Abstract:
An inside-door-handle device for a vehicle is provided with a base part and a cover. A swinging space is provided between the base part and the cover. The cover has a locking section; the base part has a lock-receiving section. A swing motion of the cover relative to the base part is regulated by the elastic locking between the locking section and the lock-receiving section. If the cover swings relative to the base part due to pushing operation toward the cover, the lock between the locking section and the lock-receiving section is released, and the cover can be separated from the base part.

Description:
TECHNICAL FIELD 
     The present invention relates to an inside-door-handle device for a vehicle. 
     BACKGROUND ART 
     Patent Document 1 discloses an inside-door-handle for a vehicle, in which a fixed part of the inside-door-handle to a vehicle inner panel is covered with a cover body and therefore prevented from being exposed to an outside. 
     PRIOR ART DOCUMENT 
     Patent Document 
     
         
         Patent Document 1: US 2004/0212200 
       
    
     The inside-door-handle disclosed in Patent Document 1 includes a handle base to which an operation handle is pivotally supported and a cover body which is connected to the handle base and covers a fixed part of the handle base to a door panel. The cover body is mounted to the handle base by resiliently locking a locking leg for a releasing operation formed at a side edge to the handle base. A detaching operation is performed by inserting a tool through a gap appearing on a wall surface of the handle base and a surface of the cover body and unlocking the locking leg for the releasing operation. 
     However, since the tool is required, a workability of the detaching operation becomes poor. 
     SUMMARY OF INVENTION 
     Embodiments of the present invention provide an inside-door-handle device for a vehicle which is capable of improving a detaching operability of a cover body. 
     In accordance with embodiments of the present invention, an inside-door-handle device for a vehicle may include a base part BP and a cover body  3  which is removably connected to the base part BP and which covers a connection section  13  of the base part BP to a door-side in a cover body  3  mounted-position where the cover body  3  is mounted to the base part BP. A swinging space  8  may be provided between the base part BP and the cover body  3  in the mounted position. The cover body  3  may have a locking part  4 , the base part BP may have a locked part  5  and the swinging of the cover body  3  relative to the base part BP may be restricted by a resilient locking of the locking part  4  and the locked part  5  so that the cover body  3  is held in the mounted position. An inclined surface part  6  may be formed on at least one of the locking part  4  and the locked part  5 . A force in an unlocking direction may be generated by the inclined part  6  when the cover body  3  is swung relative to the base part BP by a pushing operation of the cover body  3  and therefore the locking of the locking part  4  and the locked part  5  may be released, so that the cover body  3  can be detached from the base part BP. 
    
    
     
       BRIEF DESCRIPTION OF DRAWINGS 
         FIG. 1  is a front view showing an inside handle device. 
         FIG. 2(   a ) is a sectional view taken along a line  2 A- 2 A in  FIG. 1  and  FIG. 2(   b ) is a sectional view taken along a line  2 B- 2 B in  FIG. 1 . 
         FIG. 3  is a front view showing a cover body in a mounted state. 
         FIG. 4(   a ) is a rear view of the cover body.  FIG. 4(   b ) is a view as seen in a direction of an arrow  4 B in  FIG. 4(   a ).  FIG. 4(   c ) is a view as seen in a direction of an arrow  4 C- 4 C in  FIG. 4(   a ). 
         FIG. 5(   a ) to  FIG. 5(   d ) are sectional views taken along a line  5 A- 5 A in  FIG. 3 .  FIG. 5(   a ) shows a mounting operation.  FIG. 5(   b ) shows a completely mounted state.  FIG. 5(   c ) shows a state where a side edge of the cover body is pushed down.  FIG. 5(   d ) shows a state where the locking of the cover body is released. 
         FIGS. 6(   a ) and  6 ( b ) are views showing a fixing structure of the inside handle device in which the cover body is mounted to a door trim.  FIG. 6(   a ) is a view corresponding to  FIG. 2(   a ).  FIG. 6(   b ) is a view corresponding to  FIG. 2(   b ). 
         FIG. 7  is an alternate embodiment corresponding to  FIG. 5(   c ). 
     
    
    
