CN219714204U - Position degree gauge for motor bracket of automobile seat - Google Patents

Abstract

The utility model provides a position degree gauge of a motor bracket of an automobile seat, which comprises: the bracket positioning part comprises a wire bundle groove part positioning unit, a middle connecting groove part positioning unit and a motor supporting part positioning unit; and a position degree detection part comprising a bracket mounting special-shaped column detection part, a bracket mounting column detection part, a motor mounting column detection unit, a wire harness notch detection part, a wire harness support block detection unit and a wire harness buckle detection unit, wherein the wire harness groove part positioning unit comprises a first support column for supporting the wire harness groove part and a first overturning pressing clamp part, the middle connecting groove part positioning unit comprises a second support column for supporting the middle connecting groove part, a second overturning pressing clamp part and an overturning pressing assembly, and the motor support part positioning unit comprises two positioning pin parts respectively corresponding to the two screw holes. The gauge also comprises a bottom frame, wherein the bottom frame comprises a bottom plate and a mounting plate, and the bracket positioning part and the position degree detection part are both arranged on the top surface of the mounting plate.

Description

Position degree gauge for motor bracket of automobile seat

Technical Field

The utility model belongs to the technical field of position detection of automobile seat motor supports, and particularly relates to a position detection tool for an automobile seat motor support.

Background

The motor bracket of the automobile seat is an adjusting functional part on the automobile, and most front seats can be adjusted, so that the requirements of passengers can be met conveniently when the requirements are met, and in order to realize the front-back adjustment of the seats, motors are assembled on the electric seats and are generally installed on a machine body or a workbench of the equipment through motor installation brackets.

The motor bracket 400 for the car seat shown in fig. 1 and 2 is composed of a motor support part 410, a middle connection groove part 420 and a wire harness groove part 430 which are sequentially connected and integrally formed, and it is inconvenient to detect the positions of holes, posts and the like thereon using a conventional three-coordinate detection device because the positions of the reference points are relatively special.

Disclosure of Invention

The present utility model has been made to solve the above-mentioned problems, and an object of the present utility model is to provide a position degree gauge for a motor bracket of an automobile seat.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a position degree checking fixture of a motor bracket of an automobile seat, which is composed of a motor supporting part, a middle connecting groove part and a wire harness groove part which are sequentially connected, wherein two motor mounting cylinders, two screw holes, a bracket mounting special-shaped column and a bracket mounting cylinder are formed on the free end of the motor supporting part, a mounting positioning frame is arranged at the bottom of the middle connecting groove part, the bottom surface of the mounting positioning frame, the inner wall surface close to the motor supporting part and the outer wall surface far away from the motor supporting part are respectively set as a first positioning reference surface, a second positioning reference surface and a third positioning reference surface, the free end surface of the wire harness groove part is set as a wire harness groove positioning reference surface, a plurality of wire harness supporting blocks and a plurality of wire harness buckles are arranged in the wire harness groove part, and a wire harness notch for a wire harness to pass through is formed on the free end of the wire harness groove part, and the position degree checking fixture is characterized in that: the bracket positioning part is used for fixing the motor bracket of the automobile seat and comprises a wire bundle groove part positioning unit, a middle connecting groove part positioning unit and a motor supporting part positioning unit; and a position detecting section including a bracket-mounted special-shaped column detecting member, a bracket-mounted column detecting member, a motor-mounted column detecting unit, a wire harness notch detecting member, a wire harness support block detecting unit, and a wire harness buckle detecting unit, wherein the wire harness groove section positioning unit includes a first support column for supporting a free end of the wire harness groove section, the first support column having a wire harness groove detection reference surface corresponding to a wire harness groove positioning reference surface, and a first flip press jaw member having a first jaw for pressing the free end of the wire harness groove section against the first support column, the intermediate connection groove section positioning unit includes a second support column for supporting the intermediate connection groove section, and a second flip press jaw member and a flip press assembly, the second support column having a first detection reference surface, a second detection reference surface, and a third detection reference surface corresponding to the first positioning reference surface, the second positioning reference surface, and the third positioning reference surface, respectively, the second overturning pressing clamp component is provided with a second clamp head used for enabling the first positioning reference surface to be pressed on the first detection reference surface, the overturning pressing component is provided with a pressing block used for enabling the second positioning reference surface to be pressed on the second detection reference surface, the motor supporting part positioning unit comprises two positioning pin components corresponding to two screw holes respectively, each positioning pin component is provided with a positioning pin which can be inserted into the corresponding screw hole during detection, the bracket mounting special-shaped column detection component is provided with a first detection block which can move towards the bracket mounting special-shaped column during detection, the first detection block is provided with a special-shaped detection hole matched with the bracket mounting special-shaped column, the bracket mounting column detection component is provided with a second detection block which can move towards the bracket mounting column during detection, the second detection block is provided with a cylindrical detection hole matched with the bracket mounting cylinder, the motor mounting cylinder detection unit comprises a first overturning part and two motor mounting cylinder detection parts which are arranged on the first overturning part and respectively correspond to the two motor mounting cylinders, each motor mounting cylinder detection part is provided with a third detection block which can move towards the corresponding motor mounting cylinder during detection, the third detection block is provided with a cylindrical detection hole matched with the corresponding motor mounting cylinder, the wire harness notch detection part is provided with a fourth detection block which can move towards the wire harness notch during detection, the fourth detection block is provided with a shape matched with the wire harness notch, the wire harness support block detection unit comprises a second overturning part and a plurality of wire harness support block detection parts which are arranged on the second overturning part and respectively correspond to the plurality of wire harness support blocks, each wire harness support block detection part is provided with a fifth detection block which can move downwards during detection, the lower end face of each wire harness support block is provided with a shape matched with the upper end face of the corresponding wire harness support block, the buckle detection unit comprises a buckle detection block which respectively corresponds to the plurality of wire harness notch detection parts, and the buckle detection unit is provided with a six buckle detection block which can move upwards.

