CN214372121U - Seat assembly checking fixture - Google Patents

Abstract

The utility model discloses an utensil is examined to seat assembly, include: the first detection tool assembly comprises a first base, a first positioning module and a first copying detection block, wherein the first positioning module is installed on the first base, and the first copying detection block is installed on the first positioning module. The second detection tool assembly comprises a second base, a second positioning module and a second copying detection block, the second positioning module is installed on the second base, and the second copying detection block is installed on the second positioning module. The plurality of positioning assemblies are respectively arranged on the first positioning module and the second positioning module and are mutually positioned and locked, so that the first positioning module and the second positioning module are positioned and locked. The utility model discloses an utensil extensive applicability is examined to seat assembly has also satisfied the function that whole car seat assembly examined the utensil and used when satisfying independent seat assembly and examining the utensil and use, and development cost also reduces by a wide margin when promoting the flexibility.

Description

Seat assembly checking fixture

Technical Field

The utility model relates to an automobile parts field, more specifically say, relate to automobile parts's testing tool.

Background

The sales of large and medium-sized vehicles such as SUVs, MPVs and the like in domestic markets are increasing continuously, the large and medium-sized vehicles such as the SUVs, the MPVs and the like generally have three rows of seats, and the second row of seats and the third row of seats in the three rows of seats are assembled through two-three row seat assemblies, so that the two-three row seat assemblies gradually become important components of automobiles.

Due to the manufacturing process, the seat assembly has the problem of flatness deviation, which directly affects the flatness of the automobile, thereby affecting the matching of the seat and the comfort of sitting. To check the seat assembly for flatness, the seat assembly is checked using a seat assembly inspection tool. Because two rows of seats need to be installed to two-three row seat assemblies, the seat assemblies are large in size. In the prior art, two types of gauges are generally used for development of two-row and three-row seat assemblies.

One is that two rows of seat assemblies and three rows of seat assemblies separately develop the utensil of examining independently. The separately developed checking fixture has the advantages that the checking fixture occupies a small space and is convenient to use, the problem that two sets of production lines of two-row and three-row seats are inconvenient to use in the same area in the production process is solved, and the size of a three-coordinate device is reduced. The separately developed check tool has the defect that the check tool is independently used, a second row of seats and a third row of seats are required to be separately used, and the actual loading effect cannot be consistent. And the other is to develop a set of checking tools for combining two-three rows of seat assemblies together. The combined development has the advantages that the detection tool has the same effect with the actual loading, so that the single detection can be embodied, and the detection of two or three rows together including the detection of the front and back movement spaces of the two or three rows can also be simulated. The defects of combined development are that the development checking tools for two or three rows of seats are enlarged, the occupied space is enlarged, and the size requirement on the three-coordinate equipment is increased. The combination development directly or indirectly causes inconvenient use, increases the space for placing a factory, changes the requirement of three-coordinate equipment from a machine which originally needs only 3 meters for separate development into a machine with 5 meters, and then causes the floor area of three-coordinate equipment to be increased, thereby causing the development cost of the whole project to be greatly increased.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a seat assembly that parts are independent but can make up and assemble examines utensil.

According to the utility model discloses an embodiment provides an utensil is examined to seat assembly, include:

the first detection tool assembly comprises a first base, a first positioning module and a first profiling detection block, wherein the first positioning module is installed on the first base, and the first profiling detection block is installed on the first positioning module;

the second detection tool assembly comprises a second base, a second positioning module and a second profiling detection block, the second positioning module is installed on the second base, and the second profiling detection block is installed on the second positioning module;

the plurality of positioning assemblies are respectively arranged on the first positioning module and the second positioning module and are mutually positioned and locked, so that the first positioning module and the second positioning module are positioned and locked.

In one embodiment, the plurality of positioning assemblies comprises:

the X-direction positioning piece is positioned and locked in the X direction, and the X direction is along the length direction of the vehicle body;

the Y-direction positioning piece is positioned and locked in the Y direction, and the Y direction is along the width direction of the vehicle body;

and the Z-direction positioning piece is positioned and locked in the Z direction, and the Z direction is the height direction.

