Patent Application: US-201515311248-A

Abstract:
systems and methods for installing retrofit seat belt systems with structural support for the lap and shoulder belts , while at the same time providing a low cost solution . in particular , some , or all of the loads , as required , are shared by an added support structure connected rigidly to a structural base , e . g ., of a bus or other vehicle , via a base plate . as such the present teachings achieve compartmentalization around passengers in the event of a crash . furthermore , unlike prior retrofit seat belt designs , the systems and methods of the present teachings uniquely facilitate a seamless transition for the different seat configurations and do not require complete replacement of the seats .

Description:
the following detailed description presents the currently contemplated modes of carrying out these teachings . the description is not to be taken in a limiting sense , but is made merely for the purpose of illustrating the general principles of these teachings . as used herein , the singular forms “ a ,”“ an ,” and “ the ” include the plural reference unless the context clearly dictates otherwise . except where otherwise indicated , all numbers expressing quantities of ingredients , reaction conditions , and so forth used in the specification and claims are to be understood as being modified in all instances by the term “ about .” in order to elucidate the present teachings , the following definitions are provided as used herein . “ bus .” bus means any of several types of self - propelled vehicles , generally rubber - tired , intended for use on city streets , highways , and busways , including but not limited to minibuses , forty - and thirty - foot buses , articulated buses , double - deck buses , motor coaches , and electrically powered trolley buses , used by public entities to provide designated public transportation service and by private entities to provide transportation service . it is noted that while example systems and methods presented herein may be specifically directed towards retrofitting a motor coach or other bus type seat with seatbelts , the present disclosure is not limited to such embodiments . indeed , the systems and methods herein may be used to retrofit any number of similar types of seats regardless of mode of transportation . for example , in some embodiments , the systems and methods presented herein may be adapted for retrofitting similar type seats on a boat , subway , train , or other mode of transportation . “ motor coach .” according to national highway traffic safety administration ( nhtsa ) buses with a gross vehicle weight rating ( gvwr ) greater than 11 , 793 kg ( 26 , 000 pounds ( lb )) are defined as motor coaches . ( 2 ) “ national highway traffic safety administration ( nhtsa ), department of transportation ( dot ).” the national highway traffic administration ( nhtsa ) is a us governmental organization and part of the department of transportation ( dot ). the agency is in charge of releasing the federal motor vehicle safety standards ( fmvss ) ( 3 ) “ federal motor vehicle safety standard ( fmvss ).” the federal motor vehicle safety standards ( fmvss ) specify the us federal regulations and requirements for motor vehicles . ( 4 ) “ motor coach enhanced safety act ( mesa ).” the motor coach enhanced safety act ( mesa ) is a bill that was brought before the us house of representatives . the mesa included regulations to improve safety for passengers on motor coaches . these regulations included mandatory retrofitting of existing buses with seatbelts within one year . the bill was not enacted . ( . . . source ) ( 5 ) “ seat belt assembly ” seat belt assembly means any strap , webbing , or similar device designed to secure a person in a motor vehicle in order to mitigate the results of any accident , including all necessary buckles and other fasteners , and all hardware designed for installing such seat belt assembly in a motor vehicle . ( p . 1 ( 6 )) “ anchor point / anchorage .” anchorage means “ any component , other than the webbing or straps , involved in transferring seat belt loads to the vehicle structure .” ( 7 ) “ webbing .” webbing means a narrow fabric woven with continuous filling yarns and finished selvages . ( p . 2 ( 6 )) “ strap .” strap means a narrow nonwoven material used in a seat belt assembly in place of webbing . ( p . 1 ( 6 )) “ buckle .” buckle means a quick release connector which fastens a person in a seat belt assembly . ( p . 1 ( 6 )) “ retractor .” retractor means a device for storing part or all of the webbing in a seat belt assembly . ( p . 1 ( 6 )) “ baseplate .” the baseplate is a floor mounted device that has been designed as an anchor point for the seat belt webbing . “ hardware .” hardware means any metal or rigid plastic part of a seat belt assembly . ( p . 