Door lock mounting structure, door lock assembly, and vehicle

Abstract

The utility model relates to a kind of car door lock mounting structure, car door lock assembly and vehicle, comprising: reinforcing plate, suitable for being connected with door;Support, riveting with reinforcing plate, support includes deformation part;Lock mounting piece, be located in support, the shape of deformation part is variable, to make the riveting point of support and reinforcing plate and the relative position of lock mounting piece adjustable.The car door lock mounting structure of the utility model can fix the lock body of car door lock assembly on door, also can realize the adjustment of the relative position between door and lock body, and not easy to cause structural failure, beneficial to ensure the connection of door and lock body.

Description

Technical Field

[0001] This utility model relates to the field of vehicle door lock installation technology, specifically to a vehicle door lock installation structure, a vehicle door lock assembly, and a vehicle. Background Technology

[0002] In the related technology, the vehicle body is equipped with a locking pin and the door is equipped with a locking body. When the door is closed, the locking pin and the locking body cooperate to fix the relative position between the vehicle body and the door. However, during the vehicle assembly process, when the door is closed, there may be a gap or surface difference between the door and the vehicle body. Therefore, it is necessary to adjust the relative position between the locking body and the door.

[0003] Therefore, in some vehicles, the lock body and the bracket are connected, and the bracket is welded to the door. The bracket has a deformation part. By knocking on the lock body, the knocking force is transmitted to the bracket through the lock body, causing the deformation part to deform and adjust the relative position between the lock body and the door. However, the welded joint between the bracket and the door is prone to failure under the knocking force, causing the lock body and the door to shake or even separate, affecting the closing of the door. Utility Model Content

[0004] One objective of this utility model is to provide a door lock installation structure to solve the problem of welding point failure under stress when adjusting the relative position between the lock body and the door in the prior art. Another objective of this utility model is to provide a door lock assembly. A third objective of this utility model is to provide a vehicle.

[0005] To achieve the above objectives, the technical solution adopted by this utility model is as follows:

[0006] A door lock mounting structure includes: a reinforcing plate adapted to be connected to a door; a bracket riveted to the reinforcing plate, the bracket including a deformable portion; and a lock mounting member disposed on the bracket, the deformable portion having a variable shape so that the relative position of the riveting point of the bracket and the reinforcing plate and the lock mounting member is adjustable.

[0007] Based on the aforementioned technical means, the door lock mounting structure is installed on the door via a reinforcing plate, and the lock body is installed on the door lock mounting structure via a lock mounting component, enabling positioning between the lock body and the door. When the door is closed, if there is a large gap between the door and the body, or a significant surface difference between the door and the body, i.e., when adjustment of the gap or surface difference between the door and the body is required, a rubber hammer can be used to tap the lock body in the direction of adjustment. The tapping force is transmitted to the bracket through the lock body and the lock mounting component, causing the deformation part to deform in the direction of the tapping force, thereby moving the lock mounting component and the lock body, thus completing the adjustment of the gap and surface difference between the door and the body. Furthermore, because the riveted part is riveted to the reinforcing plate, the connection between the riveted part and the reinforcing plate has high stability. Therefore, the riveted part and the reinforcing plate will not separate due to the aforementioned tapping force, which helps ensure the structural reliability of the door lock mounting structure.

[0008] Furthermore, the bracket is provided with a first riveting post, the reinforcing plate is provided with a first riveting hole, the first riveting post passes through the first riveting hole, and the end of the first riveting post facing away from the bracket abuts against the side of the reinforcing plate facing away from the bracket; or, the bracket is provided with a second riveting hole, the reinforcing plate is provided with a second riveting post, the second riveting post passes through the second riveting hole, and the end of the second riveting post facing away from the reinforcing plate abuts against the side of the bracket facing away from the reinforcing plate; or, the door lock mounting structure includes a riveting member, the reinforcing plate is provided with a first riveting hole, the bracket is provided with a second riveting hole, the riveting member passes through the first riveting hole and the second riveting hole, and the riveting member abuts against the side of the reinforcing plate facing away from the bracket and the side of the bracket facing away from the reinforcing plate.

[0009] Based on the above-mentioned technical means, it is possible to achieve riveting between the reinforcing plate and the bracket.

