CN219573010U - Slush molding epidermis thickness measurement detects and weakening treatment all-in-one - Google Patents

Abstract

The utility model discloses a slush molding epidermis thickness measurement detection and weakening treatment integrated machine, which comprises a detection rack and is characterized in that: two symmetrical guide plates are arranged on the inner wall surface of the detection rack, a tiling clamping mechanism is movably arranged on the inner wall surface of the detection rack above the guide plates, and two symmetrical limit sliding tables are arranged on the inner wall surface of the upper end of the detection rack; the upper surface of the right side of the detection bench is fixedly provided with a pushing mechanism, and the pushing mechanism comprises: the device comprises a pushing electric cylinder, wherein the output end of the pushing electric cylinder is connected with a mounting plate, the mounting plate is in sliding connection with a limiting sliding table, a thickness measuring assembly is fixedly arranged on the upper surface of the mounting plate, a weakening processing assembly is slidably arranged on the lower surface of the right side of the limiting sliding table, and a supporting assembly is arranged in the detecting rack. The utility model can prevent inaccurate thickness measurement caused by impurities remained on the detection table surface when the slush molding surface carries out thickness measurement.

Description

Slush molding epidermis thickness measurement detects and weakening treatment all-in-one

Technical Field

The utility model relates to the technical field of slush molding epidermis measurement, in particular to a slush molding epidermis thickness measuring, detecting and weakening integrated machine.

Background

At present, most of passenger car instrument boards adopt slush-molded skin instrument boards, in order to ensure normal operation of an airbag at a copilot side, the skin of an installation area of an airbag reinforcing frame of the instrument board needs to be weakened, a broken continuous weakening line is formed by cutting the slush-molded skin by using a cold knife, and an area formed by the weakening line is called as a weakening area for short, so that the weakening area of the surface layer of the instrument board can be normally opened when the airbag is exploded, and the airbag can be ejected out.

The existing slush-molded skin is subjected to weakening treatment, a sample of the slush-molded skin is manufactured first, then the performance of the slush-molded skin is detected through detection equipment, however, when the slush-molded skin sample is detected to be thick, the existing detection equipment is used for detecting the thickness of the slush-molded skin, impurities can be remained on the detection table after detection for many times, so that accurate data cannot be obtained when the subsequent slush-molded skin sample is detected, each time cleaning is needed, and when the weakening line is treated after the thickness detection of the slush-molded skin sample is finished so as to observe the effect of the weakening line, the distance between the slush-molded skin sample and the weakening line processing device is changed due to the fact that the slush-molded skin sample is required to be transported to the processing position of the weakening line, and the residual thickness on the surface of the slush-molded skin sample is not uniform when the weakening line is processed, and therefore the detection after the processing of the weakening line is affected, and therefore a new integrated machine for the slush-molded skin thickness detection and the weakening line is needed.

Disclosure of Invention

The utility model aims to provide a slush molding skin thickness measuring, detecting and weakening integrated machine which is used for solving the problem that in the prior art, when the slush molding skin is used for thickness measurement, due to the fact that a detection table board is used for a long time, impurities are generated on the detection table board, so that measurement accuracy is inaccurate when the slush molding skin is measured.