     DESCRIPTION OF EMBODIMENTS 
     Hereinafter, an exemplary embodiment of the present invention will be described with reference to the drawings. Here, the exemplary embodiment is only an example and not intended to limit the invention. It should be noted that all the features or their combinations described in the exemplary embodiment are not necessarily essential to the invention. 
     As shown in  FIGS. 1 to 5(   d ), an inside handle device of the exemplary embodiment is formed by connecting an operation handle  1  and a locking lever  9  to a handle base  2  as a base part BP. The operation handle  1  is rotatable around a handle rotation center axis (C 1 ) between an initial rotation position indicated by a solid line in  FIG. 2(   a ) and an operational rotation position indicated by a dashed line in  FIG. 2(   a ) and connected to a lock device  11  via a cable device  10 . 
     The cable device  10  is formed by slidably inserting an inner cable  10   b  into an outer case  10   a  having one end connected to the handle base  2 . As the operation handle  1  is rotationally operated to the operational rotation position, an operating force is transmitted to the lock device  11  via the inner cable  10  connected to the operation handle  1  and therefore a lock state of a door is released. 
     Further, as shown in  FIG. 2(   b ), the locking lever  9  can be operated to rotate around a lever rotation center axis (C 2 ). As the locking lever  9  is operated to rotate in a clockwise direction by a predetermined angle from the locked rotation position shown, a cancellation part  11   a  of the door-lock device  11  is operated via a cable device  12  connected to the locking lever  9  and then the operation of the door-lock device  11  by the operation handle  1  is restricted. 
     As shown in  FIGS. 2(   a ) to  3 , the inside handle device is fixed to a door panel (not shown) by fixing the handle base  2  to the door panel. The handle base  2  is provided with a through hole  14  through which a fastener  13  used to fix is inserted. 
     In order to cover a head of the fastener  13 , the cover body  3  is mounted to the handle base  2 . The handle base  2  includes a frame part  7  to surround the operation handle  1  and the locking lever  9  as described above. The handle base  2  forms a bottom wall surface excluding a rotational base end of the locking lever  9  and the operation handle  1  in a state where the cover body  3  is mounted thereto. 
     As shown in  FIG. 3 , the handle base  2  is provided with a locked part  5  and a lock opening for locking the cover body  3 , a bearing plane  2   a  for bearing the cover body  3  and a ridge  15  perpendicular to the handle rotation center of the operation handle  1 . 
     As will be described later, the ridge  15  is intended to provide a swinging center of the cover body  3  and a swinging space  8  of the cover body  3 . The bearing plane  2   a  is arranged only at a region where the locked part  5  is provided across the ridge  15 , in order not to interfere with the swinging operation of the cover body  3 . 
     As shown in  FIGS. 4(   a ) to  4 ( c ), the cover body  3  is formed in a plate shape. One side marginal part of the cover body along the operation handle  1  is provided with two locking protrusions  16  and a marginal part thereof facing these protrusions is provided with one claw-shaped locking part  4 . The cover body  3  is mounted to the handle base  2  by pushing the marginal part of the cover body on which the locking part  4  is formed, as indicated by an arrow “a” in  FIG. 5(   a ), in a state where the locking protrusions  16  are locked to an upper edge of the locking opening  17  provided at a lower end of the frame part  7  of the handle base  2 . 
     When the pushing operation is performed, an inner wall surface of the frame part  7  of the handle base  2  guides a peripheral edge of the cover body  3  to lead the locking part  4  to the locked part  5  and the locking part  4  led to the locked part  5  is once elastically deformed to avoid the peripheral edge part of the locked part  5  and then returns to an original shape when facing the locked part  5 . In this way, a locked state is achieved. 
     In a mounted state where the locking of the locking part  4  has been completed, the cover body  3  covers the head of the above-described fastener  13  to prevent exposure to the outside, as shown in  FIG. 1 . 
     Separation of the inside handle device from this state is performed once by separating the cover body  3  and the above-described ridge  15  is provided in the handle base  2  in order to facilitate the separation. As shown in  FIG. 5(   b ), the ridge  15  is formed with a height dimension to come into contact with the rear surface of the cover body  3  in a state where the cover body  3  is mounted. The ridge  15  provides the swinging space  8  of the cover body  3  when the locking of the locking part  4  is released. 
     Further, as shown in  FIG. 5(   b ), the locking part  4  of the cover body  3  is provided with a mounting inclined surface  4   a . During the pushing operation of the cover body  3 , the mounting inclined surface  4   a  is brought into contact with the locked part  5  to generate a reaction force directed inward (to opposite edge) to the locking part  4 . The locking part  4  and the locked part  5  are provided with an inclined surface part  6  to generate a component force in an unlocking direction to the locking part  4  when a swinging force is applied in a counter-clockwise direction in  FIG. 5(   b ). 
     Accordingly, in the exemplary embodiment, when a pushing operation force is applied to a marginal part (the pushing operation part  3 P) on the side where the locking protrusions  16  of the cover body  3  in the mounted state are disposed, a swinging force in a counter-clockwise direction having a contact part with the ridge  15  as a swinging center occurs in the cover body  3 . As described above, the component force in the unlocking direction occurs in the inclined surface part  6  of the locking part  4  by the swinging force. Then, as shown in  FIG. 5(   c ), the locking part  4  is elastically deflexed and thus the locking of the locking part  4  and the locked part  5  is released. In this way, the cover body  3  can be detached from the handle base  2 , as shown in  FIG. 5(   d ). 
