first on the first door  240 , the door structure  242  generally includes the outer door structure  248  and the primary door structure  446  (depicted in phantom as dash-dot lines in  FIG. 4 ). The outer door structure  248  defines a cavity in which the primary door structure  446  is positioned and substantially hidden from view, and which may receive the window  244  when lowered. 
     As shown in the exploded perspective view in  FIG. 5 , the outer door structure  248  includes an outer door frame  552  (e.g., peripheral or outer door frame or door structure), an inboard door panel  553  coupled to and positioned inboard of the outer door frame  552 , and an outboard door panel  554  coupled to and positioned outboard of the outer door frame  552 . As will be discussed in further detail below, when the first door  240  is in the closed position, the primary door structure  446  overlaps and is in close proximity with the forward base structure  222   a  and the floor structure  226  of the vehicle body  120 , so as to quickly transfer force thereto in an inboard direction upon application of standard dynamic loading to the first door  240 . 
     The primary door structure  446  is additionally configured to couple to and interface the floor structure  226 , so as to substantially resist an inboard moment caused by standard dynamic loading to the first door  240 . The primary door structure  446  does not extend above the beltline  201  of the vehicle  100  at an intermediate fore-aft location of the vehicle  100 , and no other structural member of the vehicle body  120  (e.g., a conventional fixed B-pillar), or of either the first door  240  or the second door  260  (e.g., a movable B-pillar), extends upward from the primary door structure  446 , which would otherwise be capable of transferring any substantial portion of the standard dynamic loading to the roof structure  228 . By omitting such vertical structures at an intermediate fore-aft location of the opening  332 , a substantially unobstructed view may be provided through the windows  244 ,  264  out the left side of the vehicle  100  (i.e., between the forward pillar structure  222   b  and the rearward pillar structure  224   b ). 
     As shown in  FIGS. 5 and 7 , the primary door structure  446  includes a primary structural member  550  (e.g., primary member or primary internal member) and a beam member  551 , among other elements, which are coupled to each other. The primary structural member  550  and the beam member  551  form the primary door structure  446  with a forward portion  446   a  (e.g., first or forward end portion or region), a rearward portion  446   b  (e.g., first or rearward upright portion or region), an intermediate portion  446   c  (e.g., middle, diagonal, or lower intermediate portion or region), and an upper portion  446   d  (e.g., upper, horizontal, top, or upper intermediate portion or region). The forward portion  446   a  is positioned proximate a forward end of the first door  240 , and may form a joint between the intermediate portion  446   c  and the upper portion  446   d . The rearward portion  446   b  is positioned proximate a rearward end of the first door  240 , and may extend upward and downward relative to the intermediate portion  446   c . The intermediate portion  446   c  may extend rearward and downward from the forward portion  446   a  to the rearward portion  446   b . The upper portion  446   d  is positioned proximate an upper end of the first door  240 , and extends rearward from the forward portion  446   a  toward the rearward portion  446   b . While the primary door structure  446  is substantially hidden from view by the outer door structure  248 , various limited portions of the primary door structure  446  may still protrude out of the cavity (e.g., in cutouts of the outer door frame  552  or inboard door panel  553 ), and/or may be concealed by other trim components, so as to be engageable with or otherwise transfer force to portions of the vehicle body  120  (e.g., the floor structure  226 ). 
     The primary structural member  550  (e.g., first primary structure or internal member) is a unitary, continuous member. For example, the primary structural member  550  may be a hot-stamped boron steel component. The primary structural member  550  includes a forward structural segment  550   a  (e.g., first forward end or segment), a rearward structural segment  550   b  (e.g., first rearward end or segment), an intermediate structural segment  550   c  (e.g., first intermediate segment), and an upper structural segment  550   d  (e.g., first upper segment). The forward structural segment  550   a  forms a joint that connects the intermediate structural segment  550   c  and the upper structural segment  550   d , and may form an outboard convex or C-shaped recess (see, e.g.,  FIG. 8 ), which receives the beam member  551  therein. 
     The intermediate structural segment  550   c  extends downward and rearward from the forward structural segment  550   a  to the rearward structural segment  550   b . From the left side view, the intermediate structural segment  550   c  may extend downward and rearward at a constant angle, but may follow other contours. From a top view, the intermediate structural segment  550   c  may extend rearward at a constant angle, but may follow other contours (e.g., being curved in an inboard-outboard direction, such as to follow contours of the inboard door panel  553  and/or the outboard door panel  554 ). The intermediate structural segment  550   c  has a cross-sectional shape that is concave or C-shaped to provide rigidity to the intermediate structural segment  550   c . The cross-sectional shape may be generally constant along a majority of the intermediate structural segment  550   c . The intermediate structural segment  550   c  may extend at different angles and/or have an irregular or different cross-sectional shape. 
     The upper structural segment  550   d  extends rearward from the forward structural segment  550   a  to terminate at a rearward end thereof. The upper structural segment  550   d  may, for example, extend along the beltline  201 . From the left side view, the upper structural segment  550   d  may extend at a constant angle (e.g., generally horizontal), or other suitable angle or contour. From a top view, the upper structural segment  550   d  may extend at a constant angle (e.g., straight rearward), but may follow other contours (e.g., being curved in an inboard-outboard direction, such as to follow contours of the inboard door panel  553  and/or the outboard door panel  554 ). The upper segment has a cross-sectional shape that is concave or C-shaped to provide rigidity to the upper structural segment  550   d . The cross-sectional shape may be generally constant along a majority of the upper structural segment  550   d . The upper structural segment  550   d  may alternatively have a different position, extend at different or varied angles, and/or have a different or irregular cross-sectional shape. 