In order to achieve the above purpose, the embodiment of the present utility model adopts the following technical scheme: the utility model provides a slush molding epidermis thickness measurement detects and weakening treatment all-in-one, includes detection rack, its characterized in that: two symmetrical rolling shafts are movably arranged on the inner wall surface of the detection rack, two symmetrical guide plates are arranged on the inner wall surface of the detection rack in the middle of the two rolling shafts, the upper surface of each guide plate and the outer peripheral surface of each rolling shaft are in the same horizontal line, a tiling clamping mechanism is movably arranged on the inner wall surface of the detection rack above each guide plate, the tiling clamping mechanism and the guide plates can be used for clamping the surface, two symmetrical limiting sliding tables are arranged on the inner wall surface of the upper end of the detection rack above each tiling clamping mechanism, and a distance is reserved between the two limiting sliding tables; the upper surface of the right side of the detection bench is fixedly provided with a pushing mechanism, and the pushing mechanism comprises: the device comprises a pushing electric cylinder, wherein the output end of the pushing electric cylinder is connected with a mounting plate, the mounting plate is in sliding connection with a limiting sliding table, a thickness measuring assembly is fixedly arranged on the upper surface of the mounting plate, a weakening assembly is slidably arranged on the lower surface of the right side of the limiting sliding table, the surface of a epidermis can be weakened by the weakening assembly, a supporting assembly is arranged in a detection rack, the supporting assembly can be utilized to support the detection rack when the thickness of the epidermis is measured by the thickness measuring assembly, a servo sliding table is arranged on the inner wall surface of the lower end of the detection rack, a jacking electric cylinder is fixedly arranged at the sliding end of the servo sliding table, a jacking ball is arranged at the output end of the jacking electric cylinder, and the jacking ball and the weakening assembly are oppositely arranged; the thickness measuring assembly includes: the device comprises a servo electric cylinder, wherein the servo electric cylinder is fixedly connected with a mounting plate, a thickness measuring telescopic shaft is connected to the output end of the servo electric cylinder, the thickness measuring telescopic shaft is positioned between two limiting sliding tables, a locking rod is fixedly arranged on one side of the thickness measuring telescopic shaft, which faces to a weakening processing assembly, a displacement sensor is fixedly connected to the periphery of the thickness measuring telescopic shaft below the locking rod through a fixing plate, a displacement inner shaft is movably arranged at the inner part of the lower end of the thickness measuring telescopic shaft, and a thickness measuring ball is movably arranged in the displacement inner shaft.

Further, in the embodiment of the utility model, a symmetrical sensing plate is arranged on the periphery of the upper end of the displacement inner shaft, the sensing plate extends out of the surface of the thickness measuring telescopic shaft and is spaced from the displacement sensor, an arc-shaped accommodating cavity is arranged at the lower end of the displacement inner shaft, the thickness measuring ball is attached to the accommodating cavity, the peripheral surface of the thickness measuring ball extends out of the lower end surface of the displacement inner shaft, a through hole is arranged on the surface of the locking rod, a compression spring is sleeved on the periphery of the displacement inner shaft, one end of the compression spring is connected with the surface of the sensing plate, and the other end of the compression spring is connected with the inner bottom surface of the thickness measuring telescopic shaft.

Further, in the embodiment of the present utility model, two tile clamping mechanisms are symmetrically arranged and have the same structure, and the tile clamping mechanism includes: the rotary motor is fixedly connected with the mounting table on the outer side surface of the detection rack, the rotary motor is fixedly connected with a rotary shaft at the output end of the rotary motor, the rotary shaft penetrates through one side of the detection rack and is connected with the other end of the detection rack in a rotating mode, a plurality of extrusion plates are movably arranged in the rotary shaft, a reset spring is arranged at one end of each extrusion plate located in the rotary shaft, and rubber blocks are fixedly arranged at the other end of each extrusion plate.

Further, in an embodiment of the present utility model, the support assembly includes: the automatic detection device comprises a driving rotating shaft, wherein the driving rotating shaft is movably arranged in a detection bench, gears are fixedly connected to the upper end and the lower end of the driving rotating shaft respectively, a driving toothed plate is connected to the upper end of the driving rotating shaft in a meshing manner, one end of the driving toothed plate is fixedly connected with a mounting plate, a driven toothed plate is connected to the lower end of the driving rotating shaft in a meshing manner, the driven toothed plate is movably arranged in a guide plate, a supporting plate is fixedly connected to one end of the driven toothed plate, and the upper surface of the supporting plate is flush with the upper surface of the guide plate.