The position degree gauge of the motor bracket of the automobile seat provided by the utility model can also have the following characteristics: further comprises: the chassis comprises a bottom plate and a mounting plate obliquely mounted on the bottom plate, wherein the bracket positioning part and the position degree detection part are both arranged on the top surface of the mounting plate.

The position degree gauge of the motor bracket of the automobile seat provided by the utility model can also have the following characteristics: wherein, the both sides of the free terminal surface of pencil groove portion are equipped with the support erection column respectively, and first support column has first support column body, and sets up the supporting shoe on this first support column body, and the both sides of the up end of supporting shoe are equipped with the support recess corresponding with the support erection column respectively, and the intermediate position of the up end of supporting shoe is equipped with the notch that is used for making the second detection piece pass through corresponding with the pencil notch, and the side of supporting shoe orientation intermediate junction groove portion positioning unit is used as pencil groove detection reference surface.

The position degree gauge of the motor bracket of the automobile seat provided by the utility model can also have the following characteristics: the second support column is provided with a second support column body, a positioning pin and a positioning block, wherein the positioning pin and the positioning block are arranged on the second support column body, the upper end face of the second support column body is used as a first detection reference surface, the positioning pin is provided with a second detection reference surface, and the positioning block is provided with a third detection reference surface.

The position degree gauge of the motor bracket of the automobile seat provided by the utility model can also have the following characteristics: the overturning and compressing assembly comprises an overturning part and a compressing part arranged on the overturning part, wherein the compressing part is provided with a compressing block, and the compressing block can extend into the middle connecting groove part and move towards the inner wall of the middle connecting groove part corresponding to the second positioning reference surface during detection.

The position degree gauge of the motor bracket of the automobile seat provided by the utility model can also have the following characteristics: the number of the wire harness support block detection units is two, and the two wire harness support block detection units are arranged along the length direction of the automobile seat motor bracket.

The utility model has the beneficial effects that: the automobile seat motor support to be detected is pressed on the wire harness groove detection reference surface, the first detection reference surface, the second detection reference surface and the third detection reference surface of the detection tool through the wire harness groove part positioning unit, the middle connecting groove part positioning unit and the motor support part positioning unit, so that the automobile seat motor support to be detected has the advantages of convenience in operation and good positioning effect; through support mounting dysmorphism post detection part, support mounting cylinder detection part, motor mounting cylinder detecting element, pencil notch detection part, pencil supporting shoe detecting element and pencil buckle detection part, can conveniently realize that support mounting dysmorphism post, support mounting cylinder, motor mounting cylinder, pencil notch, pencil supporting shoe and pencil buckle's position degree detects, have the convenient advantage of detection.