     The rearward structural segment  550   b  extends upward and downward from the intermediate structural segment  550   c  to terminate at upper and lower ends, respectively, thereof. From the left side view, the rear segment extends straight above and below the intermediate structural segment  550   c  at generally constant angles (e.g., generally vertical), but may follow other contours (e.g., extending forward or rearward in a straight or curved manner). From a front view, the rearward structural segment  550   b  extends above and below the intermediate segment straight (e.g., generally vertical), but may follow other contours (e.g., extending inboard or outboard in a straight or curved manner, such as to follow contours of the inboard door panel  553  and/or the outboard door panel  554 . The rear segment has a cross-sectional shape that is concave or C-shaped to provide rigidity to the rearward structural segment  550   b . The cross-sectional shape is generally constant along a majority of the rearward structural segment  550   b  above the intermediate structural segment  550   c . Below the intermediate structural segment  550   c , the rear segment extends downward and inboard, and includes a convex or C-shaped cross-sectional shape. Alternatively, the rearward structural segment  550   b  may extend at different angles, with different contours, and/or have different cross-sectional shapes above and below the intermediate structural segment  550   c.    
     The primary door structure  446  additionally includes a bracket member  555  (e.g., coupling member), which functions to couple the rearward end of the upper structural segment  550   d  to the upper end of the rearward structural segment  550   b  of the primary structural member  550 . The bracket member  555  may, for example, be a stamped steel component that mates with and/or is coupled to the primary structural member  550 , for example, with fasteners, adhesives, and/or welding. The bracket member  555  forms a rearward end of the upper portion  446   d . Alternatively, the upper structural segment  550   d  and the rearward structural segment  550   b  may have a continuous joint therebetween (i.e., not terminate at rearward and upper ends, respectively, thereof) in which case the bracket member  555  may be omitted. 
     While the primary structural member  550  has been described as a unitary member, it is contemplated that the primary structural member  550  instead be configured as a multi-piece structure, for example, with the upper structural segment  550   d  or other segments (or portions thereof), being formed with another member. 
     The beam member  551  (e.g., first beam member) is a unitary, continuous member. For example, the beam member  551  may be a hydroformed steel, tubular component. The beam member  551  includes a forward beam segment  551   a  (e.g., a first forward beam end), a rearward beam segment  551   b  (e.g., a first rearward beam segment), and an intermediate beam segment  551   c  (e.g., a first intermediate beam segment). The intermediate beam segment  551   c  extends substantially parallel with (i.e., following the contour of) the intermediate structural segment  550   c  to be mated (e.g., received against and/or at least partially within) with and/or coupled thereto (e.g., with conventional fasteners, adhesives, and/or welding) to form the intermediate portion  446   c  of the primary door structure  446 . The intermediate beam segment  551   c  may also be received at least partially within an outboard facing recess of the intermediate structural segment  550   c  of the primary structural member  550  (see  FIG. 8 ), which is formed by the concave cross-sectional shape thereof. The intermediate beam segment  551   c  has a cross cross-sectional shape (e.g., rectangular or box tubular), which may be constant along a majority thereof. Alternatively, the intermediate beam segment  551   c  may have a different contour (e.g., different than the primary structural member  550 ) and/or have a different or irregular cross-sectional shape. 
     The forward beam segment  551   a  extends upward from the intermediate beam segment  551   c  to terminate at an upper end thereof. The forward beam segment  551   a  may extend at a generally constant angle (e.g., substantially vertical), and have a cross-sectional shape (e.g., rectangular or box tubular) that provides rigidity to the forward beam segment  551   a  and that may be constant along a majority thereof. Alternatively, the forward beam segment  551   a  may extend at varying or different angles (e.g., non-vertical, bent, or varying) and/or have an irregular or different cross-sectional shape. 
     The forward beam segment  551   a  mates with and/or is coupled to the forward structural segment  550   a  of the primary structural member  550  (e.g., with fasteners, adhesives, and/or welding) to cooperatively form the forward portion  446   a  of the primary door structure  446 . The forward beam segment  551   a  may also be received within the outboard facing recess of the forward structural segment  550   a  of the primary structural member  550 , which is formed by the concave cross-sectional shape thereof. 
     The rearward beam segment  551   b  extends downward from the intermediate beam segment  551   c  to terminate at a lower end thereof. The rearward beam segment  551   b  may additionally extend inboard relative to the intermediate beam segment  551   c , for example, to follow the contour of the rearward structural segment  550   b . The rearward beam segment  551   b  mates with and/or is coupled the rearward structural segment  550   b  of the primary structural member  550  below the intermediate structural segment  550   c  (e.g., with fasteners, adhesives, and/or welding) to cooperatively form at least part of the rearward portion  446   b  of the primary door structure  446 . The rearward beam segment  551   b  may also be received within the outboard facing recess of the rearward structural segment  550   b  of the primary structural member  550 , which is formed by the concave cross-sectional shape thereof. 
     The beam member  551  may be configured in other manners, for example, with the beam member  551  interfacing and/or coupling to the primary structural member  550  in different manners. For example, one or more of the forward, rearward, or intermediate beam segments  551   a ,  551   b ,  551   c  may not be coupled directly to the forward, rearward, or intermediate structural segments  550   a ,  550   b ,  550   c  of the primary structural member  550 . 
     The primary door structure  446  may additionally include a reinforcement member  549  (e.g., reinforcement bracket), which is interposed between the rearward beam segment  551   b  of the beam member  551  and the rearward structural segment  550   b  of the primary structural member  550 . The reinforcement member  549 , for example, distributes loading between the primary structural member  550  and the beam member  551 . The reinforcement member  549  has an outer convex profile that is received within the rearward structural segment  550   b  of the primary structural member  550 , and an inner concave profile that has received therein the rearward beam segment  551   b  of the beam member  551 . 
     In this rearward lower region of the primary door structure  446 , a bolt  556  may extend through each of, and thereby couple to each other (i.e., forming a bolted joint), the rearward structural segment  550   b , the rearward beam segment  551   b , and the reinforcement member  549 . On an inboard side, a striker  537  (or other portion of a latch mechanism) may also be coupled to the rearward structural segment  550   b  of the primary structural member  550  and/or the bolt  556 . 
     The primary door structure  446  also includes a foot member  558 , which as discussed in further detail below, functions to distribute outboard loading to an upper surface of the floor structure  226 . The foot member  558  is coupled to the primary structural member  550  inboard of the rearward structural segment  550   b  at an elevation slightly above that of the floor structure  226 . 