Further, in the embodiment of the utility model, two driving rotating shafts are symmetrically arranged, two driving toothed plates are symmetrically arranged, tooth grooves are formed in the surface of one side of each driving toothed plate, facing the driving rotating shaft, of each driving toothed plate, the tooth grooves of the two driving toothed plates are respectively connected with gears at the upper ends of the two driving rotating shafts in a meshed mode, and driven toothed plates are respectively connected with gears at the lower ends of the corresponding driving rotating shafts in a meshed mode.

Further, in an embodiment of the present utility model, the weakening assembly comprises: the device comprises a weakening tool rest, wherein a sliding block is arranged at the upper end of the weakening tool rest, the sliding block of the weakening tool rest is in sliding connection with the lower surface of a limiting sliding table, a weakening tool is arranged at the lower end of the weakening tool rest, a splicing hole is formed in one side, facing to a thickness measuring assembly, of the weakening tool rest, the splicing hole is used for accommodating a locking rod, and a locking hole is formed in the adjacent side, provided with the splicing hole, of the weakening tool rest.

Further, in the embodiment of the utility model, a guide sliding rail is fixedly arranged on the inner wall surface of the detection rack at one side of the weakening processing assembly, and an electric lock is slidably arranged on the guide sliding rail, and a locking block of the electric lock corresponds to the locking hole.

The beneficial effects of the utility model are as follows: according to the utility model, the surface skin can be fixed when the thickness of the surface skin is detected through the tiling clamping mechanism, and the surface skin is stretched in the process of fixing the surface skin, so that the surface of the surface skin is flat and has no wrinkles. The epidermis is pressed from both sides tightly through tiling clamping mechanism for the thickness measurement position of epidermis is in the vacation state, can reduce that the thickness measurement position of epidermis from gluing the impurity granule that detects the rack surface, and the measurement accuracy that leads to is inaccurate. Can support the measurement position of epidermis when the thickness measurement is carried out to the epidermis through the supporting component to the thickness measurement subassembly, prevent that the epidermis from taking place to sink in the epidermis measurement process and leading to measuring accuracy decline. The weakening processing assembly can directly conduct weakening processing on the surface of the epidermis after the thickness measurement of the epidermis is completed by the thickness measuring assembly, so that the transfer times of the epidermis are reduced, and the weakening line is prevented from not reaching the standard during the weakening processing.

Drawings

The utility model will be further described with reference to the drawings and examples.

FIG. 1 is a schematic diagram of the overall structure of a slush molding skin thickness measurement, detection and weakening integrated machine according to the present utility model.

Fig. 2 is a schematic view of a partially enlarged structure at a in fig. 1.

Fig. 3 is a schematic view of the internal structure of the inspection bench shown in fig. 1 after being cut away.

FIG. 4 is a schematic view of the structure of the thickness measuring assembly of FIG. 3.

Fig. 5 is a schematic view of the structure of the support assembly, the weakening assembly of fig. 3.

10. Detection bench 101, guide slide rail 102 and limiting slide table

103. Guide plate 104 and servo sliding table

20. Tiling clamping mechanism 201, rotating motor 202, and rotating shaft

203. Squeeze plate 2031, rubber block

30. Pushing mechanism 301, pushing electric cylinder 302 and mounting plate

40. Thickness measuring assembly 401, servo electric cylinder 402 and thickness measuring telescopic shaft

403. Locking lever 404, displacement sensor 405, and displacement inner shaft

4051. Sensing plate 4052, receiving cavity 406, and thickness measuring ball

50. Epidermis

60. Jacking cylinder 601 and jacking ball

70. Weakening assembly 701, weakening blade holder 702, weakening tool

703. Locking hole 704, plug-in hole

80. Support assembly 801, active toothed plate 802 and active rotating shaft

803. Driven toothed plate 804, support plate 90 and electric lock

Detailed Description

In order to make the objects, technical solutions, and advantages of the present utility model more apparent, the embodiments of the present utility model will be further described in detail with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are some, but not all, embodiments of the present utility model, are intended to be illustrative only and not limiting of the embodiments of the present utility model, and that all other embodiments obtained by persons of ordinary skill in the art without making any inventive effort are within the scope of the present utility model.