Drawings

FIG. 1 is a schematic perspective view of a motor bracket for an automobile seat in accordance with an embodiment of the present utility model;

FIG. 2 is a schematic perspective view of a motor bracket for a car seat in accordance with an embodiment of the present utility model;

FIG. 3 is a schematic perspective view of a motor bracket positioning gauge for an automobile seat according to an embodiment of the present utility model;

FIG. 4 is a schematic view of a three-dimensional structure of a positioning device for a motor bracket of an automobile seat according to an embodiment of the utility model;

FIG. 5 is a schematic perspective view of a bracket positioning portion according to an embodiment of the present utility model;

FIG. 6 is a schematic perspective view of a support column of a wire harness pocket positioning unit in an embodiment of the present utility model;

FIG. 7 is a schematic perspective view of a support column of an intermediate connection groove portion positioning unit in an embodiment of the present utility model;

FIG. 8 is a schematic perspective view of a flip compression assembly in accordance with an embodiment of the utility model;

FIG. 9 is a schematic perspective view of a first dowel member in an embodiment of the present utility model;

FIG. 10 is a schematic perspective view of a second dowel member and a bracket-mounted cylindrical detection member in an embodiment of the present utility model;

FIG. 11 is a schematic perspective view of a bracket-mounted profiled pole inspection unit in accordance with an embodiment of the utility model;

fig. 12 is a schematic perspective view of a motor-mounting cylinder detecting unit in the embodiment of the present utility model;

FIG. 13 is a schematic perspective view of a wire harness notch detection component in an embodiment of the present utility model;

FIG. 14 is a schematic perspective view of a wire harness support block detection unit in accordance with an embodiment of the present utility model;

FIG. 15 is a schematic view showing the cooperation of the detection block of the wire harness support block detection member and the wire harness support block in a detected state in the embodiment of the present utility model;

FIG. 16 is a schematic perspective view of a harness detection component in an embodiment of the present utility model; and

fig. 17 is a schematic diagram showing the cooperation of the detection block of the wire harness clip detecting unit and the wire harness clip in the detected state in the embodiment of the present utility model.

Detailed Description

The conception, specific structure, and technical effects of the present utility model will be further described with reference to the accompanying drawings to fully understand the objects, features, and effects of the present utility model.

FIG. 1 is a schematic perspective view of a motor bracket for an automobile seat in accordance with an embodiment of the present utility model; fig. 2 is a schematic perspective view of a motor bracket for a car seat in an embodiment of the present utility model.

As shown in fig. 1 and 2, in the present embodiment, the car seat motor bracket 400 is constituted by a motor support portion 410, an intermediate connection groove portion 420, and a harness groove portion 430, which are connected in order and integrally formed.

The motor support portion 410 has motor receiving grooves 410a for mating with a motor (not shown), and the motor receiving grooves 410a are provided with a motor mounting cylinder 411 on both sides of the inner wall of the free end of the motor support portion 410, respectively. Two sides of the free end surface of the motor supporting part 411 are respectively provided with a screw hole 412 for a screw for fixing the motor to pass through; a bracket mounting profiled column 413 is provided on the free end surface of the motor support 411 at a position close to one screw hole 412, and a bracket mounting cylinder 414 is provided at a position close to the other screw hole 412.

A screw hole 421 through which a screw for fixing the wire pipe fixing frame to the motor bracket 400 passes is provided at one end of the bottom of the intermediate connection groove 420 near the wire bundle groove 430; an installation positioning frame 422 having a rectangular cross section is integrally formed at one end of the bottom of the intermediate connection portion 420 near the motor support portion 410, the bottom surface of the installation positioning frame 422 is set as a first positioning reference surface 422a, the inner wall surface near the motor support portion 410 is set as a second positioning reference surface 422b, and the outer wall surface far from the motor support portion 411 is set as a third positioning reference surface 422c.