[0010] Furthermore, the bracket also includes: a riveting part, which is riveted to the reinforcing plate, and one end of the deformable part is connected to the riveting part; a lock mounting part, which is connected to the lock mounting member and is spaced apart from the riveting part, and the other end of the deformable part is connected to the lock mounting part; wherein, there are multiple deformable parts, and the multiple deformable parts are spaced apart along the circumference of the riveting part.

[0011] Based on the above technical means, on the one hand, the connection strength between the riveted part and the lock mounting part can be increased, and on the other hand, the adjustable range of the relative position between the lock body and the door can be increased.

[0012] Furthermore, at least two of the deformed portions are arranged with their extension directions intersecting.

[0013] According to the above-mentioned technical means, the lock mounting component can move relative to the riveted part in at least two directions, and thus the lock body can move relative to the riveted part in at least two directions. This is beneficial for adjusting the position of the lock body, reducing the door closing time gap, and improving the appearance quality of the door.

[0014] Furthermore, there are multiple lock mounting members, and each lock mounting member is located between two adjacent deformable parts in the circumferential direction of the riveting part.

[0015] Based on the above technical means, each lock mounting component can adjust its position through its two adjacent deformation parts, which can improve the position adjustment accuracy between the lock body and the door.

[0016] Furthermore, the deformable portion is provided with at least one bent section, which protrudes in a direction away from the reinforcing plate.

[0017] Based on the above-mentioned technical means, by changing the height of the protrusion in the bending section, the deformation part can be deformed, and the structure is relatively simple.

[0018] Furthermore, the lock mounting component includes a first mounting component and a second mounting component. The first mounting component is disposed on the bracket, and the second mounting component passes through the first mounting component and is connected to the first mounting component. The second mounting component passes through the bracket and the reinforcing plate.

[0019] Based on the above technical means, the lock mounting component can not only install the lock body on the door lock mounting structure, but also fix the relative position between the reinforcing plate and the bracket, which is beneficial to improving the installation stability between the reinforcing plate and the bracket.

[0020] Furthermore, the reinforcing plate has a mounting groove on the side facing the bracket, and the bracket is located in the mounting groove.

[0021] Based on the above technical means, on the one hand, the relative position between the reinforcing plate and the bracket can be located, improving the positioning reliability of the reinforcing plate and the bracket; on the other hand, the overall thickness of the reinforcing plate and the bracket can be reduced, which is beneficial to reducing the volume of the reinforcing plate and the bracket.

[0022] A door lock assembly includes the aforementioned door lock mounting structure; a lock body connected to a lock mounting component; and a lock pin adapted to be connected to the vehicle body and configured to cooperate with the lock body.

[0023] A vehicle includes a body; a door rotatably disposed on the body; and the aforementioned door lock assembly, wherein the reinforcing plate is disposed on the door and the locking pin is disposed on the body.

[0024] The beneficial effects of this utility model are:

[0025] (1) The door lock mounting structure is installed on the door via a reinforcing plate, and the lock body is installed on the door lock mounting structure via a lock mounting component, which enables positioning between the lock body and the door. When the door is closed, if there is a large gap between the door and the body, or if there is a poor surface difference between the door and the body, that is, when it is necessary to adjust the gap or surface difference between the door and the body, a rubber hammer can be used to tap the lock body in the direction to be adjusted. The tapping force is transmitted to the bracket through the lock body and the lock mounting component, thereby causing the deformation part to deform in the direction of the tapping force, so as to drive the lock mounting component and the lock body to move, thus completing the adjustment of the gap and surface difference between the door and the body. In addition, since the riveting part is riveted to the reinforcing plate, the connection stability between the riveting part and the reinforcing plate is high. Therefore, the riveting part and the reinforcing plate will not separate due to the above-mentioned tapping force, which helps to ensure the structural reliability of the door lock mounting structure.

[0026] (2) It can achieve riveting between the reinforcing plate and the bracket;

[0027] (3) On the one hand, it can increase the connection strength between the riveted part and the lock mounting part, and on the other hand, it can increase the adjustable range of the relative position between the lock body and the door;

[0028] (4) The lock mounting part can move relative to the riveted part in at least two directions, and thus the lock body can move relative to the riveted part in at least two directions, which is beneficial to adjust the position of the lock body, reduce the door closing time gap, and improve the appearance quality of the door.