     The door structure  242  may also include other internal components substantially hidden from view by the outer door structure  248 , inboard door panel  553 , and outboard door panel  554 , such as an intrusion beam  557 , and a shear panel  559 . The intrusion beam  557  is configured to absorb and/or transfer initial loading from standard quasi-static loading of the first door  240 , so as to prevent or limit intrusion into the passenger compartment  330 . The shear panel  559  is coupled to the primary door structure  446  to provide torsional rigidity to the first door  240  for normal operation (e.g., opening/closing the door) but may be capable of absorbing, distributing, and/or transferring only an insubstantial portion of the standard dynamic loading of the primary door structure  446 . 
     As will be discussed in further detail below, the first door  240  additionally includes portions of a forward upper latch mechanism  436   a  (e.g., forward latch mechanism), a forward lower latch mechanism  436   b , and an intermediate upper latch mechanism  436   e  (e.g., intermediate latch mechanism) (all depicted schematically with dot-dot circular lines in  FIG. 4 ). 
     Turning to the second door  260 , the door structure  262  of the second door  260  is configured similar to the door structure  242  of the first door  240  but having the forward-rearward relationship of its various components generally reversed. The door structure  262  of the second door  260  generally includes the outer door structure  268  and the primary door structure  466 . As shown in the exploded perspective view in  FIG. 6 , the outer door structure  268  includes an outer door frame  672  (e.g., peripheral door frame), an inboard door panel  673  coupled to and positioned inboard of the outer door frame  672 , and an outboard door panel  674  coupled to and positioned outboard of the outer door frame  672 , which cooperatively define a cavity in which the primary door structure is positioned and substantially concealed from view in the manner described above for the primary door structure  446  of the first door  240 . The window  264  may be retractable into the door cavity in a manner similar to the window  244 . 
     As shown schematically in  FIG. 4 , the orientation of the primary door structure  466  of the second door  260  is generally reversed in a fore-aft direction, as compared to the primary door structure  446  of the first door  240 . The primary door structure  466  generally includes a rearward portion  466   a  (e.g., second or rearward end portion or region), a forward portion  466   b  (e.g., second or forward upright portion or region), an intermediate portion  466   c  (e.g., second middle or diagonal portion or region) extending forward and downward from the rearward portion  466   a  to the forward portion  466   b , and an upper portion  466   d  (e.g., second upper or top portion region) extending forward from the rearward portion  466   a . As with the primary door structure  446  of the first door  240 , the primary door structure  466  of the second door does not extend above the beltline  201  of the vehicle  100  at an intermediate fore-aft location of the vehicle  100 , and no other structural member thereof (e.g., a movable B-pillar) extends upward from the primary door structure  466 , which would be capable of transferring any substantial portion of the standard dynamic loading to the roof structure  228 . Omission of such vertical structural members of the vehicle body  120  may provide a substantially unobstructed view out the side of the vehicle through the windows  244 ,  264  between the forward pillar structure  222   b  and the rearward pillar structure  224   b.    
     Similar to the first door  240 , when the second door  260  is in the closed position, the primary door structure  466  overlaps and is in close proximity with the rearward base structure  224   a  and the floor structure  226  of the vehicle body  120 , so as to quickly transfer force thereto in an inboard direction upon application of standard dynamic loading to the second door  260 . The primary door structure  466  of the second door  260  is additionally configured to couple to and interface the floor structure  226 , so as to substantially resist an inboard moment caused by standard dynamic loading to the first door  240 . 
     As shown structurally in  FIGS. 6 and 7 , the structural components of the primary door structure  466  of the second door  260  are similar to those of the primary door structure  446  of the first door  240  but are generally reversed in a fore-aft direction. The primary door structure  466  of the second door  460  is formed by or comprises a primary structural member  670  (e.g., a second primary structure or internal member) and a beam member  671  (e.g., second beam member or structure), and may include still further components or members, which individually or cooperatively form the rearward portion  466   a , the forward portion  466   b , the intermediate portion  466   c , and the upper portion  466   d  of the primary door structure  466 . 
     The primary structural member  670  is a unitary, continuous member. For example, the primary structural member  670  may be a hot-stamped boron steel component. The primary structural member  670  includes a rearward structural segment  670   a  (e.g., second rearward or structural segment or end), a forward structural segment  670   b  (e.g., second forward end), an intermediate structural segment  670   c  (e.g., segment intermediate segment) extending downward and forward from the rearward structural segment  670   a  to the forward structural segment  670   b , and an upper structural segment  670   d  (e.g., second upper segment) extending forward from the rearward structural segment  670   a . For further details of the rearward structural segment  670   a , the forward structural segment  670   b , the intermediate structural segment  670   c , and the upper structural segment  670   d  (e.g., position, shape, alternative configurations, etc.), refer to the discussion above of the forward structural segment  550   a , the rearward structural segment  550   b , the intermediate structural segment  550   c , and the upper structural segment  550   d , respectively, of the primary structural member  550 . As depicted in  FIG. 6-7 , the forward structural segment  670   b  and the upper structural segment  670   d  intersect each other, thereby omitting an intervening bracket (e.g., similar to the bracket member  555  of the first primary door structure  446 ). 
     The beam member  671  is a unitary, continuous member. For example, the beam member  671  may be a hydroformed steel, tubular component. The beam member  671  includes a rearward beam segment  671   a  (e.g., a second rearward beam end), a forward beam segment  671   b  (e.g., a second forward beam segment), and an intermediate beam segment  671   c  (e.g., a second intermediate beam segment) extending forward and downward from the rearward beam segment  671   a  to the forward beam segment  671   b . For further details of the rearward beam segment  671   a , the forward beam segment  671   b , and the intermediate beam segment  671   c  (e.g., position, shape, attachment, relative position to the primary structural member  670 , alternative configurations, etc.), refer to the discussion above for the forward beam segment  551   a , the rearward beam segment  551   b , and the intermediate beam segment  551   c , respectively, of the beam member  551 . 