In the description of the present utility model, it should be noted that the terms "center," "middle," "upper," "lower," "left," "right," "inner," "outer," "top," "bottom," "side," "vertical," "horizontal," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate description of the present utility model and simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "a," an, "" the first, "" the second, "" the third, "" the fourth, "" the fifth, "and the sixth" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

For purposes of brevity and description, the principles of the embodiments are described primarily by reference to examples. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the embodiments. It will be apparent, however, to one of ordinary skill in the art that the embodiments may be practiced without limitation to these specific details. In some instances, well-known methods and structures have not been described in detail so as not to unnecessarily obscure the embodiments. In addition, all embodiments may be used in combination with each other.

As shown in fig. 1-5, this embodiment discloses a slush molding epidermis thickness measurement detects and weakening treatment all-in-one, including detecting the rack 10, be provided with two symmetrical roller bearings in the internal face activity of detecting the rack 10, be provided with two symmetrical deflector 103 in the internal face of detecting the rack 10 in the centre of two roller bearings, the upper surface of deflector 103 is same horizontal line with the external peripheral surface of roller bearing, be provided with tiling clamping mechanism 20 in the internal face activity of detecting the rack 10 in the top of deflector 103, can utilize tiling clamping mechanism 20 and deflector 103 to carry out the centre gripping to epidermis 50, be provided with two symmetrical spacing slip tables 102 in the upper end internal face of detecting the rack 10 in the top of tiling clamping mechanism 20, leave the interval between two spacing slip tables 102, in this embodiment, tiling clamping mechanism 20 symmetry is provided with two and is the same structure, tiling clamping mechanism 20 includes as shown in fig. 1, 3: the rotary motor 201, the rotary motor 201 is fixedly connected with the mounting table on the outer side surface of the detection rack 10, the rotary shaft 202 is fixedly connected with the output end of the rotary motor 201, the rotary shaft 202 penetrates through the inside of one side of the detection rack 10 and is rotationally connected with the inside of the other end of the detection rack 10, a plurality of extrusion plates 203 are movably arranged in the rotary shaft 202, a reset spring is arranged at one end of the extrusion plates 203 positioned in the rotary shaft 202, and rubber blocks 2031 are fixedly arranged at the other end of the extrusion plates 203.

As shown in fig. 1 and 4, a pushing mechanism 30 is fixedly provided on the upper right surface of the detection stage 10, and the pushing mechanism 30 includes: the pushing electric cylinder 301, be connected with mounting panel 302 at pushing electric cylinder 301's output, mounting panel 302 and spacing slip table 102 sliding connection are provided with thickness measurement subassembly 40 at mounting panel 302's upper surface fixed, and thickness measurement subassembly 40 includes: the servo electric cylinder 401, servo electric cylinder 401 and mounting panel 302 fixed connection, be connected with thickness measurement telescopic shaft 402 at servo electric cylinder 401's output, thickness measurement telescopic shaft 402 is located the centre of two spacing slip tables 102, be provided with locking lever 403 in thickness measurement telescopic shaft 402 towards the one side of weakening subassembly 70 fixedly, be located the below of locking lever 403 and pass through fixed plate fixedly connected with displacement sensor 404 in thickness measurement telescopic shaft 402's periphery, be provided with displacement interior axle 405 at thickness measurement telescopic shaft 402's lower extreme inside activity, be provided with thickness measurement ball 406 at displacement interior axle 405's inside activity.