In one embodiment, the X-direction positioning member comprises:

the X-direction base block is provided with an X-direction positioning surface;

the X-direction positioning block is provided with an X-direction positioning surface and a locking hook groove;

the X-direction locking pressing clamp comprises a pressing handle and a locking hook;

the X-direction base block and the X-direction locking pressing pliers are jointly installed on one of the first positioning module and the second positioning module, the X-direction positioning block is installed on the other of the first positioning module and the second positioning module, X-direction positioning surfaces of the X-direction base block and the X-direction positioning block are mutually attached to carry out X-direction positioning, the locking hook is hung into the locking hook groove, the pressing handle is pressed downwards, and the locking hook is locked in the locking hook groove to carry out X-direction locking.

In one embodiment, the Y-directional positioner includes: the Y-direction positioning hole is arranged on one of the first positioning module or the second positioning module, the Y-direction positioning pin is arranged on the other one of the first positioning module or the second positioning module, and the Y-direction positioning pin is embedded into the Y-direction positioning hole to perform Y-direction positioning.

In one embodiment, the Y-direction positioning holes are formed on the X-direction base block, and the Y-direction positioning holes are formed on the X-direction positioning surface of the X-direction base block. The Y-direction positioning pin is positioned on the X-direction positioning block and is formed on an X-direction positioning surface of the X-direction positioning block.

In one embodiment, the Z-positioning member comprises:

the Z-direction pressure lever comprises a pressure lever base and a pressure lever rotating around the pressure lever base;

the Z-direction locking nut is mounted on the pressure rod and is screwed tightly, the pressure rod is locked on the pressure rod base, the Z-direction locking nut is loosened, and the pressure rod can rotate around the pressure rod base;

a Z-direction positioning surface;

the Z-direction pressure rod is installed on one of the first positioning module and the second positioning module, the Z-direction positioning surface is installed on the other one of the first positioning module and the second positioning module, the pressure rod rotates to be attached to the Z-direction positioning surface to perform Z-direction positioning, and the Z-direction locking nut is screwed to perform Z-direction locking.

In one embodiment, the Z-direction positioning member further comprises a cushion block, the cushion block is mounted on the Z-direction positioning surface, the pressure lever is provided with a step groove, the position of the step groove corresponds to the cushion block, the pressure lever rotates and is attached to the Z-direction positioning surface, and the cushion block is clamped in the step groove.

In one embodiment, the X-direction base block, the X-direction locking press clamp and the Z-direction press rod are positioned on the first positioning module. The X-direction positioning block and the Z-direction positioning surface are positioned on the second positioning module.

In one embodiment, the first gauge assembly carries a second row of seats mounted on a first profiling detection block. The second checking fixture assembly bears a third row of seats, and the third row of seats are installed on the second profiling detection block.

In one embodiment, the bottom of the first base and the second base have a moving mechanism and a supporting mechanism. The moving mechanism is a roller group. The support mechanism is a support bar with an adjustment member.

The utility model discloses an utensil extensive applicability is examined to seat assembly, independent part can be used for various motorcycle types, for example two rows of 5 motorcycle types, also can be used for three rows of 6 seats or 7 motorcycle types through examining the utensil after assembling, has also satisfied the function that whole car seat assembly examined the utensil and used when satisfying the use of utensil is examined to individual seat assembly, and development cost also reduces by a wide margin when promoting the flexibility.

Drawings

Fig. 1 discloses a structure diagram of a seat assembly checking fixture according to an embodiment of the present invention.

Fig. 2 discloses a structure diagram of a positioning component of a seat assembly checking fixture according to an embodiment of the present invention, wherein the positioning component is in a positioning locking state.

Fig. 3 discloses a structure diagram of a positioning component of a seat assembly checking fixture according to an embodiment of the present invention, wherein the positioning component is in an unlocking separation state.

