JP4206171B2 - Lid lock device for glove box - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is for a glove box in which a lock bar that is slidably fitted into a sliding hole of a body is spring-biased in a direction in which an end portion protrudes from one end of the sliding hole to engage a striker The present invention relates to a lid lock device.
[0002]
[Prior art]
Conventionally, such a lid lock device is already known from Utility Model Registration Publication No. 2559400.
[0003]
[Problems to be solved by the invention]
By the way, when an external force in the opening direction is applied to the lid when the lid is in the closed state where one end of the lock bar is engaged with the striker, a large force acts on the lock bar toward the back side of the lid. It is necessary to set the support strength of the lock bar by the body from the back side to a large value. In the above-mentioned conventional type, the wall thickness of the side wall that forms the sliding hole in the body is set to be large at least at the portion corresponding to the back side of the lid. This will lead to an increase in body size and weight.
[0004]
The present invention has been made in view of such circumstances, and provides a lid lock device for a glove box that can support a lock bar with sufficient support strength while avoiding an increase in body size and weight. For the purpose.
[0005]
[Means for Solving the Problems]
In order to achieve the above object, the present invention is provided with an insertion port for removably inserting a striker provided on the box body side on the back of a lid that can open and close the opening of the box body, and the insertion port A body having a slide hole extending in a direction substantially perpendicular to the direction in which the striker is inserted into the lid is attached to the lid , and a lock bar is attached to the slide hole , and one end of the lock bar is connected to one end of the slide hole. And the engagement position where the striker is engaged by protruding from the engagement position and the engagement release position which is accommodated in the slide hole so as to be released from the engagement are fitted and slidable. An inclined surface that is spring-biased to the engagement position side and that can be overcome by the striker coming into contact with the striker entering the insertion port is provided at the one end of the lock bar in the insertion direction. In front In the lid lock apparatus for a name Ru glove box is formed to be inclined to the selfish upper, of the locking bar on both sides sandwiching the inclined surface, the lock in front of the edge portion in the insertion direction of both side surfaces a pair of protrusions extending along the sliding direction of the bar is provided integrally without protruding to the rear side of the one end portion of the respective protrusion in the insertion direction from the inclined surface, opposite of the slide hole It said pair of ridges on the pair of guide grooves provided respectively on the inner surface of is slidably fitted respectively in the support wall provided in the body to face the opening at one end of the sliding hole, the striker the removing direction from the insertion opening, characterized in that the pair of support surfaces, respectively from the opposite side to the one end of the two ridges may abut is formed.
[0006]
According to such a configuration, one end of the pair of protrusions on both sides of the lock bar is supported when an external force in the opening direction is applied to the lid in a closed state where the end of the lock bar is engaged with the striker. respectively supported in contact with the pair of support surfaces of the wall portion, and in a portion corresponding to the sliding holes of the lock bar is supported by the engagement of the guide grooves of the pair of ridges, the striker of the lock bar The lock bar is supported by the body on both sides of the engagement portion, and it is not necessary to increase the thickness of the body. It becomes possible to support with the support strength.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below based on one embodiment of the present invention shown in the accompanying drawings.
[0008]
1 to 13 show an embodiment of the present invention, FIG. 1 is a front view of a glove box, and FIG. 2 is an enlarged cross-sectional view of a lid and a lid lock device taken along line 2-2 of FIG. 3 is a rear view of the lid lock device as viewed from the direction of the arrow 3-3 in FIG. 2, FIG. 4 is an exploded perspective view of the lid lock device as seen from the front side obliquely below, and FIG. 5 is a rear view of the lid lock device. FIG. 6 is an exploded perspective view of the lid lock device as seen from obliquely below the rear side, FIG. 7 is an enlarged sectional view taken along line 7-7 of FIG. 2, and FIG. 8 is 8-8 of FIG. 9 is an enlarged sectional view taken along line 9-9 of FIG. 3, FIG. 10 is a sectional view taken along line 10-10 of FIG. 9, and FIG. 11 corresponds to FIG. 2 in a state where the operation knob is operated to the open side. 12 is a rear view of the lid lock device as viewed from the direction of arrows 12-12 in FIG. 11, and FIG. It is a view corresponding to FIG. 12 in the state in the turned position.