     In the forward lower region, the second primary door structure  466  may also include a bolt  676  forming a bolted joint between the forward structural segment  670   b , the forward beam segment  671   b , and the reinforcement member  669 , and/or a striker  637  (or other portion of a latch mechanism). The primary door structure  466  may additionally include a reinforcement member  669  interposed between the rearward beam segment  671   a  of the beam member  671  and the rearward structural segment  670   a  of the primary structural member  670 . The second primary door structure  466  also includes a foot member  678 , which functions to distribute outboard loading to an upper surface of the floor structure  226 . For further details of the bolt  676 , striker  637 , and foot member  678  (e.g., position, shape, function, attachment, alternative configurations, etc.), refer to the discussion above of the bolt  556 , striker  537 , and foot member  558  above. 
     The door structure  262  may also include other internal components substantially hidden from view by the outer door structure  268  (e.g., by one or more of the outer door frame  672 , the inboard door panel  673 , and/or the outboard door panel  674 ), such as an intrusion beam  677 , and a shear panel  679 , which are, respectively, configured as are the intrusion beam  557  and the shear panel  559  described previously. 
     As will be discussed in further detail below, the second door  260  additionally includes portions of a rearward upper latch mechanism  436   c  (e.g., rearward latch mechanism), a rearward lower latch mechanism  436   d , and the intermediate upper latch mechanism  436   e  (all depicted schematically with dot-dot circular lines in  FIG. 4 ). 
     When the first door  240  and the second door  260  are simultaneously in the closed positions, the first door  240  and the second door  260  cooperatively close the opening  332  (see  FIG. 2 ). Individually and cooperatively, the first door  240  and the second door  260  are also configured to distribute standard dynamic load to the vehicle body  120  (i.e., the forward base structure  222   a , the rearward base structure  224   a , and the floor structure  226 ). 
     When each of the first door  240  and the second door  260  are in their respective closed positions, the primary door structures  446 ,  466  thereof overlap and are in close proximity to various parts of the vehicle body  120  of the vehicle  100  (shown schematically in  FIGS. 4, 9, and 10 , and shown structurally in  FIGS. 7, and 11-13 ). These overlapping relationships and close proximity allow the primary door structures  446 ,  466  to quickly transfer standard dynamic loading to the vehicle body  120 . As shown schematically in  FIGS. 4 and 9 , when the first door  240  is in its closed position, the forward portion  446   a  of the primary door structure  446  overlaps an upper region  422   c  of the forward base structure  222   a  of the vehicle body  120  in a fore-aft direction (e.g., in a forward direction), and is in close proximity in an inboard-outboard direction thereto. For example, the primary door structure  446  may be in close proximity with the forward base structure  22   a  by direct engagement, engage and/or compress one or more members arranged therebetween (e.g., the outer door frame  552  or other structure), and/or otherwise a short distance therefrom, such as 1 cm, 5 mm, 2 mm or less, though other inboard-outboard distances may be suitable. 
     When the first door  240 , and thereby the primary door structure  446  receives the standard dynamic load (i.e., Floading_event), the forward base structure  222   a  applies an outboard reaction force (RF 1 ) thereagainst. This overlapping relationship is shown structurally in  FIGS. 7 and 10  in which the forward structural segment  550   a  of the primary structural member  550  and/or the forward beam segment  551   a  of the beam member  551  extend forward past and are positioned outboard of the upper region  422   c  of the forward base structure  222   a . The primary structural member  550  is positioned in close proximity to the forward base structure  222   a , but may include intermediate components positioned therebetween, such as the inboard door panel  553 , which provides quick loading to the vehicle body  120  upon occurrence of the standard dynamic loading event. This overlapping relationship is within an intermediate vertical region of the vehicle  100 , such as within a middle 50% of the overall height of the opening  332 , or within approximately several inches of the beltline  201  of the vehicle  100 . 
     As shown schematically in  FIGS. 4 and 11  and structurally in  FIGS. 7, 12, and 13 , the rearward portion  446   b  of the primary door structure  446 , including the rearward structural segment  550   b  of the primary structural member  550  and the rearward beam segment  551   b  of the beam member  551 , overlaps in a vertical direction (e.g., in a downward direction), and is in close proximity in an inboard-outboard direction to, an intermediate floor region  426   a  of the floor structure  226 . This overlapping relationship is within the intermediate fore-aft region of the vehicle  100 , such as within a middle 50% of the overall length of the opening  332 . 
     The second door  260 , when in its closed position, is configured to overlap the vehicle body  120  in a similar manner as the first door  240 . The rearward portion  466   a  of the primary door structure overlaps in a fore-aft direction (e.g., in a rearward direction), and is in close proximity in an inboard-outboard direction, to an upper region  424   c  of the rearward base structure  224   a  of the vehicle body  120  (refer to the primary door structure  446  of the first door  240  in  FIGS. 4 and 9 ). The rearward portion  466   a , including the rearward structural segment  670   a  of the primary structural member  670  and/or the rearward beam segment  671   a  of the beam member  671 , is positioned outboard of an extends rearward at least partially over or past the rearward base structure  224   a  (refer to the primary structural member  550  and the beam member  551  in  FIGS. 5 and 10 ). This overlapping relationship is also within the intermediate vertical region of the vehicle, as described above for the first door  240 . 
     The forward portion  466   b  of the second primary door structure  466  overlaps in a vertical direction (e.g., downward direction), and is in close proximity in an inboard-outboard direction, to the intermediate floor region  426   a  of the floor structure  226  (refer to the primary door structure  446  of the first door  240  in  FIGS. 10-12 ). The forward portion  466   b , including the forward structural segment  670   b  of the primary structural member  670  and the forward beam segment  671   b  of the beam member  671 , is positioned outboard of and extends downward at least partially over or past the floor structure  226 . This overlapping relationship is also within the intermediate fore-aft region of the vehicle  100 , as described above for the first door  240 , though positioned rearward of the first door  240 . 