Detailed Description

Fig. 1 discloses a structure diagram of a seat assembly checking fixture according to an embodiment of the present invention. Referring to FIG. 1, the seat assembly testing fixture comprises:

the first detection tool assembly comprises a first base 101, a first positioning module 102 and a first profiling detection block 103. The first base 101 is a frame structure, and the bottom of the first base 101 has a moving mechanism and a supporting mechanism. In the illustrated embodiment, the moving mechanism is a roller set 111 and the support mechanism is a support bar 112 with an adjustment member. When the portable electronic device is used, the supporting rod 112 is firstly retracted, then the roller group 111 is used for pushing the first base 101 to a required position, and the supporting rod 112 is put down so that the position of the first base is fixed. The height of the support rods 112 can be adjusted by an adjustment member, which is used in the subsequent Z-positioning. The first positioning module 102 is mounted on the first base 101. The first profiling detection block 103 is mounted on the first positioning module 102. In the illustrated embodiment, the first gauge assembly carries a second row of seats, the second row of seats 201 being mounted on the first profiling detection block 103.

A second gauge assembly comprising a second base 104, a second positioning module 105 and a second profiling detection block 106. The second base 104 is also a frame structure, and the bottom of the second base 104 is also provided with a moving mechanism and a supporting mechanism. In the illustrated embodiment, the moving mechanism is a roller set 111 and the support mechanism is a support bar 112 with an adjustment member. When in use, the supporting rod 112 is firstly retracted, then the roller group 111 is used for pushing the second base 104 to a required position, and the supporting rod 112 is put down to fix the position of the second base. The height of the support rods 112 can be adjusted by an adjustment member, which is used in the subsequent Z-positioning. The second positioning module 105 is mounted on the second base 104. A second profiling detection block 106 is mounted on the second positioning module 105. In the illustrated embodiment, the second gauge assembly carries a third row of seats, and the third row of seats 202 are mounted on the second profiling detection block 106.

The plurality of positioning components are respectively installed on the first positioning module 102 and the second positioning module 105, and the plurality of positioning components are mutually positioned and locked, so that the first positioning module 102 and the second positioning module 105 are positioned and locked. After the first positioning module 102 and the second positioning module 105 are positioned and locked, the first detection tool assembly and the second detection tool assembly are spliced to form a whole, and the large detection tool can be used for simultaneously detecting two rows of seats and three rows of seats.

Fig. 2 and 3 disclose a structure diagram of a positioning component of a seat assembly testing fixture according to an embodiment of the invention. Fig. 2 shows the positioning assembly in a positioning and locking state, and fig. 3 shows the positioning assembly in an unlocking and separating state. As shown, the plurality of positioning assemblies includes: an X-direction positioning piece, a Y-direction positioning piece and a Z-direction positioning piece. The X-direction locating piece is located and locked in the X direction, and the X direction is along the length direction of the vehicle body. The Y-direction locating piece is located and locked in the Y direction, and the Y direction is along the width direction of the vehicle body. The Z-direction locating piece is located and locked in the Z direction, and the Z direction is the height direction.

In the illustrated embodiment, the X-direction positioning member includes: an X-direction base block 301, an X-direction positioning block 302 and an X-direction locking pressing clamp 303. The X-direction base block 301 has an X-direction positioning surface. The X-direction positioning block 302 also has an X-direction positioning surface. The X-direction positioning block 302 is also provided with a locking hook groove 321. The X-direction locking press pliers 303 comprises a press handle 331 and a locking hook 332. The X-direction base block 301 and the X-direction locking pressing clamp 303 are jointly installed on one of the first positioning module or the second positioning module, and the X-direction positioning block 302 is installed on the other one of the first positioning module or the second positioning module. In the illustrated embodiment, the X-direction base block 301 and the X-direction locking pincer 303 are located on the first positioning module 102, and the X-direction positioning block 302 is located on the second positioning module 105. The X-direction positioning surfaces of the X-direction base block 301 and the X-direction positioning block 302 are placed opposite to each other, and then bonded to each other to perform X-direction positioning. The locking hook 332 is hooked into the locking hook groove 321, the pressing handle 331 is pressed downward, and the locking hook 332 is locked in the locking hook groove 321 to perform X-direction locking.

In the illustrated embodiment, the Y-positioning member includes: y-direction positioning holes 304 and Y-direction positioning pins 305. The Y-direction positioning hole is installed on one of the first positioning module or the second positioning module, the Y-direction positioning pin is installed on the other of the first positioning module or the second positioning module, and the Y-direction positioning pin 305 is embedded into the Y-direction positioning hole 304 for Y-direction positioning. In the illustrated embodiment, the Y-positioning holes 304 are located on the X-base block 301, and thus the Y-positioning holes are located on the first positioning module. The Y-direction positioning hole 304 is formed on the X-direction positioning surface of the X-direction base block 301. The Y-directional positioning pin 305 is located on the X-directional positioning block 302, and thus the Y-directional positioning pin is located on the second positioning block. The Y-direction positioning pin 305 is formed on the X-direction positioning surface of the X-direction positioning block 302.