[0009]
First, in FIG. 1, an instrument panel 15 disposed in a front part of a passenger compartment of a passenger vehicle is composed of a box body 16 that is integral with the instrument panel 15 and a lid 17 that can open and close the opening of the box body 16. A glove box 18 is provided in front of the passenger seat 19.
[0010]
A lid lock device 20 is provided between the lid 17 and the box body 16 to maintain the lid 17 in a closed state. The lid lock device 20 unlocks the cylinder lock 21 that faces the front of the lid 17. By operating the operation knob 22 in a state where the key is operated in the locked state, the lid 17 is operated to release the closed state.
[0011]
In FIG. 2, the lid 17 has a front plate 17a on the front side and a back plate 17b on the back side with a space between the front plate 17a and is formed in a hollow shape with a synthetic resin. An insertion port 24 through which the striker 23 provided on the box body 16 side is removably inserted is provided at the upper part of the back plate 17b. A part of the cylinder lock 21 is disposed on the front plate 17a, and an operation knob is provided. A housing recess 25 is provided for housing 22 so as to be openable and closable.
[0012]
3 to 6, the lid lock device 20 is made of synthetic resin and is attached to the lid 17. The lid lock device 20 can be engaged with the striker 23 and slides on the body 26. It includes a lock bar 27 that can be fitted, an operation knob 22 that is supported by the body 26 so as to be openable and closable, and an operating lever 29 having one end connected to a rotor 28 provided in the cylinder lock 21.
[0013]
The body 26 is housed in the lid 17, and bolts (not shown) inserted through the through holes 30 and 31 provided on both sides of the body 26 are screwed into the back plate 17 b of the lid 17. The body 26 is fixed to the lid 17.
[0014]
The body 26 is provided with a sliding hole 33 extending in a direction substantially perpendicular to the insertion direction 32 of the striker 23 into the insertion port 24, and one end opening of the sliding hole 33 is formed on the lid 17 with the body 26. In an attached state, it is arranged inside the insertion hole 24.
[0015]
The body 26 has an opposing wall portion 34 facing the striker 23 entering from the insertion port 24, and a support wall facing the opening portion of the sliding hole 33 and extending substantially perpendicular to the opposing wall portion 34. A rubber stopper 36 is attached to the opposing wall 34 to abut against the incoming striker 23 and restrict the entry end of the striker 23 into the body 26.
[0016]
In FIG. 7, the sliding hole 33 is formed to have a substantially rectangular cross-sectional shape, and the lock bar 27 having a cross-sectional shape corresponding to the inner surface shape of the sliding hole 33 slides on the sliding hole 33. It is movably fitted. Moreover the lock bar 27, a pair of ridges 38, 38 projecting outward in a plane substantially orthogonal to the insertion direction 32 of the striker 23 is provided integrally over the entire axial length, relative to the slide hole 33 A pair of guide grooves 39, 39 for fitting the protrusions 38, 38 so as to be slidable are provided on the inner surface facing each other .
[0017]
Further, as shown in FIG. 8, a recess 40 for accommodating one end of the lock bar 27 protruding from the sliding hole 33 is provided on the inner surface of the support wall portion 35 facing the one end opening of the sliding hole 33. In addition, on the inner surface of the recess 40, support surfaces 41, 41 are formed which abut against one end of each of the protrusions 38, 38 in a direction opposite to the direction in which the striker 23 is removed from the insertion port 24.