As shown in fig. 4, a symmetrical sensing plate 4051 is disposed on the outer periphery of the upper end of the inner displacement shaft 405, the sensing plate 4051 extends out of the surface of the thickness measuring telescopic shaft 402 and is spaced from the displacement sensor 404, an arc-shaped accommodating cavity 4052 is disposed at the lower end of the inner displacement shaft 405, the thickness measuring ball 406 is attached to the accommodating cavity 4052, the outer periphery surface of the thickness measuring ball 406 extends out of the lower end surface of the inner displacement shaft 405, a through hole is disposed on the surface of the locking rod 403, a compression spring is sleeved on the outer periphery of the inner displacement shaft 405, one end of the compression spring is connected with the surface of the sensing plate 4051, and the other end of the compression spring is connected with the inner bottom surface of the thickness measuring telescopic shaft 402.

As shown in fig. 3, a weakening unit 70 is slidably provided on the lower right surface of the limit slide table 102, and the surface of the skin 50 can be weakened by the weakening unit 70, and as shown in fig. 3 and 5, the weakening unit 70 includes: the weakening tool rest 701, be provided with the slider in the upper end of weakening tool rest 701, the slider and the lower surface sliding connection of spacing slip table 102 of weakening tool rest 701 are provided with weakening cutter 702 in the lower extreme of weakening tool rest 701, are provided with spliced eye 704 in the side of weakening tool rest 701 towards thickness measuring subassembly 40, and spliced eye 704 is used for holding locking lever 403, is provided with locking hole 703 in the adjacent one side that weakening tool rest 701 has spliced eye 704.

As shown in fig. 3, a guide rail 101 is fixedly provided on the inner wall surface of the inspection rack 10 on one side of the weakening unit 70, and an electric lock 90 is slidably provided on the guide rail 101, and a lock block of the electric lock 90 corresponds to the lock hole 703.

As shown in fig. 1, a support assembly 80 is provided inside the inspection rack 10, and the support assembly 80 can be used to support the inspection rack 10 when the thickness of the skin 50 is measured by the thickness measuring assembly 40, a servo sliding table 102 is provided on the inner wall surface of the lower end of the inspection rack 10, a lifting cylinder 60 is fixedly provided at the sliding end of the servo sliding table 102, a lifting ball 601 is provided at the output end of the lifting cylinder 60, the lifting ball 601 is provided opposite to the weakening assembly 70, and as shown in fig. 3 and 5, the support assembly 80 includes: the driving rotating shaft 802 is movably arranged in the detection bench 10, gears are fixedly connected to the upper end and the lower end of the driving rotating shaft 802 respectively, a driving toothed plate 801 is connected to the upper end of the driving rotating shaft 802 in a toothed manner, one end of the driving toothed plate 801 is fixedly connected with the mounting plate 302, a driven toothed plate 803 is connected to the lower end of the driving rotating shaft 802 in a toothed manner, the driven toothed plate 803 is movably arranged in the guide plate 103, a supporting plate 804 is fixedly connected to one end of the driven toothed plate 803, and the upper surface of the supporting plate 804 is flush with the upper surface of the guide plate 103.

As shown in fig. 5, two driving shafts 802 are symmetrically arranged, two driving toothed plates 801 are symmetrically arranged, tooth grooves are formed in the surface of one side of each driving toothed plate 801 facing the driving shaft 802, the tooth grooves of each driving toothed plate 801 are respectively engaged with gears at the upper ends of the two driving shafts 802, and driven toothed plates 803 are respectively engaged with gears at the lower ends of the corresponding driving shafts 802.