[0029] (5) Each lock mounting component can be adjusted in position by the two adjacent deformation parts, which can improve the position adjustment accuracy between the lock body and the door;

[0030] (6) By changing the height of the protrusion of the bending section, the deformation part can be deformed, and the structure is relatively simple;

[0031] (7) The lock mounting component can not only install the lock body on the door lock mounting structure, but also fix the relative position between the reinforcing plate and the bracket, which is beneficial to improving the installation stability between the reinforcing plate and the bracket;

[0032] (8) On the one hand, it can locate the relative position between the reinforcing plate and the bracket, and improve the positioning reliability of the reinforcing plate and the bracket. On the other hand, it can reduce the overall thickness of the reinforcing plate and the bracket, which is conducive to reducing the volume of the reinforcing plate and the bracket. Attached Figure Description

[0033] To more clearly illustrate the specific embodiments of this utility model or the technical solutions in the prior art, the drawings used in the description of the specific embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are some embodiments of this utility model. For those skilled in the art, other drawings can be obtained from these drawings without creative effort.

[0034] Figure 1 This is a schematic diagram of the door lock installation structure in an embodiment of this utility model.

[0035] Figure 2 This is a schematic diagram of the reinforcing plate in an embodiment of this utility model.

[0036] Figure 3 This is a schematic diagram of the support structure in an embodiment of this utility model.

[0037] Figure 4 This is a cross-sectional view of the door lock mounting structure in an embodiment of this utility model.

[0038] Figure 5 This is a structural schematic diagram of the door lock assembly in an embodiment of this utility model.

[0039] Figure 6 This is a schematic diagram showing the connection of the car door, body and door lock assembly in an embodiment of this utility model.

[0040] Figure 7 This is a partial structural diagram of the vehicle door when it is closed in an embodiment of this utility model.

[0041] Figure 8 This is a partial structural diagram of the vehicle door when it is opened in an embodiment of this utility model.

[0042] Explanation of reference numerals in the attached figures:

[0043] 1. Door lock installation structure; 2. Vehicle; 3. Door; 4. Body; 5. Door lock assembly;

[0044] 100, Reinforcing plate; 110, First through hole; 120, Mounting groove; 130, First riveting hole;

[0045] 200, bracket; 201, second through hole; 210, riveting part; 220, deformable part; 221, first deformable part; 222, second deformable part; 223, third deformable part; 230, lock mounting part; 240, bent section; 250, second riveting hole;

[0046] 300. Lock mounting component; 310. First lock mounting component; 320. Second lock mounting component; 330. First mounting component; 340. Second mounting component;

[0047] 400. Lock body;

[0048] 500, Locking pin;

[0049] 600. Riveted parts. Detailed Implementation

[0050] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the technical solutions of the embodiments of this utility model will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this utility model, not all embodiments. Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the protection scope of this utility model.

[0051] The embodiments of this utility model will be described below with reference to the accompanying drawings and preferred embodiments. Those skilled in the art can easily understand other advantages and effects of this utility model from the content disclosed in this specification. This utility model can also be implemented or applied through other different specific embodiments, and various details in this specification can also be modified or changed based on different viewpoints and applications without departing from the spirit of this utility model. It should be understood that the preferred embodiments are only for illustrating this utility model and not for limiting the scope of protection of this utility model.

[0052] It should be noted that the illustrations provided in the following embodiments are only schematic representations of the basic concept of the present invention. Therefore, the drawings only show the components related to the present invention and are not drawn according to the number, shape and size of the components in actual implementation. In actual implementation, the form, quantity and proportion of each component can be arbitrarily changed, and the layout of the components may also be more complex.

[0053] The following is combined Figures 1 to 8 The following describes embodiments of the present invention.

[0054] According to an embodiment of the present invention, a car door lock mounting structure 1 is provided, which includes a reinforcing plate 100, a bracket 200 and a lock mounting component 300.

[0055] The reinforcing plate 100 is adapted to be connected to the door 3. The bracket 200 is riveted to the reinforcing plate 100. The bracket 200 includes a deformable part 220. The lock mounting part 300 is provided on the bracket 200. The shape of the deformable part 220 is variable so that the riveting point of the bracket 200 and the reinforcing plate 100 and the relative position of the lock mounting part 300 are adjustable.