The free end surface of the wire harness groove 430 is set as a wire harness groove positioning reference surface 431; the two sides of the free end face are respectively provided with a bracket mounting column 432, and the middle position is provided with a wire harness notch 433 for passing the wire harness. Eight harness support blocks 434 are provided on the bottom inner wall of the harness groove 430, which are arranged at intervals along the length of the harness groove 430; seven harness clips 435 are provided in the harness groove 430 at intervals along the length of the harness groove 430 and alternately arranged with the eight harness support blocks 434, and through holes 436 are provided in the bottom wall of the harness groove 430 at positions corresponding to the harness openings 435.

FIG. 3 is a schematic perspective view of a motor bracket positioning gauge for an automobile seat according to an embodiment of the present utility model; fig. 4 is a schematic structural diagram of a position check tool for a motor bracket of an automobile seat according to an embodiment of the utility model.

As shown in fig. 3 and 4, in the present embodiment, the position degree gauge 100 of the motor bracket of the car seat includes the chassis 10, the bracket positioning portion 20, and the position degree detecting portion 30.

As shown in fig. 3 and 4, the chassis 10 includes a base plate 11 and a mounting plate 12 mounted obliquely thereto, and both a bracket positioning portion 20 and a position degree detecting portion 30 are provided on the top surface of the mounting plate 12.

Fig. 5 is a schematic perspective view of a bracket positioning portion according to an embodiment of the present utility model.

As shown in fig. 3 to 5, the bracket positioning portion 20 is used for fixing the motor bracket 400 of the car seat, and includes a wire harness groove portion positioning unit 21, an intermediate connection groove portion positioning unit 22, and a motor support portion positioning unit 23.

Fig. 6 is a schematic perspective view of a support column in a wire harness pocket positioning unit in an embodiment of the present utility model.

As shown in fig. 3 to 6, the harness groove positioning unit 21 includes a support column 211 and an overturning presser member 212.

The support column 211 is for supporting the free end of the wire harness groove 430, and has a support column body 211a fixedly provided on the mounting plate 12, and a support block 211b fixedly provided on the support column body 211 a. The side surface of the support block 211b facing the intermediate connection groove portion positioning unit 21 serves as a wire harness groove detection reference surface 211c corresponding to the wire harness groove positioning reference surface 431; support grooves 211d corresponding to the bracket mounting posts 432 are respectively formed on two sides of the upper end surface of the support block 211 b; a recess 211e corresponding to and matching the wiring harness recess 433 is provided in the middle of the upper end surface of the support block 211b.

The turning clamp member 212 has a turning clamp body 212a and two clamp heads 212b provided on the turning clamp body 212 a. When the overturning clamp body 212a drives the clamp head 212b to overturn downwards, the clamp head 212b compresses the free end of the wire bundle groove 430 on the supporting block 211b of the supporting column 211; at this time, the wire harness groove positioning reference surface 431 is pressed against the wire harness groove detection reference surface 211 c.

FIG. 7 is a schematic perspective view of a support column of an intermediate connection groove portion positioning unit in an embodiment of the present utility model; fig. 8 is a schematic perspective view of a flip compression assembly in accordance with an embodiment of the utility model.

As shown in fig. 3 to 5, 7 and 8, the intermediate connection groove portion positioning unit 22 includes a support column 221, an overturning pressing jaw 222 and an overturning pressing assembly 223.

The support column 221 is used for supporting the intermediate connection groove 420, and has a support column body 221a, and a positioning pin 221b and a positioning block 221c fixedly provided on the support column body 221 a. The upper end surface of the support column body 221a serves as a first detection reference surface 221d corresponding to the first positioning reference surface 422 a. The positioning pin 221b is a cylindrical pin formed with a second detection reference surface 221e corresponding to the second positioning reference surface 422 b. The positioning block 221c is a rectangular parallelepiped column, and a side surface thereof facing the positioning pin 221b serves as a third detection reference surface 221f corresponding to the third positioning reference surface 422c.

The turning clamp member 222 has a turning clamp body 222a and a clamp head 222b provided on the turning clamp body 222 a. When the overturning clamp body 222a drives the clamp head 222b to overturn downwards, the clamp head 222b enables the middle connecting groove part 420 to be arranged on the supporting column 221; at this time, the first positioning reference surface 422a is pressed against the first detection reference surface 221d.