[0018]
The body 26 is provided with a synthetic resin cover 42 that closes the other end of the sliding hole 33. The cover 42 is in contact with the cover main portion 42a in such a manner that the flat cover main portion 42a that covers the other end of the sliding hole 33 and the front side and the back side of the body 26 are elastically contacted two by two. .. Are integrally provided with four engaging portions 42b, 42b... Connected in a right angle and a protrusion 42c protruding from the center of the inner surface of the cover main portion 42a. Holes 43 are provided.
[0019]
On the other hand, the body 26 is provided with engaging claws 45, 45... That engage with the engaging holes 43, 43..., And the cover 42 is engaged with the engaging holes 43 of the engaging portions 42b, 42b. , 43... Are engaged elastically with the body 26 so that the engaging claws 45, 45. In addition, when the body 26 is attached to the lid 17, at least one of the engaging portions 42b, 42b..., In this embodiment, the back plate 17b of the lid 17 of the engaging portions 42b, 42b. The two engaging portions 42 b and 42 b are pressed to the side maintaining the elastic engagement with the body 26 on the inner surface of the back plate 17 b in the lid 17.
[0020]
A coil-shaped spring 46 is provided between the cover main portion 42 a and the other end of the lock bar 27 in the cover 42, and the lock bar 27 has one end portion of the slide hole 33 formed by the spring force exerted by the spring 46. It is urged in a direction to project from one end. In addition, a protrusion 42 c included in the cover 42 is fitted to the end of the spring 46 on the cover 42 side in order to position the spring 46.
[0021]
At one end of the lock bar 27, an inclined surface 47 is formed on the side facing the striker 23 that enters the insertion port 24, and the spring force of the spring 46 pushes the lock bar 27 from one end of the sliding hole 33. When the striker 23 enters from the insertion port 24 with one end protruding, the striker 23 comes into contact with the inclined surface 47 and pushes down the lock bar 27 against the spring force of the spring 46. Thus, when the striker 23 gets over the one end portion of the lock bar 27, the lock bar 27 protrudes and engages with the striker 23 by the spring force of the spring 46. That is, the lock bar 27 is housed in the slide hole 33 so that one end portion protrudes from the slide hole 33 and engages with the striker 23 and the engagement with the striker 23 is released. It slides in the sliding hole 33 between the engagement release positions. Thus, as shown in FIGS. 2 and 4 to 8, the lock bar 27 has both sides of the inclined surface 47 sandwiching the front side in the direction in which the striker 23 is inserted (FIGS. 2, 7, 8). A pair of ridges 38 extending along the sliding direction (vertical direction in FIG. 2) of the lock bar 27 at the edge of the right side), and one end of each ridge 38 is inserted from the inclined surface 47 to the above-mentioned It is provided integrally without protruding rearward (left side in FIG. 2) in the direction.
[0022]
A pair of brackets 48, 49 project from the front side of the body 26 at two positions sandwiching the sliding hole 33 so as to project into the housing recess 25 provided in the front plate 17 a of the lid 17. A plurality of support portions 51, 51... Provided on the upper inner surface of the operation knob 22 are rotatably supported by a support shaft 50 supported by both brackets 48 and 49. In addition, a restriction plate 52 is projected on the inner surface of the operation knob 22, and the restriction plate 52 contacts the lower surface of the body 26 with the operation knob 22 closed as shown in FIG. The end of rotation to the closing side is restricted.
[0023]
Further, a substantially L-shaped engaging plate portion 53 is integrally provided at the center in the width direction on the inner surface of the operation knob 22 so as to protrude toward the body 26, and the engaging plate portion 53 is provided on the operation knob 22. At the time of assembling to the body 26, it is arranged at a position corresponding to between the bracket 48 and the sliding hole 33.
[0024]
The body 26 is integrally provided with a cylindrical cylinder portion 54 in which the rotor 28 of the cylinder lock 21 is rotatably fitted so as to be disposed between the bracket 49 and the through hole 31. A portion of the lid 17 facing the receiving recess 25 of the lid 17 is covered with a cylinder cover 55 made of synthetic resin. Thus, the cylinder cover 55 is elastically engaged with the body 26 by engaging engagement holes 57 provided in the cylinder cover 55 with a plurality of engagement claws 56 provided on the body 26. Installed.