     As the opening  332  is continuous and uninterrupted by any intermediate static structure from the floor structure  226  toward or to the roof structure  228 , upper ends of the rearward portion  446   b  of the first primary door structure  446  and the forward portion  466   b  of the second primary door structure  466  do not overlap and are not in close proximity for loading any portion of the body structure in an upper or the intermediate vertical region of the opening  332 . Nor do the rearward portion  446   b  and the forward portion  466   b  of the primary door structures  446 ,  466  extend upward to overlap or be in close proximity to the roof structure  228  for transferring load thereto during the standard dynamic loading. 
     Instead, when the first door  240  and the second door  260  are in their closed positions, the primary door structures  446 ,  466  couple to and interface with the floor structure  226  to substantially resist an inboard moment caused by the standard dynamic loading. 
     As shown schematically in the cross-sectional view of  FIG. 11  (taken from line  11 - 11  in the schematic view of  FIG. 4 ), the standard dynamic loading event applies inboard force (F_loading_event) to the first door  240 , which creates an inboard moment M_loading_event of the first door  240  about the floor structure  226 . Resisting this inboard force, the floor structure  226  applies an outboard reaction force RF 2  in an outboard direction against the lower end of the rearward portion  446   b  of the first primary door structure  446 . In the region of the outboard reaction force RF 2 , the floor structures forms a fulcrum about which the inboard moment M_loading_event is formed and about which the primary door structure  446  may pivot. Resisting this moment, the forward lower latch mechanism  436   b , which is coupled to the floor structure  226 , applies an inboard reaction force RF 3  to the rearward portion  446   b  of the first primary door structure  446  at a location below the outboard reaction force RF 2 . Further resisting this moment, an upper floor surface  1126   b  of the floor structure  226  applies an upward reaction force RF 4  to a foot portion  1146   e  of the primary door structure  446  (i.e., formed by the foot member  678 ), which protrudes inboard from the rearward portion  446   b  of the first primary door structure  446 . The reaction forces RF 2 , RF 3 , and RF 4  may be applied directly between the structures and members described, or an intermediate member or component may be positioned therebetween, such as a trim component, outer door structure  248  (not shown in  FIGS. 12-13 ), etc. 
     As shown structurally in the cross-sectional views of  FIGS. 12-13 , (taken from lines  12 - 12  and  13 - 13  from  FIG. 7 ), the latch mechanism  436   b  is configured to apply the reaction force RF 3  to the first door  240 , so as to resist the inboard moment M_loading_event. According to one non-limiting example, the latch mechanism  436   b  generally includes the striker  537  fixedly coupled to the first door  240 , and a latch  1238  (e.g., latch mechanism or movable latch) that is incorporated into the floor structure  226 . The striker  537 , for example, includes a shaft  1237   a  (e.g., striker shaft) that extends in a fore-aft direction, and a striker bracket  1237   b  that rigidly holds the shaft  1237   a  at an inboard position relative to the first primary door structure  446 . The striker bracket  1237   b  is coupled to the primary door structure  446  with the bolt  556 . The bolt  556 , as shown in  FIG. 13 , extends through the striker bracket  1237   b , the rearward structural segment  550   b  of the primary structural member  550 , the reinforcement member  549 , and the rearward beam segment  551   b  of the beam member  551  to form a bolted joint therebetween. 
     According to one non-limiting example, the latch  1238  generally includes a lower rotating member  1238   a , an upper rotating member  1238   b , and a latch base  1238   c  (e.g., latch base structure or housing). The latch base  1238   c  is rigidly coupled to and forms part of the floor structure  226 , so as to transfer loading from the latch base  1238   c  to other structures and components of the floor structure  226 . The lower rotating member  1238   a  and the upper rotating member  1238   b  are rotatably coupled to the latch base  1238   c  about axes that are substantially parallel with the shaft  1237   a  of the striker  537 . The latch base  1238   c  forms a recess in which the lower rotating member  1238   a  and the upper rotating member  1238   b  are positioned, and which receives therein the striker  537  when the first door  240  is moved to the closed position. 
     When the striker  537  is inserted into the recess of the latch base  1238   c , the lower rotating member  1238   a  is rotated upward (i.e., in a counterclockwise direction as shown) to engage an outboard surface of the shaft  1237   a . The lower rotating member  1238   a  includes a curved surface that with continued rotation applies an inboard force against the shaft  1237   a  and draws the first door  240  into its closed position. The upper rotating member  1238   b  is rotated downward (i.e., clockwise as shown) to engage an upper surface of the shaft  1237   a . The upper rotating member  1238   b  may instead, or additionally, be rotated downward to engage, or come in close proximity to, an outboard end of the lower rotating member  1238   a . In this manner, the lower rotating member  1238   a  and the upper rotating member  1238   b  substantially surround or encircle the shaft  1237   a . The latch  1238  may additionally include a locking member  1338   d  that is movable to/from a position between the inboard ends of the lower rotating member  1238   a  and the upper rotating member  1238   b  to, thereby, prevent relative rotation between the lower rotating member  1238   a  and the upper rotating member  1238   b  and prevent release of the shaft  1237   a.    
     The latch base  1238   c  is coupled to and forms part of the floor structure  226  (e.g., part of a floor sill). The latch base  1238   c  includes an outboard surface  1238   e  (e.g., outer or outboard surface or edge) that applies the outboard reaction force RF 2  to the primary door structure  446 . The latch base  1238   c  also includes an upper surface  1238   f  that forms the upper surface  1226   b  of the floor structure  226 , which applies the upward reaction force RF 4  to the foot member  558 . Various other components may be positioned on the upper surface  1226   b  of the floor structure  226 , such as trim components or decorative materials. 