The flip compression assembly 223 includes a flip member 223a, and a compression member 223b mounted on the flip member 223 a. The pressing member 223b has a slide bar 223c movably mounted on an inversion arm in the inversion member 223a, a pressing block 223d fixedly provided at one end of the slide bar 223c, a handle 223e fixedly provided at the other end of the slide bar 223c, and a return spring 223f sleeved on the slide bar 223 c. When the turning part 223a drives the pressing part 223b to turn down, the pressing block 223d extends into the middle connecting groove part 420 and moves towards the inner wall of the middle connecting groove part 420 corresponding to the second positioning reference surface 422b under the spring force of the return spring 223f, so that the second positioning reference surface 422b is pressed against the second detection reference surface 221e; at the same time, the third positioning reference surface 422c is pressed against the third detection reference surface 221f.

FIG. 9 is a schematic perspective view of a first dowel member in an embodiment of the present utility model; fig. 10 is a schematic perspective view of a second dowel member and a bracket-mounted cylindrical detection member in an embodiment of the present utility model.

As shown in fig. 3 to 5, 9 and 10, the motor support portion positioning unit 23 includes a first positioning pin member 231 and a second positioning pin member 232 corresponding to the two screw holes 412, respectively.

The first positioning pin member 231 has a column 231a, a positioning pin 231b, a handle 231c, and a compression spring 231d. The upright 231a is fixedly provided on the mounting plate 12; the positioning pin 231b is movably mounted on the upright 231 a; the handle 231c is fixedly provided at one end of the positioning pin 231 b; the compression spring 231d is sleeved on the positioning pin 231 b. In the detection, the other end of the positioning pin 231b is inserted into the corresponding screw hole 412 by the spring force of the compression spring 231d.

The second positioning pin member 232 has a column 232a, a positioning pin 232b, a handle 232c, and a compression spring 232d. Upright 232a is fixedly disposed on mounting plate 12; the positioning pin 232b is movably mounted on the upright 232 a; the handle 232c is fixedly arranged at one end of the positioning pin 232 b; the return spring 232d is sleeved on the positioning pin 232 b. In the detection, the other end of the positioning pin 232b is inserted into the corresponding screw hole 412 by the spring force of the compression spring 232d.

As shown in fig. 3 and 4, the positional detection section 30 includes a bracket mounting special-shaped column detection member 31, a bracket mounting cylinder detection member 32, a motor mounting cylinder detection unit 33, a harness notch detection member 34, two harness support block detection units 35, and seven harness snap detection members 36.

Fig. 11 is a schematic perspective view of a bracket-mounted special-shaped-column detecting unit in an embodiment of the present utility model.

As shown in fig. 3, 4 and 11, the bracket-mounted profiled pole detection member 31 is for detecting the position of the bracket-mounted profiled pole 413, and has a column 311, a slide bar 312, a detection block 313 and a handle 314.

The upright post 311 is fixedly provided on the mounting plate 12, and is provided with a mounting through hole 311a.

The slide bar 312 is movably mounted in the mounting through hole 311a and is movable toward or away from the bracket mounting profiled pole 413.

The detecting block 313 is fixedly arranged on one end of the slide bar 312, and is provided with a special-shaped detecting hole 313a matched with the bracket mounting special-shaped column 413.

A handle 314 is fixedly provided on the other end of the slide bar 312.

As shown in fig. 3, 4 and 10, a bracket mounting cylinder detecting member 32 is mounted on the upright 232a of the second positioning pin member 232 for detecting the degree of position of the bracket mounting cylinder 414. The rack-mount cylinder detecting member 32 has a slide bar 321, a detecting block 322, and a handle 323.

Slide bar 321 is movably mounted on post 232 and moves toward and away from bracket mounting cylinder 414.

The detecting block 322 is fixedly arranged on one end of the slide bar 321, and is provided with a circular detecting hole (not shown) matched with the bracket mounting cylinder 414.

A handle 323 is fixedly provided on the other end of the slide bar 321.

Fig. 12 is a schematic perspective view of a motor-mounting cylinder detecting unit in the embodiment of the present utility model.

As shown in fig. 3, 4 and 12, the motor mounting cylinder detecting unit 33 is configured to detect the positional degrees of the two motor mounting cylinders 411, and includes a flipping member 331 and two motor mounting cylinder detecting members 332.