The surface skin 50 can be fixed when the thickness of the surface skin 50 is detected by the tiling and clamping mechanism 20, and the surface skin 50 is stretched in the process of fixing the surface skin 50, so that the surface of the surface skin 50 is flat and has no wrinkles. The surface skin 50 is clamped by the tiling clamping mechanism 20, so that the thickness measuring position of the surface skin 50 is in a vacated state, and inaccuracy of measurement precision caused by the fact that impurity particles adhered to the surface of the detection rack 10 are adhered to the thickness measuring position of the surface skin 50 can be reduced. The supporting component 80 can support the measurement position of the epidermis 50 when the thickness measurement component 40 performs thickness measurement on the epidermis 50, so that the reduction of measurement accuracy caused by the sinking of the epidermis 50 in the measurement process of the epidermis 50 is prevented. The weakening processing assembly 70 can directly perform weakening processing on the surface of the epidermis 50 after the thickness measurement of the epidermis 50 is completed by the thickness measurement assembly 40, so that the number of times of transferring the epidermis 50 is reduced, and the weakening line is prevented from not reaching the standard during the weakening processing.

The working principle of the utility model is as follows: manually placing the skin 50 made of slush molding on the surface of the guide plate 103, so that the skin 50 is placed below the thickness measuring assembly 40 and the weakening processing assembly 70, then starting the rotating motors 201 of the two tiling clamping mechanisms 20, driving the rotating shafts 202 to rotate through the rotating motors 201, driving the extruding plates 203 to rotate in the rotating process of the rotating shafts 202 (the rotating directions of the two tiling clamping mechanisms 20 are opposite, namely, one is anticlockwise and the other is clockwise), attaching rubber blocks 2031 arranged on the surface of the extruding plates 203 to the surface of the skin 50 in the rotating process of the extruding plates 203, stopping the rotating of the extruding plates 203 when the extruding plates 203 are rotated to be perpendicular to the surface of the skin 50, applying extrusion force to the skin 50 through reset springs arranged inside by the extruding plates 203 and the guide plate 103, and realizing clamping and fixing the skin 50 through the extruding plates 203, and stretching the surface of the skin 50 when the extruding plates 203 rotate and extruding, so that the surface of the skin 50 is smooth and does not have wrinkles;

then, the servo cylinder 401 of the thickness measuring assembly 40 is started, the servo cylinder 401 drives the thickness measuring telescopic shaft 402 to move towards the direction of the epidermis 5, so that the thickness measuring balls 406 are in contact with the surface of the epidermis 50, the thickness measuring telescopic shaft 402 continues to move, so that the displacement inner shaft 405 moves upwards for a certain distance, at the moment, the displacement inner shaft 405 stretches the compression spring, so that the compression spring generates tension, then the pushing cylinder 301 of the pushing mechanism 30 is started, the pushing cylinder 301 drives the mounting plate 302 to move towards the pushing cylinder 301, the whole thickness measuring assembly 40 is driven to move in the moving process of the mounting plate 302, the thickness measuring balls 406 are in contact with the surface of the epidermis 50 in the moving process of the thickness measuring assembly 40, the balls cannot displace when the surface thickness of the epidermis 50 is consistent, at the moment, the displacement inner shaft 405 cannot displace, and the displacement sensor 404 cannot receive a displacement signal (namely the surface thickness of the epidermis 50 is consistent);

the balls are displaced when the surface thicknesses of the skins 50 are not uniform, so that the displacement of the displacement inner shaft 405 occurs, for example: when there is a concave or convex position on the surface of the skin 50, the displacement inner shaft 405 moves upward or downward, and the sensing plate 4051 follows the upward or downward movement, and the displacement sensor 404 receives a displacement signal (i.e. the surface thickness of the skin 50 is inconsistent);

the driving toothed plate 801 of the supporting component 80 moves along with the movement of the thickness measuring component 40 driven by the mounting plate 302, the driving rotary shaft 802 is driven to rotate by the driving toothed plate 801, then the driven toothed plate 803 is driven to move along with the driving rotary shaft 802, and the supporting plate 804 also moves along with the movement of the driven toothed plate 803 in the process of moving, so that the supporting plate is kept attached to the lower surface of the epidermis 50.