     During normal operation and when in the closed position, gaps may be maintained between structures of the first door  240  and the vehicle body  120 , for example, to prevent interference by the vehicle body  120  as the first door  240  is moved between the open and closed positions. During the standard dynamic loading event, these gaps (if present) must be eliminated for the first door  240  to distribute force to the vehicle body  120  of the vehicle  100 . Initially during the standard dynamic loading event, the first door  240  is moved inboard until floor structure  226  (e.g., the outboard surface  1238   e  of the latch base  1238   c ) applies the outboard reaction force RF 2  to the rearward portion  446   b  of the primary door structure  446 . As the door is rotated about the outboard surface  1238   e  of the latch base  1238   c , the lower rotating member  1238   a  then applies the inboard force RF 3  to the striker  537  at a location below the outboard reaction force RF 2 , and the upper surface  1238   f  of the latch base  1238   c  (i.e., forming the upper floor surface  1126   b  of the floor structure  226 ) applies the upward reaction force RF 4  to the foot member  558 . As non-limiting examples, the inboard reaction force RF 3  may be applied between approximately 50 mm and 150 mm below the outboard reaction force RF 2 , for example, by positioning the axis of the shaft  1237   a  such a distance below an upper edge of the outboard surface  1238   e  of the latch base  1238   c.    
     The latch mechanism  436   b  (and other latch mechanisms  436   a  and  436   c - e ) may, for example, be electronically actuated (e.g., using an electric motor or other actuator) and controlled by a controller (not shown), for example, according to selection by a user, a pre-programmed control routine, and/or feedback to the control system (e.g., current draw and/or position of the actuator). The controller may additionally control the other latch mechanisms associated with the first door  240  (e.g., the forward upper latch mechanism  436   a  and the intermediate upper latch mechanism  436   e ) and/or the second door  260  in a cooperative manner (e.g., with staged and/or simultaneous operation) to close and/or open the first door  240 . Furthermore, with the latch mechanisms  436   a - e  being electronically actuated, or the first door  240  and the second door  260  otherwise being moved in a controlled manner, greater control may be provided for opening and closing operations, as compared to mechanical or manually actuated mechanism, which may allow for smaller gaps or clearances between the first door  240  and the second door  260  and portions of the vehicle body  120 . These closer clearances, advantageously, may provide for quicker loading from the first door  240  and the second door  260  to the vehicle body  120  during standard loading events. 
     According to other exemplary embodiments, the interface between the first door  240  and the floor structure  226 , including the latch mechanism  436   b , may be configured in other manners. For example, while the floor structure  226  is depicted as being coplanar with the upper surface  1238   f  formed by the latch base  1238   c , the floor structure  226  may be non-coplanar, for example, with an inboard region of the floor structure  226  being at a higher elevation. The latch mechanism  436   b , instead of applying the inboard reaction force RF 3  to the lower end of the primary door structure  446 , may instead be configured to apply a downward reaction force to the foot portion  1146   e  of the primary door structure  446  at a location outboard of the upward reaction force RF 4 . The latch mechanism  436   b  may be configured in other manners, for example, with the striker  537  being fixedly coupled to the floor structure  226  and the latch  1238  being movably coupled to the first door  240 , providing more than one set of lower and upper latch members (i.e., the lower rotating member  1238   a  and the upper rotating member  1238   b ) from the same or opposing rotational direction (e.g., for redundance). 
     The second door  260  is configured to couple and transfer loading to the intermediate floor region  426   a  of the floor structure  226  in substantially the same manner as the first door  240 , for example, using the rearward lower latch mechanism  436   d . Various components of the forward lower latch mechanism  436   b , such as the latch housing  1236   c , may be shared between the lower latch mechanisms  436   b ,  436   d.    
     Referring again to  FIG. 4 , in addition to the lower latch mechanism  436   b ,  436   d , the upper latch mechanisms  436   a ,  436   c ,  436   e  also function to retain the first door  240  and the second door  260  in their closed positions and also transfer loading to the vehicle body  120 . Furthermore, the upper latch mechanisms  436   a ,  436   c ,  436   e  are cooperatively configured to place and maintain the first door  240  and the second door  260  in tension between the forward body structure  222  and the rearward body structure  224  during normal closing operations thereof (i.e., prior to detection or occurrence of standard loading). When the first door  240  and the second door  260  are in their closed positions and the tensive force applied, the first door  240  is in tension between the forward body structure  222  and the second door  260 , and the second door  260  is in tension between the first door  240  and the rearward body structure  224 . By applying a tensive force with one or more of the upper latch mechanisms  436   a ,  436   c ,  436   e , which are positioned at an intermediate height of the vehicle  100  (e.g., proximate the beltline  201 ), the first door  240  and the second door  260  are in tension between the forward body structure  222  and the rearward body structure  224  and, in particular, upper portions  446   d ,  466   d  of the primary door structure  446 ,  466  are in tension (e.g., the upper structural segments  550   d ,  670   d  of the primary structural members  550 ,  670 ) along the beltline  201  of the vehicle  100 . As compared to the first door  240  and the second door  260  not being in tension, this normally applied tension may quicken load distribution (e.g., from standard loading events) from the first door  240  and/or the second door  260  to the forward body structure  222  and the rearward body structure  224 . Upon detection of an impact event, for example by the controller, the one or more of the upper latch mechanisms  436   a ,  436   c ,  436   e  may be further actuable to increase the tensive force (e.g., with a pyrotechnic or other mechanical movement). 
     As depicted schematically in  FIG. 4 , the forward upper latch mechanism  436   a  and the forward lower latch mechanism  436   b  releasably couple the first door  240  to the forward base structure  222   a  and the floor structure  226 . When the first door  240  is in the closed position, the forward portion  446   a  of the primary door structure  446  is releasably coupled to the upper region  422   c  of the forward base structure  222   a  with the forward upper latch mechanism  436   a  (e.g., forward upper latch mechanism; depicted schematically with a dot-dot circular line). The forward upper latch mechanism  436   a  is actuable to apply and hold a tensive force in a fore-aft direction the upper portion  446   d  of the primary door structure  446 , or to hold the upper portion  446   d  in tension as one or more of the other upper latch mechanisms  436   c ,  436   e  are actuated to apply a tensive force to the first door  240  and/or the second door  260 . The forward upper latch mechanism  436   a  may be further configured to move the first door  240  in an inboard direction as the first door  240  is closed and then hold the first door  240  in its closed position. The rearward portion  446   b  of the first door  240  is releasably coupled to the floor structure  226  by the forward lower latch mechanism  436   b , as described previously. 