[0056] For example, the material of the reinforcing plate 100 may include high-strength steel, the thickness of the reinforcing plate 100 is 1.5mm, and the reinforcing plate 100 is made using a stamping and drawing process; the material of the bracket 200 may include ordinary plate, the thickness of the bracket 200 is 1.5mm, and the bracket 200 is made using a stamping process.

[0057] The door lock mounting structure 1 is mounted on the door 3 via a reinforcing plate 100. The lock body 400 is mounted on the door lock mounting structure 1 via a lock mounting piece 300, enabling positioning between the lock body 400 and the door 3. When the door 3 is closed, if there is a large gap between the door 3 and the body 4, or if there is a poor surface difference between the door 3 and the body 4, i.e., when it is necessary to adjust the gap or surface difference between the door 3 and the body 4, a rubber hammer can be used to tap the lock body 400 in the direction to be adjusted. The tapping force is transmitted to the bracket 200 through the lock body 400 and the lock mounting piece 300, causing the deformation part 220 to deform in the direction of the tapping force, thereby moving the lock mounting piece 300 and the lock body 400. After the lock body 400 is adjusted, when the door 3 is closed, the lock body 400 and the lock pin 500 cooperate to adjust the gap and surface difference between the door 3 and the body 4, thus completing the adjustment of the gap and surface difference between the door 3 and the body 4. In addition, since the riveting part 210 is riveted to the reinforcing plate 100, the connection stability between the riveting part 210 and the reinforcing plate 100 is high. Therefore, the riveting part 210 and the reinforcing plate 100 will not separate due to the aforementioned impact force, which helps to ensure the structural reliability of the door lock mounting structure 1.

[0058] Specifically, the reinforcing plate 100 is provided with a first riveting hole 130, the bracket 200 is provided with a second riveting hole 250, and the door lock mounting structure 1 also includes a riveting component 600, which can be a riveting screw with a diameter of 3mm. The riveting component 600 passes through the first riveting hole 130 and the second riveting hole 250, and abuts against the side of the reinforcing plate 100 facing away from the bracket 200 and the side of the bracket 200 facing away from the reinforcing plate 100.

[0059] Alternatively, the reinforcing plate 100 is provided with a first riveting hole 130, and the bracket 200 is provided with a first riveting post. The diameter of the first riveting post is 3mm. The first riveting post passes through the first riveting hole 130, and the end of the first riveting post facing away from the bracket 200 abuts against the side of the reinforcing plate 100 facing away from the bracket 200.

[0060] Alternatively, the reinforcing plate 100 may be provided with a second rivet post, and the bracket 200 may be provided with a second rivet hole 250. The diameter of the second rivet post is 3mm. The second rivet post passes through the second rivet hole 250, and the end of the second rivet post facing away from the reinforcing plate 100 abuts against the side of the bracket 200 facing away from the reinforcing plate 100.

[0061] This allows for a simple riveting connection between the reinforcing plate 100 and the bracket 200.

[0062] In some embodiments, such as Figure 1 and Figure 3 As shown, the bracket 200 also includes a riveting part 210 and a lock mounting part 230. The riveting part 210 is riveted to the reinforcing plate 100 and is connected to one end of the deformable part 220. The lock mounting part 230 is connected to the other end of the deformable part 220 and is connected to the lock mounting component 300. The lock mounting part 230 and the riveting part 210 are spaced apart.

[0063] In this way, it is possible to rivet the bracket 200 to the reinforcing plate 100 and connect it to the lock mounting part 300, and it is also convenient to realize the relative position of the riveting part 210 and the lock mounting part 230, thereby realizing the position of the lock mounting part 300 relative to the reinforcing plate 100, and adjusting the relative position between the lock body 400 and the door 3.

[0064] The device comprises multiple deformable portions 220, which are spaced apart circumferentially along the riveting portion 210. This increases the number of connection points between the riveting portion 210 and the lock mounting portion 230, thereby improving the connection strength between them and preventing damage to a single deformable portion 220 due to excessive stress. Furthermore, the multiple deformable portions 220 can deform together to adjust the relative position between the lock body 400 and the door 3, increasing the displacement range of the lock body 400 and improving its position adjustment effect.