[0025]
The rotor 28 is fitted into the cylinder portion 54 with the front end facing a circular opening 58 provided on the front surface of the cylinder cover 55, and the rear end of the rotor 28 protrudes from the rear end of the cylinder portion 54. In addition, a connecting shaft 59 is provided at a position eccentric from the axis of the rotor 28 on the rear end surface of the rotor 28.
[0026]
The actuating lever 29 has a plate-like lever main portion 29a that partially slides against the rear end surface of the rotor 28 in the cylinder lock 21 and faces the back surface of the body 26, and one end connected to the lever main portion 29a. The connecting arm portion 29b formed in a substantially L shape is integrally formed of a synthetic resin. Moreover, the connecting arm portion 29b is arranged so as to go around from the lever main portion 29a arranged on the back side of the body 26 to the front side of the body 26, so that the connecting arm portion 29b penetrates the body 26. A communication hole 60 that connects the front surface and the back surface of the body 26 is provided.
[0027]
Referring to FIGS. 9 and 10 together, on the back surface of the body 26 at the portion facing the lever main portion 29a of the actuating lever 29, the arm portion is at the tip of the shaft portion 61a whose base end is connected to the body 26 at a right angle. An L-shaped hook 61 formed by connecting 61b at right angles is provided integrally. On the other hand, the lever main portion 29a of the operating lever 29 is provided with a guide hole 62 for guiding the shaft portion 61a of the hook 61 and an insertion hole 63 through which the arm portion 61b of the hook 61 can be inserted in an L shape. .
[0028]
The lever main portion 29 a is provided with a long hole 64 extending in parallel with the guide hole 62, and the lever main portion 29 a between the long hole 64 and the guide hole 62 has another portion of the lever main portion 29 a. The elastic deformation part 65 made thinner is provided.
[0029]
On the side facing the arm portion 61 b of the hook 61, the elastic deformation portion 65 has a guide groove 66 extending parallel to the guide hole 62 and a pair of recesses 67 and 68 connecting both ends of the guide groove 66. The depth of the guide groove 66 that is formed is set to be shallower than the depths of the concave portions 67 and 68.
[0030]
The arm 61b of the hook 61 is provided with a protrusion 69 that can be fitted into the guide groove 66 and the recesses 67 and 68. A part of the lever main portion 29a is formed on the protrusion 69 on the rear end surface of the rotor 28. The elastic deformation portion 65 is pressed by being in sliding contact.
[0031]
A connecting hole 70 is provided in the lever main portion 29 a which is one end of the operating lever 29, and a connecting shaft 59 provided in the rotor 28 in the cylinder lock 21 is inserted into and engaged with the connecting hole 70. Accordingly, the operation lever 29 is linearly operated according to the rotation of the rotor 28 by the key operation of the cylinder lock 21. That operative position allowed to fitting the protrusion 69 into the recess 67 when the cylinder lock 21 is in the unlocking state (a position shown in FIG. 3), fits into the recess 68 of the projection 69 when the cylinder lock 21 is in the locked state The operating lever 29 operates linearly between the non-operating positions to be aligned. Thus, the protrusion 69 slides in the guide groove 66 of the operating lever 29 during linear movement between the operating position and the non-operating position, and the guide hole 62 that guides the shaft portion 61a of the hook 61 is also provided. And configured to allow linear movement of the actuating lever 29 between the actuated position and the non-actuated position.