     As shown in  FIG. 14 , according to one non-limiting example, the forward upper latch mechanism  436   a  is configured to apply a tensive force between the forward base structure  222   a  and the first door  240 . The latch mechanism  436   a  generally includes a striker  1437  and a latch  1438 . The striker  1437  is fixedly coupled to the forward portion  446   a  of the primary door structure  446  of the first door  240 , such as to the forward structural segment  550   a  of the primary structural member  550 . The latch  1438  is rotatably coupled to the upper region  422   c  of the forward base structure  222   a , so as to engage and apply the tensive force to the striker  1437  (i.e., by pulling the striker  1437  in a forward direction) as the latch  1438  is rotated. The forward upper latch mechanism  436   a  be configured in another manner suitable to be actuated to releasably couple the first door  240  to the forward body structure  222  and for placing, or maintaining, the first door  240  in tension. For example, the positions of the striker  1437  and the latch  1438  may be reversed, multiple latches  1438  may be provided, or an entirely different type of latch mechanism (e.g., other cinching latch, etc.) may be used. 
     The rearward upper latch mechanism  436   c  and the rearward lower latch mechanism  436   d  releasably couple the second door  260  to the rearward base structure  224   a  and the floor structure  226 , respectively. The rearward portion  466   a  of the primary door structure  466  is releasably coupled to the upper region  424   c  of the rearward base structure  224   a  with the rearward upper latch mechanism  436   c  (e.g., upper rear latch mechanism; depicted schematically with a dot-dot circular line). The rearward upper latch mechanism  436   c  may be configured similar to the forward upper latch mechanism  436   a  or any other suitable configuration sufficient to apply or maintain a tensive force to the second door  260  and/or maintain the second door  260  in its closed position. The rearward latch mechanism  436   d  is configured to releasably couple the forward portion  466   b  of the second door  260  to the intermediate floor region  426   a  of the floor structure  226 , as described above for the latch mechanism  436   b.    
     Additionally, when the first door  240  and the second door  260  are simultaneously in their respective closed positions, the first door  240  and the second door  260  are releasably coupled to each other, for example, with the fifth releasable latch mechanism  436   e  (e.g., upper intermediate latch mechanism; depicted schematically as a dot-dot circular line). More particularly, the rearward end of the upper portion  446   d  of the primary door structure  446  of the first door  240  (e.g., the rearward structural segment  550   b  and/or the upper structural segment  550   d  of the primary structural member  550 ) is releasably coupled to the forward end of the upper portion  466   d  of the second primary door structure  466  of the second door  260  (e.g., the forward structural segment  670   b  and/or the upper structural segment  670   d  of the primary structural member  670 ). The upper intermediate latch mechanism  436   e  may be configured similar to the forward upper latch mechanism  436   a  or any other suitable configuration sufficient to apply or maintain a tensive force between the first door  240  and the second door  260  and/or maintain the first door  240  and the second door  260  in their closed positions. 
     While the vehicle body  120 , the first door  240 , and the second door  260 , as described herein, include five latch mechanisms, two dedicated to the first door  240  (i.e., the forward upper and forward lower latch mechanisms  436   a ,  436   b ), two dedicated to the second door  260  (i.e., the rearward upper and rearward lower latch mechanisms  436   c ,  436   d ), and one in common between the first door  240  and the second door  260  (i.e., the forward upper latch mechanism  436   e ), the vehicle  100  may instead include a different number of latch mechanisms. For example, the first door  240  may include only one dedicated latch, for example, positioned at a fore-aft and/or vertical position between the depicted locations of the forward upper and forward lower latch mechanisms  436   a ,  436   b , which may function to resist the moment caused by the standard loading and/or to place or maintain the first door  240  in tension. The second door  260  may similarly be configured with only one dedicated latch, while the first and second doors  260  would still include a common latch therebetween. As a result, the vehicle  100  may, instead, include only three latch mechanisms associated with a pair of doors on a given side of the vehicle  100 . 
     Additionally, the first door  240  and the second door  260  are configured to open independent of each other, such when in their respective closed positions, either the first door  240  or the second door  260  may be moved to its open position, while the other door remains in its closed position. For example, to move the first door  240  from the closed position to the open position, the forward upper latch mechanism  436   a , the forward lower latch mechanism  436   b , and the intermediate upper latch mechanism  436   e  are operated to release the first door  240 , thereby allowing the first door  240  to be moved (e.g., slid or rotated) automatically (e.g., by an electric motor or actuator controlled by the vehicle control system), manually by a user, or a combination thereof. When the first door  240  is released or moved to the open position, the rearward upper latch mechanism  436   c  and/or the rearward lower latch mechanism  436   d  may or may not also release the second door  260 . For example, the rearward upper and/or lower latch mechanisms  436   c ,  436   d  may be operated to relieve the tensive force applied to the second door  260 , and thereby to the first door  240 , in conjunction with the forward and intermediate upper latch mechanisms  436   a ,  436   e . Conversely, to move the second door  260  from the closed position to the open position, the rearward upper latch mechanism  436   c , the rearward lower latch mechanism  436   b , and the intermediate upper latch mechanism  436   e  are operated to release the second door  260 , thereby allowing the second door  260  to be moved (e.g., slid or rotated) automatically (e.g., by an electric motor or actuator controlled by the vehicle control system), manually by a user, or a combination thereof. When the second door  260  is released or moved to the closed position, the forward upper latch mechanism  436   a  and/or the forward lower latch mechanism  436   b  may or may not also release the second door  260 . 