     The pushing operation force required for releasing the mounting of the cover body  3  is properly determined in consideration of an incline angle of the inclined surface part  6 , rigidity of the locking part  4  and a gap between the ridge  15  and a pushing operation side end edge. Further, the pushing operation force is set to a magnitude such that the locking of the locking part  4  is not released simply by an erroneous operation. 
     Further, as shown in  FIGS. 1 and 3 , the pushing operation part  3 P is set at a side where the pushing operation part is covered with the operation handle  1  and is not exposed to the outside in a normal state, so that the detachment of the cover due to a prank is prevented as much as possible. 
     In the foregoing description, the inside handle device has a configuration that the handle base  2  is an interior surface forming member  20  for providing an external surface of a panel body in a mounted region of the operation handle  1  and the head of the fastener  12  for fixing the handle base  2  to the door panel is covered with the cover body  3  mounted to the interior surface forming member  20 . Meanwhile, as shown in  FIG. 6 , in a case where a door trim  21  is configured as the interior surface forming member  20 , the cover body is mounted to the door trim  21 . 
     That is, in the structure shown in  FIG. 6 , the handle base  2  is covered with the door trim  21  and a design surface in the mounted region of the operation handle  1  is configured by the door trim  21 . Fixing of the inside handle device is performed by fastening both the door trim  21  and the handle base  2  to the panel using the fastener  13 . The locked part  5 , the locking opening  17  and the ridge  15  or the like are formed in the door trim  21  as the interior surface forming member  20  and the cover body  3  is connected to the door trim  21  as the base part BP. 
     Further, although the door trim  21  and the handle base  2  are fastened to the panel by a single fastener  13  in this fixing structure, the fastening between the door trim  21  and the handle base and the fastening between the handle base  2  and the panel may be performed by separate fasteners, respectively. 
     In  FIG. 6 , the same or similar components as in the structure of  FIGS. 1 to 5(   d ) are denoted by the same or similar reference numerals, and a duplicated description thereof will be omitted. 
     According to the exemplary embodiment, the door-inside-handle device includes the base part BP (the handle base  2 , the door trim  21 ) and the cover body  3  which is removably mounted to the base part BP and covers the fixing part of the base part BP to the door panel. The swinging space ( 8 ) is formed between the cover body  3  and the handle base  2  when the cover body  3  is in the mounted position. By locking the locking part  4  formed on a side edge of the cover body  3  and the locked part  5  of the handle base  2  to each other while elastically deforming either or both the locking part  4  and the locked part  5 , the swinging operation is prohibited and the mounted state is maintained. 
     The inclined surface part  6  is formed between the locking part  4  and the locked part  5  and intended to generate a component force in an unlocking direction to the locking part  4  or the locked part  5  by applying a swinging operation force to the cover body  3 . The component force in the unlocking direction occurs in the locking part  4  or the locked part  5  by applying a pushing force directed inward the base part BP to one side edge of the cover body  3 . 
     Accordingly, when the magnitude of the component force by the inclined surface part  6  and the locking force in the locking part  4  and the locked part  5  are properly set, it is possible to detach the cover body  3  simply by providing the pushing operation force to the side edge of the cover body  3 . As a result, a special tool is not required and therefore the detaching operability is improved. 
     The cover body  3  in the mounted state covers substantially the entire base part BP and is formed as an escutcheon to determine a design exterior of the inside handle device. Alternatively, the cover body  3  may be mounted to a bottom wall of the base part BP including the frame part  7  to accommodate the operation handle  1  as the design exterior surface, thereby covering only a region near the fixed part. 
     In addition to providing a special part (for example, the ridge  15  formed in the base part BP or the cover body  3 ) set for forming a swinging center, the swinging center of the cover body  3  in a mounted posture may be configured as a result of the contact state or the like without forming the special part. 
     The locking part  4  may be provided on a marginal part intersecting a swinging center axis, in addition to a marginal part along the swinging center axis. Further, the swinging restriction may be performed only by the locking of the locking part  4  and the locked part  5  or one swinging end may be determined by using a side edge as a contact edge with the base part BP. 
     Further, when the locking part  4  is formed to protrude from the rear surface of the cover body  3 , a locking region between the locking part  4  and the locked part  5  does not appear on the surface and therefore it is possible to improve an outer appearance. 
     Further, when the pushing operation part  3 P of the cover body  3  is disposed at a position where the pushing operation part is covered with the operation handle  1  in an initial rotation position, it is possible to reduce the possibility that the pushing operation part  3 P is erroneously pushed and the cover body  3  is detached. 
     Further, the cover body  3  may be mounted to the handle base  2  or may be mounted to the interior surface forming member  20  (such as the door trim  21 ) which is used for forming the interior (an exterior design surface) of the door body in the mounted position of the operation handle  1 . 
     According to the above-described exemplary embodiment, since a tool is not required in the detaching operation of the cover body, it is possible to improve the detaching operability. 
     DESCRIPTION OF REFERENCE NUMERALS 
     
         
           1  OPERATION HANDLE 
           2  HANDLE BASE 
           3  COVER BODY 
           3 P PUSHING OPERATION PART 
           4  LOCKING PART 
           5  LOCKED PART 
           6  INCLINED SURFACE PART 
           7  FRAME PART 
           8  SWINGING SPACE 
           20  INTERIOR SURFACE FORMING MEMBER 
           21  DOOR TRIM 
         BP BASE PART