The turnover part 331 is fixedly arranged on the mounting plate 12, and is used for simultaneously driving the two motor mounting cylinder detection parts 332 to turn towards or away from the motor mounting cylinder 411.

Two motor mounting cylinder detecting members 332 are each mounted on the flipping member 331 and correspond to the two motor mounting cylinders 411, respectively, each motor mounting cylinder detecting member 332 having a slide bar 332a, a detecting block 332b, and a handle 332c. The slide bar 332a is movably mounted on the flipping arm of the flipping member 331 and is movable toward or away from the corresponding motor mounting cylinder 411; the detection block 332b is fixedly arranged at one end of the sliding rod 332a, and is provided with a cylinder detection hole 332d matched with the corresponding motor mounting cylinder 411; the handle 332c is fixedly provided at the other end of the slide bar 332 a.

Fig. 13 is a schematic perspective view of a wire harness notch detecting unit in an embodiment of the present utility model.

As shown in fig. 3, 4, and 13, the harness notch detecting member 34 is for detecting the degree of position of the harness notch 433, and has a column 341, a slide bar 342, a detecting block 343, a handle 344, and a return spring 345.

The upright 341 is fixedly provided on the support column body 211a and is disposed corresponding to the support block 211b.

The slide bar 342 is movably mounted on the upright 341 to be movable toward or away from the harness notch 433.

The detection block 343 is fixedly provided at one end of the slide bar 342, having a shape matching the wire harness recess 433.

A handle 344 is fixedly provided at the other end of the slide bar 342.

The return spring 345 is sleeved on the sliding rod 342.

FIG. 14 is a schematic perspective view of a wire harness support block detection unit in accordance with an embodiment of the present utility model; fig. 15 is a schematic diagram showing the cooperation of the detection block of the wire harness support block detection member and the wire harness support block in the detection state in the embodiment of the present utility model.

As shown in fig. 3, 4, 14, and 15, each harness support block detecting unit 35 corresponds to four harness support blocks 434 for simultaneously detecting the positional degrees of the corresponding four harness support blocks 434. The harness support block detecting unit 35 includes a flipping member 351 and four harness support block detecting members 352.

The turning part 351 is fixedly arranged on the mounting plate 12, and is used for simultaneously driving the four wire harness support block detection parts 352 to turn towards or away from the corresponding four wire harness support blocks 434. The turning member 351 has a turning arm 351a, and four mounting through holes 351b corresponding to the four harness support block detecting members 352 one by one are provided on the free end of the turning arm 351a, and the mounting through holes 351b are second-order stepped holes.

Four harness support block detecting members 352 are each mounted on the reversing member 351 and correspond to the four harness support blocks 434, respectively, each harness support block detecting member 352 having a slide bar 352a, a detecting block 352b, a handle 352c, and a return spring 352d.

The slide bars 352a are movably mounted in the corresponding mounting through holes 351 b.

The detection block 352b is integrally formed with one end of the slide bar 352a, and a lower end surface thereof has a shape matching an upper end surface of the corresponding harness support block 434.

The handle 352c is fixedly disposed at the other end of the slide bar 352 a.

The return spring 352d is located in the large-diameter hole section of the mounting through hole 351b and is sleeved on the slide bar 352a, and both ends thereof are respectively abutted against the handle 352c and the stepped wall of the mounting through hole 351 b.

FIG. 16 is a schematic perspective view of a harness detection component in an embodiment of the present utility model; fig. 17 is a schematic diagram showing the cooperation of the detection block of the wire harness clip detecting unit and the wire harness clip in the detected state in the embodiment of the present utility model.

As shown in fig. 3, 4, 16, and 17, the seven harness clip detecting members 36 correspond to the seven harness clips 435, respectively, and detect the positional degrees of the corresponding harness clips 435, respectively. Each harness clip detecting member 36 has a column 361, a slide bar 362, a detecting block 363, a handle 364, and a return spring 365.

The upright 361 is fixedly provided on the mounting plate 12, and a mounting through hole 361a is provided in a side portion of an upper end thereof, and the mounting through hole 361a is a stepped hole of a second order.