[0032]
A slit 71 that opens the inner surface of the sliding hole 33 to the outside is provided at a portion corresponding to the sliding hole 33 on the front side of the body 26, and extends in the axial direction of the sliding hole 33. An engaging protrusion 72 provided at right angles to the other end of the bar 27 protrudes from the slit 71 to the outside. On the other hand, the connecting arm portion 29b included in the actuating lever 29 is disposed above the engaging protrusion 72, and is fitted to the engaging protrusion 72 from above on the lower surface of the intermediate portion of the connecting arm portion 29b. , A pressing recess 73 is provided. The pressing recess 73 is formed relatively long along the moving direction of the operating lever 29 so that it can be fitted to the engaging protrusion 72 regardless of the movement between the operating position and the non-operating position of the operating lever 29. Is done.
[0033]
Further, at the other end of the connecting arm portion 29b, a receiving portion 74 that can be brought into contact with the engaging plate portion 53 provided on the operation knob 22 from below is provided. The receiving portion 74 operates the operating lever 29. In the state where it is in the position, it can come into contact with the engagement plate portion 53 from below, but in the state where the operation lever 29 is in the non-operation position, it is retracted from the position where it comes into contact with the engagement plate portion 53 from below. Therefore, when the operating knob 22 is operated to the open side with the operating lever 29 in the operating position, the engaging plate portion 53 comes into contact with and presses the receiving portion 74 from above as shown in FIGS. The operating lever 29 pivots downward with the fitting portion of the projection 69 into the recess 67 as a fulcrum, and the lock recess 27 engages with the engagement projection 72 of the lock bar 27 to lock the lock bar 27. The actuating force that actuates the bar 27 toward the disengagement position side acts. As a result, the engagement of the lock bar 27 with the striker 23 is released, and the lid 17 can be opened.
[0034]
On the other hand, when the operation knob 22 is operated to the open side while the operation lever 29 is in the non-operation position, the engagement plate portion 53 does not contact the receiving portion 74 from above as shown in FIG. The operation on the opening side of 22 is idle, and the operating force from the operating lever 29 toward the disengagement position side does not act on the lock bar 27. That is, the engagement of the lock bar 27 with the striker 23 is not released, and the lid 17 cannot be opened.
[0035]
By the way, the operating lever 29 rotates at the operating position with the fitting portion of the projection 69 to the recess 67 as a fulcrum. The connecting hole 70 through which the connecting shaft 59 of the rotor 28 is inserted and engaged is described above. For example, it is formed in an arc shape centering on the fulcrum so as to allow the operation lever 29 to rotate around the fulcrum. In this embodiment, the connecting hole 70 is open on the side surface of the lever main portion 29a of the operating lever 29. However, the connecting hole 70 may be formed in a closed shape.
[0036]
Next, the operation of this embodiment will be described. A cover 42 attached to the body 26 with a spring 46 that exerts a spring force in a direction to engage the lock bar 27 with the striker 23 interposed therebetween. Are made of synthetic resin, and the plurality of engaging portions 42b, 42b,... Provided in the cover 42 are elastically engaged with the body 26, so that the cover 42 can be easily attached to the body 26, and the lid lock device. 20 assembly workability can be improved.
[0037]
In addition, when the lid lock device 20 is assembled to the lid 17, at least one of the plurality of engaging portions 42 b, 42 b... Provided in the cover 42, in this embodiment, two maintain the elastic engagement with the body 26. It is pressed by the inner surface of the lid 17 on the side to be closed. Therefore, in the portion pressed by the inner surface of the lid 17, the elastic engagement state of the engaging portion 42 b to the body 26 is not undesirably released, and the mounting state of the cover 42 to the body 26 is reliably maintained. be able to.