     To allow independent opening, the first door  240  and the second door  260  are configured without features that might otherwise interfere with opening of the other door. For example, no static rigid portion of the first door  240  overlaps (i.e., extends rearward at least partially over or past) any static rigid portion of the second door  260 , and no static rigid portion of the second door  260  overlaps (i.e., extends forward at least partially over or past) any static rigid portion of the first door  240 . Alternatively, the door to remain closed (e.g, the second door  260 ) may be moved rearward and/or outboard slightly to another position (e.g., a second closed position) in which that door still effectively closes the opening  332  to prevent ingress/egress but does not interfere with the other door. According to still further embodiments, the first door  240  and the second door  260  may include movable components or portions that normally overlap or engage each other when the first door  240  and the second door  260  are in their closed positions (e.g., seal members, windows  244 ,  264 , etc.) but which are moved into disengaged positions to allow opening of the other door. According to still further embodiments, the first door  240  and the second door  260  may include resilient components or portions (e.g., seals, gaskets, etc.) that deflect during opening and/or closing of one of the first door  240  and the second door  260  independent of the other. 
     As referenced above, each of the first door  240  and the second door  260  may be coupled to the vehicle body  120 , for example, by being slidably coupled to the vehicle body  120  (e.g., to the floor structure  226  and/or the roof structures  228 ) or hingedly coupled to the vehicle body  120  (e.g., to the forward body structure  222  and/or the rearward body structure  224  about a substantially vertical axis or other upright axis). 
     According to other exemplary embodiments, a door is configured to couple to a floor structure of a vehicle by way of a post that is substantially hidden within the door. For example, as shown in a partial cutaway view in  FIG. 15 , a vehicle  1500  includes a door  1540  rotatably coupled to a post  1590  that is substantially hidden within a cavity of the door  1540 , such as between inboard and outboard door panels of the door. The vehicle  1500  includes a body structure  1520  having a floor structure  1526  (e.g., a sill) with a base  1590   a  of the post  1590  fixedly coupled thereto at a forward, rearward, and/or intermediate fore-aft location of an opening of the vehicle  1500 . The door  1540  is supported by an upper segment  1590   b  (e.g., upper end) of the post  1590 . In particular, a door structure  1542  is mounted to the upper segment  1590   b  of the post  1590  with bearings  1592  (e.g., upper and lower bearings as shown). The bearings  1592  support the door  1540 , so as to prevent or otherwise control translational movement (e.g., upward and/or horizontal) relative to the post  1590 , while allowing the door  1540  to rotate about the post  1590  between open and closed positions. The bearings  1592  are also contained within the cavity of the door  1540 , so as to be hidden from view. The post  1590  may be configured to transfer standard loading of the door  1540  to the floor structure  1524 , such as in the manner the base  1590   a  is coupled to the floor structure  1524 . The door  1540 , including the door structure  1542 , may be configured in the manners described above, or in another manner suitable to transfer standard loading via the post  1590  to the floor structure  1524  and/or to other portions of the body structure  1520 . 
     According to another exemplary embodiment, as shown in a partial cutaway view in  FIG. 16 , a vehicle  1600  includes a door  1640  that is fixedly coupled to a post  1690 , which in turn is rotatably coupled to a floor structure  1626  of a body of the vehicle  1600 . An upper portion  1690   b  of the post  1690  is positioned in a cavity of the door  1640  to be hidden from view and fixedly coupled to an internal door structure  1642  of the door  1640 . A base  1690   a  of the post  1690  is rotatably coupled to the floor structure  1626  with bearings  1692  at, for example, a forward, rearward, or intermediate fore-aft location of an opening of the vehicle  1600 . The bearings  1692  support the post  1690 , so as to prevent translational movement (e.g., upward and/or horizontal) of the post  1690  and the door  1640  relative to the floor structure  1626 , while allowing the post  1690  and the door  1640  to rotate between open and closed positions. The post  1690  may be configured to transfer standard loading of the door  1540  to the floor structure  1524 . The door  1540 , including the door structure  1542 , may be configured in the manners described above, or in another manner suitable to transfer standard loading via the post  1690  to the floor structure  1624  and/or to other portions of the body structure  1620 .

Metadata:
Filing Date: 20170615
Publication Date: 20190604
Grant Date: 20190604
Priority Date: 20160616
Inventors: JOHNSON, NOELL G.
Kamei, Ibuki
RAFF, JOHN
MONROE, DONALD R.
GOLKO, ALBERT J.
HOBSON, Phil M.
DONOHUE, DAVID J.
HUH, JAE YOUNG
BROWN, MATTHEW L.
Assignee: APPLE INC
CPC Classifications: [{"code": "E05B77/02", "inventive": true, "first": false, "tree": "[]"}, {"code": "B62D25/2036", "inventive": false, "first": false, "tree": "[]"}, {"code": "B62D25/04", "inventive": false, "first": false, "tree": "[]"}, {"code": "B62D25/06", "inventive": false, "first": false, "tree": "[]"}, {"code": "B60J5/0479", "inventive": true, "first": false, "tree": "[]"}, {"code": "E05B81/20", "inventive": true, "first": false, "tree": "[]"}, {"code": "B60J5/0429", "inventive": false, "first": false, "tree": "[]"}, {"code": "E05B83/38", "inventive": true, "first": true, "tree": "[]"}, {"code": "B60J5/0479", "inventive": true, "first": true, "tree": "[]"}, {"code": "B60J5/0429", "inventive": true, "first": false, "tree": "[]"}, {"code": "B60J5/0463", "inventive": true, "first": false, "tree": "[]"}, {"code": "B60J5/0463", "inventive": true, "first": false, "tree": "[]"}, {"code": "B60J5/0429", "inventive": true, "first": false, "tree": "[]"}, {"code": "E05B77/02", "inventive": true, "first": false, "tree": "[]"}, {"code": "B62D25/2036", "inventive": false, "first": false, "tree": "[]"}, {"code": "B62D25/06", "inventive": false, "first": false, "tree": "[]"}, {"code": "B60J5/0479", "inventive": true, "first": false, "tree": "[]"}, {"code": "B62D25/04", "inventive": false, "first": false, "tree": "[]"}, {"code": "E05B83/38", "inventive": true, "first": true, "tree": "[]"}, {"code": "E05B81/20", "inventive": true, "first": false, "tree": "[]"}]
Family ID: 66673196