[0065] Furthermore, such as Figure 1 and Figure 3 As shown, at least two deformable portions 220 are arranged with their extending directions intersecting. The extending direction of the deformable portion 220 refers to the direction of the line connecting the end of the deformable portion 220 connected to the riveting portion 210 and the end face of the deformable portion 220 connected to the lock mounting portion 230. In this way, the lock mounting member 300 can move relative to the riveting portion 210 in at least two directions, and consequently, the lock body 400 can move relative to the riveting portion 210 in at least two directions. This facilitates adjustment of the position of the lock body 400, reduces the closing time gap of the door 3, and improves the appearance quality of the door 3.

[0066] Furthermore, such as Figure 3 As shown, there are multiple lock mounting parts 300, each lock mounting part 300 being located between two adjacent deformable parts 220 in the circumferential direction of the riveting part 210. There may be one or more lock mounting parts 300 between the same two adjacent deformable parts 220.

[0067] By using multiple lock mounting parts 300, the number of connection points between the lock body 400 and the door lock mounting structure 1 can be increased, thereby improving the installation stability between the lock body 400 and the door lock mounting structure 1. Furthermore, the position of each lock mounting part 300 can be adjusted via its two adjacent deformation parts 220, which helps increase the position adjustment accuracy of each lock mounting part 300. This results in more precise position adjustment of the lock body 400, reducing the closing time gap of the door 3 and improving the appearance quality of the door 3.

[0068] For example, the lock mounting member 300 includes a first lock mounting member 310 and a second lock mounting member 320. The first lock mounting member 310 and the second lock mounting member 320 are spaced apart along the x-direction, and are located on the same side of the riveting portion 210 in the z-direction. At least one deformable portion 220 is located between the riveting portion 210, the first lock mounting member 310, and the second lock mounting member 320 in the z-direction. Specifically, in the x-direction, both the riveting portion 210 and the deformable portion 220 are located between the first lock mounting member 310 and the second lock mounting member 320, and the x-direction and z-direction are intersecting.

[0069] For example, the z-direction is the height direction of vehicle 2, and the x-direction is perpendicular to the z-direction.

[0070] By positioning the first locking mount 310 and the second locking mount 320 on the same side of the riveting portion 210 in the z-direction, movement of the first locking mount 310 and the second locking mount 320 relative to the riveting portion 210 in the z-direction is facilitated. Furthermore, by providing both the riveting portion 210 and the deformation portion 220 between the first locking mount 310 and the second locking mount 320 in the x-direction, adjustment of the positions of the first locking mount 310 and the second locking mount 320 in the x-direction is advantageous.

[0071] Furthermore, one deformation part 220 is configured as a first deformation part 221, another deformation part 220 is configured as a second deformation part 222, and yet another deformation part 220 is configured as a third deformation part 223.

[0072] The first deformation portion 221 extends along the z-direction and is located on the z-direction side of the riveting portion 210 near the lock mounting member 300. That is, the first deformation portion 221 is disposed between the riveting portion 210 and the first lock mounting member 310 in the z-direction, and the first deformation portion 221 is disposed between the riveting portion 210 and the second lock mounting member 320 in the z-direction.

[0073] By adjusting the shape of the first deformable part 221, the distance between the riveting part 210, the first lock mounting part 310, and the second lock mounting part 320 in the z direction can be adjusted. The displacement dimension of the lock body 400 in the z direction can be 2mm to 3mm, for example, 2mm, 2.5mm, or 3mm.

[0074] The second deformation portion 222 extends along the x-direction and is located on the side of the riveting portion 210 closer to the first lock mounting member 310 in the x-direction. The third deformation portion 223 extends along the x-direction and is located on the side of the riveting portion 210 closer to the second lock mounting member 320 in the x-direction. The second deformation portion 222 and the third deformation portion 223 can be symmetrically arranged relative to the first deformation portion 221.

[0075] By adjusting the shape of the second deformation part 222, the distance between the riveting part 210 and the first lock mounting member 310 in the x direction can be adjusted. By adjusting the shape of the third deformation part 223, the distance between the riveting part 210 and the second lock mounting member 320 in the x direction can be adjusted, as can the distance between the first lock mounting member 310 and the second lock mounting member 320 in the x direction. The displacement dimension of the lock body 400 in the x direction can be 2mm to 3mm, for example, 2mm, 2.5mm or 3mm.