[0038]
In addition, a pair of protrusions 38, 38 disposed in a plane substantially orthogonal to the insertion direction 32 of the striker 23 and provided integrally with the lock bar 27 are provided with a pair of guide grooves 39 provided on the inner surface of the sliding hole 33. 39 is slidably fitted to the support wall 35 provided on the body 26 so as to face one end opening of the slide hole 33, and protrudes from the opposite side of the striker 23 from the insertion port 24. Support surfaces 41 and 41 that can come into contact with one end of the strips 38 and 38 are formed. Therefore, when an external force in the opening direction is applied to the lid 17 in a closed state of the lid 17 in which the striker 23 is engaged with one end portion of the lock bar 27 in the engagement position, one end portion of the lock bar 27 is supported by the support wall portion 35. The portion corresponding to the sliding hole 33 of the lock bar 27 is supported by contact with the surfaces 41 and 41, and is supported by fitting the pair of protrusions 38 and 38 into the guide grooves 39 and 39, and the striker 23 The lock bar 27 is supported by the body 26 on both sides of the engaging portion to the lock bar 27. Accordingly, it is not necessary to increase the support strength by increasing the thickness of the body 26, and the lock bar 27 can be supported with sufficient support strength while avoiding an increase in size and weight of the body 26.
[0039]
Further, the body 26 is provided with an L-shaped hook 61 in which an arm portion 61b is connected at a right angle to the tip of a shaft portion 61a whose base end is connected to the body 26 at a right angle, and the rotor 28 of the cylinder lock 21 is provided. The operating lever 29 having one end portion through which the connecting shaft 59 is inserted and engaged is inserted through the guide lever 62 for guiding the shaft portion 61a of the hook 61 and the arm portion 61b of the hook 61. The through hole 63 to be obtained is provided continuously in an L shape. Therefore, the arm portion 61 b of the hook 61 is inserted into the insertion hole 63 of the operation lever 29, and the relative position of the operation lever 29 with respect to the body 26 is determined so that the shaft portion 61 a of the hook 61 is positioned in the middle portion of the guide hole 62. Thus, the operating lever 29 can be engaged with and supported by the hook 61.
[0040]
Moreover, since the connecting shaft 59 of the rotor 28 is inserted into and engaged with the communication hole 70 provided at one end of the operating lever 29, the portion of the lid lock device 20 excluding the rotor 28 of the cylinder lock 21 is assembled. It is possible to connect the operating lever 29 and the connecting shaft 59 so that the rotor 28 is finally assembled into the cylinder portion 54 of the body 26, and the assembly workability can be improved. It becomes.
[0041]
The lever main portion 29a of the operating lever 29 made of synthetic resin has a pair of recesses 67, 68 respectively corresponding to the operating position and the non-operating position of the operating lever 29, and is shallower than the recesses 67, 68. An elastically deformable portion 65 formed with a guide groove 66 connecting between both concave portions 67 and 68 is provided. In the guide groove 66 provided on the arm portion 61b of the hook 61, that is, on the body 26 side and extending between the both concave portions 67 and 68. The actuating lever 29 is arranged so as to press the protrusion 69 that can slide in the elastic deformation portion 65.
[0042]
Therefore, when the operating lever 29 moves between the operating position and the non-operating position in accordance with the rotation of the rotor 28, the protrusion 69 slides in the guide groove 66. However, the guide groove 66 has the recesses 67 and 68. The projection 69 slides in the guide groove 66 while bending the elastic deformation portion 65 during the operation of the operation lever 29 between the operation position and the non-operation position. The frictional force of the protrusion 69 becomes relatively large. For this reason, the operation force during the key operation of the cylinder lock 21 between the unlocking position corresponding to the non-operating position and the unlocking position corresponding to the operating position becomes relatively large. When the lock position is reached, the reaction force acting on the key is abruptly reduced by fitting the projection 69 into the recesses 67 and 68, respectively, and a sense of moderation is obtained in the key operation of the cylinder lock 21. Become. Moreover, in order to obtain a sense of moderation, the elastically deforming portion 65 in which the pair of concave portions 67 and 68 and the guide groove 66 are formed is provided on the operating lever 29 and only the projection 69 is provided on the body 26 side. It is possible to obtain a sense of moderation in key operations with a simple structure that is avoided.
[0043]
Although the embodiments of the present invention have been described in detail above, the present invention is not limited to the above-described embodiments, and various design changes can be made without departing from the present invention described in the claims. Is possible.