1 ( 6 )) “ shoulder strap support .” the device that is used to guide the seat belt at the shoulder portion is called shoulder strap support . “ rollover .” a rollover is a crash scenario in which the vehicle turns over . “ occupant / passenger .” the person sitting in the seat is called occupant or passenger . “ pelvic restraint .” pelvic restraint means a seat belt assembly or portion thereof intended to restrain movement of the pelvis . ( p . 1 ( 6 )) “ upper torso restraint .” upper torso restraint means a portion of a seat belt assembly intended to restrain movement of the chest and shoulder regions . ( p . 1 ( 6 )) “ two point seat belt / lap belt .” a two point seat belt or lap belt is a seat belt that has two anchor points . “ three point seat belt / lap - shoulder belt .” a three point seat belt or lap - shoulder belt is a seat belt with three anchor points . “ type 1 seat belt assembly .” a lap belt is defined as a type 1 seat belt assembly . the belt is used for “ pelvic restraint .” ( 6 ) “ type 2 seat belt assembly .” a lap and shoulder seat belt is defined as a type 2 seat belt assembly that is used for “ pelvic and upper torso restraints .” ( 6 ) “ type 2a shoulder belt .” a type 2a shoulder belt is an upper torso restraint for use only in conjunction with a lap belt as a type 2 seat belt assembly . ( 6 ) the easiest way of installing a retrofit seatbelt , is to anchor the seatbelt to the seat frame . the risk of doing that is that , in case of an accident , all the occurring forces have to be transmitted to the bus floor via the pedestal . since the bus seats were not designed for that case they might not withstand these forces . crash tests made by nhsta have showed that the pedestal of seats that were not designed for seatbelts can break . a picture of the broken pedestal can be seen in fig1 . the approach of these teachings is , to have one base plate that serves as anchor point for the three connections of the seatbelt . the design presented herein advantageously allows bypassing the seat frame and the pedestal , and transmitting the forces directly to the floor of the bus . in one or more embodiments , the system of these teachings for retrofitting a motor coach seat with seatbelts includes a central base plate component disposed surrounding a central plane of the motor coach seat and operatively attached to a motor coach floor , a first seat belt , first and second ends of the first seat belt being attached to a first portion of the central base plate component , the first portion located on one side of the central support , and a second seat belt , first and second ends of the second seat belt being attached to a second portion of the central base plate component , the second portion located on another side of the central support . in other embodiments , the system of these teachings for retrofitting a motor coach seat with seatbelts also includes a shoulder strap structural component extending from the central base plate component to a location above a top of a back support section of the motor coach seat , the shoulder strap structural component operatively attached to the central base plate component , the shoulder strap structural component having two shoulder strap guide components operatively attached at the location above the top of the back support section , a first shoulder strap , attached at one end to one point in a lap portion of the first seat belt and at another end to a first retractor component , the first retractor component disposed and operatively attached to at least one of the shoulder strap structural component or the central base plate component , the first shoulder strap extending from the first retractor component to a first shoulder strap guide component substantially along the shoulder strap structural component and from the first shoulder strap guide component to the one point in the lap portion of the first seat belt , and a second shoulder strap , attached at one end to one point in a lap portion of the second seat belt and at another end to a second retractor component , the second retractor component disposed and operatively attached to at least one of the shoulder strap structural component or the central base plate component , the second shoulder strap extending from the second retractor component to a second shoulder strap guide component substantially along the shoulder strap structural component and from the second shoulder strap guide component to the joint in the lap portion of the second seat belt . in one instance , the first and second retractor component are as same retractor component . in one embodiment the retractor component is mounted on the baseplate or on the shoulder strap structural component . the embodiments disclosed herein have a number of advantages over conventional solutions . some of those advantages include being able to mount the central baseplate onto a floor track providing better performance during a crash , providing a retrofit in which the passengers &# 39 ; freedom of leg movement is not affected , and transmitting the loads from the shoulder strap guide component back to the baseplate through the shoulder strap structural component . in order to better illustrate