[0076] In some embodiments, such as Figures 2-3 As shown, the deformable portion 220 has at least one bent section 240, which protrudes away from the reinforcing plate 100. The deformable portion 220 may include one or more bent sections 240. By changing the protrusion height of the bent section 240, the deformable portion 220 can be deformed, resulting in a relatively simple structure.

[0077] In some embodiments, such as Figure 1 , Figures 3-5 The lock mounting component 300 includes a first mounting component 330 and a second mounting component 340. The first mounting component 330 is disposed on the bracket 200, and the second mounting component 340 passes through and is connected to the first mounting component 330. The second mounting component 340 passes through the bracket 200 and the reinforcing plate 100. The first mounting component 330 is a nut, such as an M8 T-type projection weld nut, and the second mounting component 340 can be a bolt. The second mounting component 340 is threadedly connected to the first mounting component 330. The reinforcing plate 100 has a first through hole 110, and the bracket 200 has a second through hole 201. The first through hole 110, the second through hole 201, and the lock mounting component 300 are coaxially arranged, and the second mounting component 340 passes through the first through hole 110 and the second through hole 201.

[0078] In this way, the lock mounting component 300 can not only install the lock body 400 on the door lock mounting structure 1, but also, after the second mounting component 340 passes through the first through hole 110 and the second through hole 201, it can fix the relative position between the reinforcing plate 100 and the bracket 200, which is beneficial to improving the installation stability between the reinforcing plate 100 and the bracket 200.

[0079] Furthermore, such as Figure 2 and Figure 4 As shown, the reinforcing plate 100 has a mounting groove 120 on the side facing the bracket 200, and the bracket 200 is located in the mounting groove 120. By providing the mounting groove 120, the relative position between the reinforcing plate 100 and the bracket 200 can be positioned, improving the positioning reliability of the reinforcing plate 100 and the bracket 200. On the other hand, the overall thickness of the reinforcing plate 100 and the bracket 200 can be reduced, which is beneficial to reducing the volume of the reinforcing plate 100 and the bracket 200.

[0080] Furthermore, the lock mounting component 300 and the bracket 200 are welded into a single structure. This provides a strong connection between the lock mounting component 300 and the bracket 200, ensuring the reliability of their relative positions. Additionally, the lock mounting component 300 and the bracket 200 can be installed and disassembled simultaneously, simplifying the installation and disassembly process and improving assembly efficiency.

[0081] According to embodiments of the present invention, such as Figure 5 and Figure 6 As shown, a door lock assembly 5 is provided. The door lock assembly 5 includes the aforementioned door lock mounting structure 1, a lock body 400, and a lock pin 500. The lock body 400 is connected to the lock mounting component 300, and the lock pin 500 is adapted to be connected to the vehicle body 4. The lock pin 500 is configured to cooperate with the lock body 400.

[0082] The door lock assembly 5 of this utility model embodiment, by setting the above-mentioned door lock mounting structure 1, can both adjust the relative position between the lock body 400 and the door 3 and ensure the structural stability of the door lock assembly 5.

[0083] According to embodiments of the present invention, such as Figures 6-8 As shown, a vehicle 2 is provided, which includes a body 4, a door 3 and the aforementioned door lock assembly 5. The door 3 is rotatably disposed on the body 4, a reinforcing plate 100 is disposed on the door 3, and a locking pin 500 is disposed on the body 4.

[0084] The vehicle 2 of this utility model embodiment, by setting the above-mentioned door lock assembly 5, can not only improve the gap and surface difference between the door 3 and the body 4, but also ensure the structural stability of the door lock assembly 5.

[0085] For example, when it is necessary to adjust the gap or surface difference between the door 3 and the body 4, the torque between the first mounting part 330 and the second mounting part 340 of the lock mounting part 300 can be reduced. The lock body can be tapped with a rubber hammer in the direction to be adjusted. The tapping force is transmitted to the bracket 200 through the lock body 400, the second mounting part 340 and the first mounting part 330, so that the deformation part 220 of the bracket 200 deforms in the direction of the tapping force, thereby driving the first mounting part 330, the second mounting part 340 and the lock body 400 to move together. After the lock body 400 is adjusted, when the door 3 is closed, the lock body 400 and the lock pin 500 cooperate to adjust the gap and surface difference between the door 3 and the body 4. Therefore, after the lock body 400 is adjusted, the torque between the first mounting part 330 and the second mounting part 340 is increased, thus completing the adjustment operation of the gap and surface difference between the door 3 and the body 4.