[0044]
【The invention's effect】
As described above, according to the present invention, when an external force in the opening direction is applied to the lid in a closed state where the one end of the lock bar is engaged with the striker, one end of the pair of protrusions on both side surfaces of the lock bar. Since the portion is supported by being in contact with the pair of support surfaces of the support wall portion, and the portion corresponding to the sliding hole of the lock bar is supported by the fitting of the pair of protrusions into the guide groove, on both sides of the engaging portion of the lock bar so that the lock bar is supported by the body, it is not necessary to increase the thickness of the body, thus, an increase in the size of the body, while avoiding heavy reduction It becomes possible to support the lock bar with sufficient support strength.
[Brief description of the drawings]
FIG. 1 is a front view of a glove box.
FIG. 2 is an enlarged cross-sectional view of the lid and the lid lock device shown along line 2-2 in FIG.
FIG. 3 is a rear view of the lid lock device as viewed from the direction of arrows 3-3 in FIG. 2;
FIG. 4 is an exploded perspective view of the lid lock device as seen from diagonally below the front side.
FIG. 5 is a perspective view of the lid lock device as viewed from obliquely above the back side.
FIG. 6 is an exploded perspective view of the lid lock device as viewed from obliquely below the back side.
7 is an enlarged cross-sectional view taken along line 7-7 in FIG.
8 is an enlarged cross-sectional view taken along line 8-8 of FIG.
9 is an enlarged cross-sectional view taken along line 9-9 of FIG.
10 is a cross-sectional view taken along line 10-10 of FIG.
FIG. 11 is a cross-sectional view corresponding to FIG. 2 in a state where the operation knob is operated to the open side.
12 is a rear view of the lid lock device as viewed from the direction of arrows 12-12 in FIG. 11;
FIG. 13 is a view corresponding to FIG. 12 in a state where the operating lever is in the non-operating position.
[Explanation of symbols]
16 ... Box body 17 ... Lid 20 ... Lid lock device 23 ... Striker 24 ... Insert port 26 ... Body 27 ... Lock bar 32 ... Insertion direction 33 ... Sliding hole 35 ... support wall 38 ... projection 39 ... guide groove 41 ... support surface
47 ... inclined surface

Claims (1)

An insertion port (24) for removably inserting a striker (23) provided on the box body (16) side is provided on the back surface of the lid (17) capable of opening and closing the opening of the box body (16), A body (26) having a sliding hole (33) extending in a direction substantially perpendicular to the insertion direction (32) of the striker (23) into the insertion port (24) is attached to the lid (17), and the sliding A lock bar (27) is provided in the moving hole (33) with an engagement position at which one end of the lock bar (27) protrudes from one end of the sliding hole (33) to engage the striker (23). , And is slidably engaged with an engagement release position accommodated in the slide hole (33) so as to release the engagement, and is spring-biased toward the engagement position , The one end of the lock bar (27) On the side facing the striker (23) entering the inlet (24), an inclined surface (47) on which the striker (23) abuts and can be overcome is inclined upward in the insertion direction. in the lid lock apparatus for ing glove box is,
A pair of both sides of the lock bar (27) sandwiching the inclined surface (47) extends along the sliding direction of the lock bar (27) at the front edge in the insertion direction of the both side surfaces. ridges (38), together with the provided integrally without protruding to the rear of the one end portion of each ridge (38) in the insertion direction from the inclined surface (47), said sliding hole (33) The pair of protrusions (38) are slidably fitted into a pair of guide grooves (39) respectively provided on opposite inner surfaces,
Opposing direction of the striker (23) from the insertion port (24) is opposite to the support wall (35) provided in the body (26) so as to face one end opening of the sliding hole (33). A glove box lid lock device, wherein a pair of support surfaces (41) capable of coming into contact with one end of each of the protrusions (38) from the side are formed.

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