these teachings , exemplary embodiments depicted in the figures are presented herein . it should be noted that the systems and methods of the present disclosure are not limited to the depicted exemplary embodiments . rather , aspects , features and advantages of the disclosure will be apparent from the description of the illustrated examples and accompanying drawings . fig2 a , 2 b , 2 c , 2 d , and 3 demonstrate exemplary retrofit seatbelt systems according to the present disclosure . referring to fig2 a and 2 b , in the embodiments shown therein , a base plate 110 makes the structural base that the base plate is mounted to ( e . g . floor 120 of the bus ) the primary load bearing structure . in the embodiment in fig2 a a shoulder strap structural component 130 is rigidly attached to base plate . referring to fig2 b , in the embodiment shown therein , the shoulder strap structural component 130 includes a pivot point 135 . advantageously , the pivot point 135 may include a mechanism which that locks at this pivot point during a high force ( such as a torsion force from rotation about the pivot point or a compressive or tensile force at the pivot point ). the pivoting embodiment of fig2 b allows for the position of the shoulder strap to adjust to a reclining of the seat . as depicted in the embodiments of both fig2 a and 2b , the shoulder strap structural component 130 may advantageously be shared by two adjacent passengers / seats . thus , as depicted , a pair of shoulder straps 140 for three - point seat belts may be secured relative to the shoulder strap structural component 130 , e . g ., relative to opposing sides of shoulder strap structural component . note that in other embodiments , a single shoulder strap for a three - point seat belt may instead be secured relative to the shoulder strap structural component 130 . as depicted , a shoulder strap mounting component 145 may be used to secure the shoulder strap 140 relative to the shoulder strap structural component 130 , e . g ., at a distal end or medial position thereof . in general , shoulder strap 140 may be secured at approximately shoulder height relative to an average passenger . notably , in some embodiments , the retrofit seatbelt system may allow selection of the shoulder height position , e . g ., by the retrofitter , depending on the anticipated average height of the passenger . in other embodiments , the retrofit seatbelt system may allow a passenger to change the shoulder height position , e . g ., by including a lock and release mechanism for translating the shoulder strap mounting component relative to the shoulder strap structural component ( e . g ., along a sliding track ) and locking it into place once the desired shoulder height position is achieved . in further example embodiments , the shoulder strap mounting component or shoulder strap structural component may include a shoulder strap extension / retraction mechanism for allowing the shoulder strap to extend and retract ( similar to conventional seatbelts ). the shoulder strap extension / retraction mechanism may include a locking feature which similar to pivot point 135 may lock in reaction to a high force ( such as during an accident ). alternatively , the shoulder strap mounting component may include a slide buckle , roller , pulley , or similar belt translation mechanism for allowing the belt to slide / translate relative thereto . in such embodiments , a distal end of the shoulder strap may advantageously be mounted relative to the baseplate 110 , floor 120 , or even a pedestal of the seat ( see , e . g ., the embodiment of fig2 c ), e . g ., using a second shoulder strap mounting component . thus , in some embodiments , the second shoulder strap mounting component the baseplate may include a shoulder strap extension / retraction mechanism ( such as described above ) for allowing the shoulder strap to extend and retract . referring again to fig2 a , shoulder strap 140 may generally terminate with a buckle component 150 at a proximal end thereof . a proximal end of a belt strap 160 may be secured relative to the shoulder strap 140 e . g ., in proximity to the buckle component 150 ( e . g ., at a proximal end of the belt strap 160 ), with a distal end of the belt strap 160 being secured ( e . g ., at or below a waist position or a seat height position ) relative to the shoulder strap structural component 130 , the baseplate 110 , the floor 120 , or the pedestal . in general , the distal end of the belt strap extends via and may be secured relative to a same side of the seat as the shoulder strap structural component 130 . the buckle component 150 may be configured for association with a buckle clasp component ( not depicted ), which may be secured relative to a proximal end of a clasp belt 170 . in general the proximal end of the clasp belt may be configured to terminate with the clasp component ( e . g ., at or below a waist position or a seat height position ) at an opposite side of the seat relative to the shoulder strap structural . advantageously , a distal end of the clasp belt 170 may be secured relative to to the shoulder strap structural component 130 , the baseplate 110 , the floor 120 , or the pedestal . thus , every point of the seat belt ( in this case a three - point belt ) may advantageously be secured relative to structural components other than the seat itself . in some embodiments only some of the points may be secured relative to the structural components ( e . g . the distal end of the shoulder strap may be secured relative to a structural component whereas the buckle strap and waist belt strap may be secured relative to the seat ). with reference now to fig2 c , an example embodiment is depicted wherein the retrofit seatbelt system is floor mounted and therefore not reliant on any particular bus seating configuration . in particular , the baseplate 110 and shoulder strap structural component 130 are configured for mounting relative to the floor 120 such that the shoulder strap structural component 130 is positioned behind the seat . advantageously in such embodiments ( and as may be the case in other embodiments as well ), the shoulder strap structural component 130 may include a concave portion curved toward the seat . moreover , the shoulder strap structural component 130 and baseplate 110 may be configured such that an angle of the structural component 130 generally matches an angle of the seat ( e . g ., in an upright or reclined position ) when the shoulder strap structural component 130 is mounted relative to the floor . likewise , the a concave curvature may of the shoulder strap structural component 130 may substantially correspond to the shape of the seat when the shoulder strap structural component 130 is mounted relative to the floor . in some embodiments , the curvature may position an upper portion of the shoulder strap structural component above a position retractor for the shoulder strap . in some embodiments , the shoulder strap structural component and / or the baseplate may include a forward extending structural member for forward positioning one or more of the set belt securing locations ( e . g ., forward positioning the to the buckle clasp / anchor belt securing point ) relative to the shoulder strap structural component . in example embodiments the shoulder strap structural component 130 may be optimized i - beam geometry that varies along its length , e . g ., to minimize weight and enable strength requirement satisfaction for maximum anticipated crash loads . ( 32 ) referring to fig2 d , the embodiment shown therein depicts details of mounting an exemplary baseplate 110 to a floor track 115 , using 6 t - bolts and washers . it is noted that a t - rail track is a steel component which runs the length of the motor coach and is welded to the structure of the bus along its length in some of the motor coach structural designs . thus , the baseplate may advantageously be mounted relative thereto , e . g ., utilizing the mounting features described and depicted in fig2 d or other features . notably , some t - rails are not located directly in the middle of a seat or seat pair . thus , in some embodiments the systems and methods disclosed herein may incorporate an offset between the baseplate mounting points and an axis of the shoulder strap structural component ( see , e . g ., fig6 ). it is also noted that in some embodiments , a length of a base of the seat pedestal can vary . this may pose a challenge with positioning the shoulder strap structural component . behind the seat , as the pedestal may interfere with the baseplate . if , however , the shoulder strap structural component . is positioned too far behind the seat , then it may intrude on the leg room of occupants making it difficult for them to move in and out of the seat . accordingly , in some embodiments , an offset between the baseplate mounting points and an axis of the shoulder strap structural component may account for this issue . in some embodiments , the minimum space clearance required at knee height between the shoulder strap structural component and the seat behind it is approximately 7 - 8 inches ( which provides approximately 4 - 5 inches behind seat in front for the shoulder strap component assuming a front to back seat to seat distance of approximately 12 inches . in some embodiments the baseplate may be configured so as to enable sharing bolt holes with the pedestal base of the seat in front of it ( see , e . g ., fig7 a and 7 b ). in some embodiments , this configuration may include an offset bolt sharing component ( see , e . g ., fig8 a and 8 b ). in other embodiments , the bolt sharing component of the baseplate may be adjustable in length ( see , e . g ., fig9 a and 9 b ) advantageously , the sharing of bolt holes may allow a much tighter placement of the shoulder strap structural component relative to the seat backing , which can make the seat belt much more comfortable for passengers sitting behind it . furthermore , this design configuration may strengthen the inertia of the base of