In the illustrated embodiment, the Z-positioning member includes: a Z-direction pressure rod 306, a Z-direction locking nut 307 and a Z-direction positioning surface 308. The Z-direction pressing lever 306 includes a pressing lever base 361 and a pressing lever 362 rotating around the pressing lever base. The Z-direction lock nut 307 is mounted on the pressing rod 362, the Z-direction lock nut 307 is tightened, the pressing rod 362 is locked on the pressing rod base 361, the Z-direction lock nut 307 is loosened, and the pressing rod 362 can rotate around the pressing rod base 361. The Z-strut 306 is mounted to one of the first or second positioning modules and the Z-positioning surface 308 is mounted to the other of the first or second positioning modules. In the illustrated embodiment, the Z-strut 306 is located on the first positioning module 102. The Z-positioning surface 308 is located on the second positioning module 105. The pressure lever 362 rotates to be attached to the Z-direction positioning surface 308 to perform Z-direction positioning, and the Z-direction locking nut 307 is screwed to perform Z-direction locking. In the illustrated embodiment, the Z-positioning member further includes a spacer 309, and the spacer 309 is mounted on the Z-positioning surface 308. The pressure lever 362 is provided with a step groove, the position of the step groove corresponds to that of the cushion block 309, the pressure lever 362 rotates and is attached to the Z-direction positioning surface 308, and the cushion block 309 is clamped in the step groove.

The utility model discloses a seat assembly examines use as follows: and mounting the second row of seats and the third row of seats on the first profiling detection block and the second profiling detection block, and then pushing the third row of seats and the second row of seats together with the first detection tool assembly and the second detection tool assembly to corresponding positions. And positioning and locking the first positioning module and the second positioning module by using the positioning assembly. The sequence of positioning and locking is as follows:

firstly, Y-direction positioning is carried out, and the Y-direction positioning pin is aligned to the Y-direction positioning hole.

And the second step is used for carrying out X-direction positioning, aligning the X-direction positioning surfaces on the X-direction base block and the X-direction positioning block, pushing the base to enable the X-direction base block to be attached to the X-direction positioning surfaces on the X-direction positioning block, and embedding the Y-direction positioning pin into the Y-direction positioning hole. The locking hook is hung in the locking hook groove, the pressing handle is pressed down, the locking in the X direction is carried out, and meanwhile the locking in the Y direction is also carried out.

And thirdly, Z-direction positioning is carried out, the pressing rod is rotated to enable the pressing rod to be attached to the Z-direction positioning surface, if the height difference exists, the height of the supporting rod can be adjusted by utilizing an adjusting component on the supporting rod, the pressing rod is enabled to be closely attached to the Z-direction positioning surface, and then the Z-direction locking nut is screwed to carry out Z-direction locking.

The utility model discloses an utensil extensive applicability is examined to seat assembly, independent part can be used for various motorcycle types, for example two rows of 5 motorcycle types, also can be used for three rows of 6 seats or 7 motorcycle types through examining the utensil after assembling, has also satisfied the function that whole car seat assembly examined the utensil and used when satisfying the use of utensil is examined to individual seat assembly, and development cost also reduces by a wide margin when promoting the flexibility.

It should also be noted that the above-mentioned embodiments are only specific embodiments of the present invention. It is obvious that the present invention is not limited to the above embodiments, and similar changes or modifications can be directly derived or easily suggested by those skilled in the art from the disclosure of the present invention, and all should fall within the protection scope of the present invention. The above-described embodiments are provided to enable persons skilled in the art to make or use the invention, and many modifications and variations may be made to the above-described embodiments by persons skilled in the art without departing from the inventive concept of the present invention, so that the scope of the invention is not limited by the above-described embodiments, but should be accorded the widest scope consistent with the innovative features set forth in the claims.