[0086] The above embodiments are merely preferred embodiments provided to fully illustrate the present utility model, and the protection scope of the present utility model is not limited thereto. Equivalent substitutions or modifications made by those skilled in the art based on the present utility model are all within the protection scope of the present utility model.

[0087] Although embodiments of the present invention have been described in conjunction with the accompanying drawings, those skilled in the art can make various modifications and variations without departing from the spirit and scope of the present invention, and such modifications and variations all fall within the scope defined by the appended claims.

Claims

1. A door lock mounting structure, characterized in that, include: A reinforcing plate (100) is suitable for connection with the door (3); A bracket (200) is riveted to the reinforcing plate (100), and the bracket (200) includes a deformable part (220); A lock mounting component (300) is provided on the bracket (200), and the shape of the deformable part (220) is variable so that the relative position of the rivet point of the bracket (200) and the reinforcing plate (100) and the lock mounting component (300) is adjustable.

2. The door lock mounting structure according to claim 1, characterized in that, The bracket (200) is provided with a first riveting post, and the reinforcing plate (100) is provided with a first riveting hole (130). The first riveting post passes through the first riveting hole (130), and one end of the first riveting post facing away from the bracket (200) abuts against the side of the reinforcing plate (100) facing away from the bracket (200). Alternatively, the bracket (200) is provided with a second riveting hole (250), and the reinforcing plate (100) is provided with a second riveting post. The second riveting post passes through the second riveting hole (250), and one end of the second riveting post facing away from the reinforcing plate (100) abuts against the side of the bracket (200) facing away from the reinforcing plate (100). Alternatively, the door lock mounting structure (1) includes a riveting component (600), the reinforcing plate (100) is provided with a first riveting hole (130), the bracket (200) is provided with a second riveting hole (250), the riveting component (600) passes through the first riveting hole (130) and the second riveting hole (250), the riveting component (600) abuts against the side of the reinforcing plate (100) facing away from the bracket (200) and the side of the bracket (200) facing away from the reinforcing plate (100).

3. The door lock mounting structure according to claim 1, characterized in that, The support (200) also includes: The riveting part (210) is riveted to the reinforcing plate (100), and one end of the deformable part (220) is connected to the riveting part (210); The lock mounting part (230) is connected to the lock mounting member (300) and is spaced apart from the riveting part (210); the other end of the deformable part (220) is connected to the lock mounting part (230). There are multiple deformable parts (220), and the multiple deformable parts (220) are arranged at intervals along the circumferential direction of the riveting part (210).

4. The door lock mounting structure according to claim 3, characterized in that, At least two of the deformable portions (220) are arranged with their extension directions intersecting.

5. The door lock mounting structure according to claim 4, characterized in that, There are multiple lock mounting parts (300), and each lock mounting part (300) is located between two adjacent deformable parts (220) in the circumferential direction of the riveting part (210).

6. The door lock mounting structure according to any one of claims 1-5, characterized in that, The deformable part (220) is provided with at least one bent section (240), which protrudes in a direction away from the reinforcing plate (100).

7. The door lock mounting structure according to any one of claims 1-5, characterized in that, The lock mounting component (300) includes a first mounting component (330) and a second mounting component (340). The first mounting component (330) is disposed on the bracket (200). The second mounting component (340) passes through the first mounting component (330) and is connected to the first mounting component (330). The second mounting component (340) passes through the bracket (200) and the reinforcing plate (100).

8. The door lock mounting structure according to any one of claims 1-5, characterized in that, The reinforcing plate (100) has a mounting groove (120) on the side facing the bracket (200), and the bracket (200) is located in the mounting groove (120).

9. A car door lock assembly, characterized in that, include: The door lock mounting structure (1) according to any one of claims 1-8; The lock body (400) is connected to the lock mounting part (300); Locking pin (500) is suitable for connection with the vehicle body (4) and is configured to cooperate with the lock body (400).

10. A vehicle, characterized in that, include: Body (4); The door (3) is rotatably mounted on the vehicle body (4); The door lock assembly (5) of claim 9, wherein the reinforcing plate (100) is disposed on the door (3) and the locking pin (500) is disposed on the vehicle body (4).

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