the system at the critical bolt locations , because this assembly combines the inertia of the extended base plate , seat pedestal , and t - rail at these bolt locations to provide a stronger design to resist the bending moments exerted by the worst case frontal crash scenario . in further embodiments , the baseplate and shoulder strap structural component may be configured for replacing a pedestal of an existing seat . thus , for example , as depicted in fig1 a and 10 b , the baseplate or shoulder strap structural component may include a seat mounting component 180 for mounting the seat ( s ) with respect thereto . moreover the baseplate my include a support truss 190 for strengthening an offset position of the shoulder strap structural component ( offset to the rear ) as well as for providing a mounting surface for the seat mounting component 180 ( e . g ., in the event that the seat mounting component 180 is a separate or integral part of shoulder strap structural component ). fig1 c shows and example seat mounting component 180 which is integral with the shoulder strap structural component . notably , as depicted , the seat mounting component may include a front rail 185 with may be adjustable so as to accommodate different seat sizes . with reference now to fig3 a free body diagram is depicted of the shoulder strap and a shoulder strap guide component . in the embodiment shown in fig3 , the retractor for the shoulder strap is disposed on the base plate . embodiments in which the retractor for the shoulder strap is disposed on the post , as shown in fig4 , are also within the scope of these teachings . one concept of the present teachings is to transmit the forces , occurring in an accident , directly to the floor , while the seat frame and the pedestal do not serve as primary structures for these forces . this is necessary because these old seats were not designed to withstand the forces that occur in case of an accident . this feature is accomplished through a base plate anchored to the bus floor , which serves as central connection point for all anchor points of the seat belt assembly . this imposes little requirements to the seat frame and pedestal , what makes the design a universal retrofit option that can be applied to various seats . analysis has shown that it is desirable to have a symmetric design . this means , that the retrofit system can be mounted in the middle of a pair of seats . having one system for every two seat will reduce the components that are needed . retractor , webbing and buckle can be bought as standard components from suppliers , in order to keep costs low . the shoulder strap guide component helps to keep the shoulder belt in position . in addition to that , the shoulder belt changes its direction at the shoulder strap guide component . for the dimensioning , the shoulder strap component ( also referred to as the “ post ”) can be regarded as a straight cantilever beam . in this case it is important to mention , that the post will be used to mount two shoulder strap supports and two retractors , as shown in fig3 . this is because the post will be used for the right and the left seat . for the design of the post , different basic shapes can be considered . the use of simple shapes has the benefit that the material can be bought as stock items . the following shapes have been compared : round tube , rectangular profile , hollow round tube , hollow rectangular profile , t - profile , i - profile and hollow ellipsis . fig5 shows different shapes with dimensions and section modulus . in one embodiment , the i - profile has been chosen because it offers the biggest section modulus relatively to the cross section area . in order to achieve the optimal geometry for the systems and methods disclosed herein , in some embodiments , the baseplate and / or the shoulder strap structural component may be manufactured using a casting process ( either as separate components or as a single integral component ). it may be advantageously to that the baseplate and / or the shoulder strap structural component be produced in two symmetrical halves and then secured ( e . g ., welded together ) at the midline . for the purposes of casting it may be useful that the surfaces are substantially contiguous with smooth transitions therebetween . the following are incorporated by reference herein in their entirety and for all purposes : 1 . office of the federal register national archives and records administration . us government printing office . code of federal regulations ( annual edition ) title 49 - 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[ interv .] douglas eddy and conrad zanzinger . jan . 24 , 2014 . other embodiments and further details of the above disclosed embodiments are presented in the appendixes which follow : although these teachings has been described with respect to various embodiments , it should be realized these teachings is also capable of a wide variety of further and other embodiments within the spirit and scope of the these teachings .