Claims (10)

1. A seat assembly testing fixture, comprising:

the first detection tool assembly comprises a first base, a first positioning module and a first profiling detection block, wherein the first positioning module is installed on the first base, and the first profiling detection block is installed on the first positioning module;

the second detection tool assembly comprises a second base, a second positioning module and a second profiling detection block, the second positioning module is installed on the second base, and the second profiling detection block is installed on the second positioning module;

the plurality of positioning assemblies are respectively arranged on the first positioning module and the second positioning module and are mutually positioned and locked, so that the first positioning module and the second positioning module are positioned and locked.

2. The seat assembly fixture of claim 1, wherein the plurality of positioning elements comprise:

the X-direction positioning piece is positioned and locked in the X direction, and the X direction is along the length direction of the vehicle body;

the Y-direction positioning piece is positioned and locked in the Y direction, and the Y direction is along the width direction of the vehicle body;

and the Z-direction positioning piece is positioned and locked in the Z direction, and the Z direction is the height direction.

3. The seat assembly inspection fixture of claim 2 wherein the X-direction positioning member comprises:

the X-direction base block is provided with an X-direction positioning surface;

the X-direction positioning block is provided with an X-direction positioning surface and a locking hook groove;

the X-direction locking pressing clamp comprises a pressing handle and a locking hook;

the X-direction base block and the X-direction locking pressing pliers are jointly installed on one of the first positioning module and the second positioning module, the X-direction positioning block is installed on the other of the first positioning module and the second positioning module, X-direction positioning surfaces of the X-direction base block and the X-direction positioning block are mutually attached to carry out X-direction positioning, the locking hook is hung into the locking hook groove, the pressing handle is pressed downwards, and the locking hook is locked in the locking hook groove to carry out X-direction locking.

4. The seat assembly inspection fixture of claim 3 wherein the Y-direction positioning member comprises: the Y-direction positioning hole is arranged on one of the first positioning module or the second positioning module, the Y-direction positioning pin is arranged on the other one of the first positioning module or the second positioning module, and the Y-direction positioning pin is embedded into the Y-direction positioning hole to perform Y-direction positioning.

5. The seat assembly testing fixture of claim 4,

the Y-direction positioning hole is positioned on the X-direction base block and is formed on an X-direction positioning surface of the X-direction base block;

the Y-direction positioning pin is positioned on the X-direction positioning block and is formed on an X-direction positioning surface of the X-direction positioning block.

6. The seat assembly inspection fixture of claim 3 wherein the Z-direction positioning member comprises:

the Z-direction pressure lever comprises a pressure lever base and a pressure lever rotating around the pressure lever base;

the Z-direction locking nut is mounted on the pressure rod and is screwed tightly, the pressure rod is locked on the pressure rod base, the Z-direction locking nut is loosened, and the pressure rod can rotate around the pressure rod base;

a Z-direction positioning surface;

the Z-direction pressure rod is installed on one of the first positioning module and the second positioning module, the Z-direction positioning surface is installed on the other one of the first positioning module and the second positioning module, the pressure rod rotates to be attached to the Z-direction positioning surface to perform Z-direction positioning, and the Z-direction locking nut is screwed to perform Z-direction locking.

7. The tool of claim 6 wherein the Z-positioning member further comprises a pad, the pad is mounted on the Z-positioning surface, the strut has a stepped groove corresponding in position to the pad, the strut rotates and engages the Z-positioning surface, and the pad is captured in the stepped groove.

8. The seat assembly testing fixture of claim 6,

the X-direction base block, the X-direction locking pressing clamp and the Z-direction pressing rod are positioned on the first positioning module;

the X-direction positioning block and the Z-direction positioning surface are positioned on the second positioning module.

9. The seat assembly testing fixture of claim 1,

the first detection tool assembly bears a second row of seats, and the second row of seats are arranged on the first profiling detection block;

the second checking fixture assembly bears a third row of seats, and the third row of seats are installed on the second profiling detection block.

10. The seat assembly testing fixture of claim 1,

the bottom parts of the first base and the second base are provided with a moving mechanism and a supporting mechanism;

the moving mechanism is a roller group;

the supporting mechanism is a supporting rod with an adjusting part.

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