The slide bar 362 is movably mounted on the upright 361 and is movable up and down relative to the harness clasp 435.

The detecting block 363 is fixedly provided at an upper end of the slide bar 362, and has a shape matching with a bayonet of the corresponding harness buckle 435 at an upper end thereof.

A handle 364 is fixedly provided at the lower end of the slide bar 362.

The return spring 365 is disposed in the mounting hole 361a and sleeved on the slide bar 362, and both ends thereof are respectively abutted against the handle 364 and the stepped wall of the mounting hole 361 a.

In this embodiment, the use process of the gauge 100 for detecting a motor bracket of an automobile seat is as follows:

in step S1, the car seat motor holder 400 to be inspected is placed in the inspection tool 100, and the wire harness groove positioning reference surface 431 is bonded to the wire harness groove inspection reference surface 211c, the first positioning reference surface 422a is bonded to the first inspection reference surface 221d, the second positioning reference surface 422b is bonded to the second inspection reference surface 221e, and the third positioning reference surface 422c is bonded to the third inspection reference surface 221f.

In step S2, the third positioning reference surface 422c is pressed against the third detection reference surface 221f using the flip pressing assembly 223.

Step S3, the positioning pins 231b of the first positioning pin member 231 and the positioning pins 232b of the second positioning pin member 232 are respectively pushed into the corresponding screw holes 412.

In step S4, the first positioning reference surface 422a is pressed against the first detection reference surface 221d using the flip-press jaw 222.

In step S5, the wire harness groove positioning reference surface 431 is pressed against the wire harness groove detection reference surface 211c using the flip clamp 212.

In step S6, the detection block 313 of the bracket-mounted special-shaped column detection part 31 is pushed to detect the position degree of the bracket-mounted special-shaped column 413.

In step S7, the detection block 322 of the stent-mounting cylinder detection member 32 is pushed to detect the degree of position of the stent-mounting cylinder 414.

In step S8, the two motor mounting cylinder detecting members 332 are turned down by the turning member 331 to push the detecting blocks 332b of the two motor mounting cylinder detecting members 332, and the positional degrees of the two motor mounting cylinders 411 are detected.

Step S9, the detection block 343 of the harness notch detecting member 34 is pushed, and the positional degree of the harness notch 433 is detected.

In step S10, the corresponding wire harness support block detecting member 352 is turned down by the turning member 351 to push the detecting block 352b of the wire harness support block detecting member 352, and the positional degree of the corresponding wire harness support block 434 is detected.

In step S11, the detection block 363 of the harness clip detection member 36 is pushed to detect the degree of position of the harness clip 435.

The above embodiments are preferred examples of the present utility model, and are not intended to limit the scope of the present utility model.

Claims (6)

1. The utility model provides a utensil is examined to car seat motor support's position degree, car seat motor support comprises motor supporting part, intermediate junction groove portion and the pencil groove portion that link to each other in proper order, be formed with two motor installation cylinders, two screw holes, support mounting dysmorphism posts and support installation cylinders on the free end of motor supporting part, the bottom of intermediate junction groove portion is equipped with the installation locating frame, and the bottom surface of this installation locating frame, be close to motor supporting part's inner wall surface and keep away from motor supporting part's outer wall surface sets up respectively to first location reference surface, second location reference surface, third location reference surface, the free end of pencil groove portion sets up to pencil groove location reference surface, be equipped with a plurality of pencil supporting pieces and a plurality of pencil buckles in the pencil groove portion, be formed with the pencil notch that supplies the pencil to pass through on the free end of pencil groove portion, its characterized in that includes:

the bracket positioning part is used for fixing the motor bracket of the automobile seat and comprises a wire beam groove part positioning unit, a middle connecting groove part positioning unit and a motor supporting part positioning unit; and

the position degree detection part comprises a bracket mounting special-shaped column detection part, a bracket mounting column detection part, a motor mounting column detection unit, a wire harness notch detection part, a wire harness support block detection unit and a wire harness buckle detection unit,

wherein the wire harness groove part positioning unit comprises a first support column for supporting the free end of the wire harness groove part and a first overturning pressing clamp component,

the first support column is provided with a wire harness groove detection reference surface corresponding to the wire harness groove positioning reference surface,

the first overturning pressing jaw component is provided with a first jaw for pressing the free end of the wire harness groove part on the first support column,

the middle connecting groove part positioning unit comprises a second support column for supporting the middle connecting groove part, a second overturning pressing clamp part and an overturning pressing assembly,

the second support column is provided with a first detection reference surface, a second detection reference surface and a third detection reference surface which respectively correspond to the first positioning reference surface, the second positioning reference surface and the third positioning reference surface,

the second turning clamp part is provided with a second clamp head for pressing the first positioning reference surface on the first detection reference surface,

the overturning and compressing assembly is provided with a compressing block for compressing the second positioning datum surface on the second detection datum surface,

the motor support portion positioning unit includes two positioning pin members corresponding to the two screw holes respectively,

each of the dowel members has a dowel capable of being inserted into the corresponding screw hole upon detection,

the support mounting special-shaped column detection part is provided with a first detection block which can move towards the support mounting special-shaped column during detection, the first detection block is provided with a special-shaped detection hole matched with the support mounting special-shaped column,

the bracket mounting cylinder detection component is provided with a second detection block which can move towards the bracket mounting cylinder during detection, a cylinder detection hole matched with the bracket mounting cylinder is arranged on the second detection block,

the motor mounting cylinder detecting unit includes a first reversing member, two motor mounting cylinder detecting members mounted on the first reversing member and corresponding to the two motor mounting cylinders, respectively,

each motor mounting cylinder detecting member has a third detecting block capable of moving toward the corresponding motor mounting cylinder upon detection, a cylinder detecting hole is provided on the third detecting block to match with the corresponding motor mounting cylinder,

the harness notch detecting member has a fourth detecting block movable toward the harness notch upon detection, the fourth detecting block having a shape matching the harness notch,

the wire harness support block detection unit comprises a second overturning part and a plurality of wire harness support block detection parts which are arranged on the second overturning part and respectively correspond to the plurality of wire harness support blocks,

each of the wire harness support block detecting members has a fifth detecting block capable of moving downward at the time of detection, a lower end face of the fifth detecting block having a shape matching an upper end face of the corresponding wire harness support block,

the wire harness buckle detection unit comprises a plurality of wire harness buckle detection components which respectively correspond to the plurality of wire harness buckles,

each wire harness buckle detecting component is provided with a sixth detecting block capable of detecting upward movement, and the upper end of the sixth detecting block is provided with a shape matched with the bayonet of the corresponding wire harness buckle.

2. The vehicle seat motor bracket position check tool of claim 1, further comprising:

the underframe comprises a bottom plate and a mounting plate obliquely arranged on the bottom plate,

wherein, support location portion with the position degree detection portion all sets up on the top surface of mounting panel.

3. The vehicle seat motor bracket position check tool of claim 1, wherein:

wherein, the two sides of the free end surface of the wire harness groove part are respectively provided with a bracket mounting column,

the first support column is provided with a first support column body and a support block arranged on the first support column body,

support grooves corresponding to the support mounting columns are respectively arranged on two sides of the upper end surface of the support block,

a notch which is corresponding to the wiring harness notch and is used for enabling the second detection block to pass through is arranged in the middle of the upper end face of the supporting block,

the side surface of the support block facing the intermediate connection groove portion positioning unit serves as the wire harness groove detection reference surface.

4. The vehicle seat motor bracket position check tool of claim 1, wherein:

wherein the second support column is provided with a second support column body, a positioning pin and a positioning block which are arranged on the second support column body,

the upper end surface of the second support column body is used as the first detection reference surface,

the locating pin is provided with the second detection reference surface,

the positioning block is provided with the third detection reference surface.

5. The vehicle seat motor bracket position check tool of claim 1, wherein:

the overturning and compressing assembly comprises an overturning part and a compressing part arranged on the overturning part, the compressing part is provided with a compressing block, and the compressing block can extend into the middle connecting groove part and move towards the inner wall of the middle connecting groove part corresponding to the second positioning reference surface during detection.

6. The vehicle seat motor bracket position check tool of claim 1, wherein:

the number of the wire harness support block detection units is two, and the two wire harness support block detection units are arranged along the length direction of the automobile seat motor bracket.