When the thickness measured by the epidermis 50 is consistent, the locking rod 403 on the surface of the thickness measuring telescopic shaft 402 is inserted into the inserting hole 704 of the weakening knife rest 701, then, the electric lock 90 is started to enable the locking block to be inserted into the locking hole 703 and buckled with the through hole on the surface of the locking rod 403, so that the thickness measuring telescopic shaft 402 is connected with the weakening knife rest 701, then, the electric cylinder 301 is pushed to reset, the thickness measuring assembly 40 moves in a direction away from the pushing electric cylinder 301, the weakening assembly 70 is driven to move along with the movement of the thickness measuring assembly 40, the weakening knife 702 mounted on the weakening knife rest 701 weakens the epidermis 50, a weakening line is formed on the surface of the epidermis 50, the servo sliding table 104 drives the jacking electric cylinder 60 to move along with the movement of the weakening assembly 70, the jacking balls 601 on the jacking electric cylinder 60 are attached to the lower surface of the epidermis 50, and the same vertical line with the weakening knife 702 is kept, and the epidermis 50 can be kept at the same level when the weakening is carried out.

While the foregoing describes illustrative embodiments of the present utility model so that those skilled in the art may understand the present utility model, the present utility model is not limited to the specific embodiments, and all applications and creations utilizing the inventive concepts are within the scope of the present utility model as long as the modifications are within the spirit and scope of the present utility model as defined and defined in the appended claims to those skilled in the art.

Claims (7)

1. The utility model provides a slush molding epidermis thickness measurement detects and weakening treatment all-in-one, includes detection rack, its characterized in that: two symmetrical rolling shafts are movably arranged on the inner wall surface of the detection rack, two symmetrical guide plates are arranged on the inner wall surface of the detection rack in the middle of the two rolling shafts, the upper surface of each guide plate and the outer peripheral surface of each rolling shaft are in the same horizontal line, a tiling clamping mechanism is movably arranged on the inner wall surface of the detection rack above each guide plate, the tiling clamping mechanism and the guide plates can be used for clamping the surface, two symmetrical limiting sliding tables are arranged on the inner wall surface of the upper end of the detection rack above each tiling clamping mechanism, and a distance is reserved between the two limiting sliding tables;

the upper surface of the right side of the detection bench is fixedly provided with a pushing mechanism, and the pushing mechanism comprises: the device comprises a pushing electric cylinder, wherein the output end of the pushing electric cylinder is connected with a mounting plate, the mounting plate is in sliding connection with a limiting sliding table, a thickness measuring assembly is fixedly arranged on the upper surface of the mounting plate, a weakening assembly is slidably arranged on the lower surface of the right side of the limiting sliding table, the surface of a epidermis can be weakened by the weakening assembly, a supporting assembly is arranged in a detection rack, the supporting assembly can be utilized to support the detection rack when the thickness of the epidermis is measured by the thickness measuring assembly, a servo sliding table is arranged on the inner wall surface of the lower end of the detection rack, a jacking electric cylinder is fixedly arranged at the sliding end of the servo sliding table, a jacking ball is arranged at the output end of the jacking electric cylinder, and the jacking ball and the weakening assembly are oppositely arranged;

the thickness measuring assembly includes: the device comprises a servo electric cylinder, wherein the servo electric cylinder is fixedly connected with a mounting plate, a thickness measuring telescopic shaft is connected to the output end of the servo electric cylinder, the thickness measuring telescopic shaft is positioned between two limiting sliding tables, a locking rod is fixedly arranged on one side of the thickness measuring telescopic shaft, which faces to a weakening processing assembly, a displacement sensor is fixedly connected to the periphery of the thickness measuring telescopic shaft below the locking rod through a fixing plate, a displacement inner shaft is movably arranged at the inner part of the lower end of the thickness measuring telescopic shaft, and a thickness measuring ball is movably arranged in the displacement inner shaft.

2. The slush molding skin thickness measurement detection and weakening treatment integrated machine according to claim 1, wherein symmetrical induction plates are arranged on the periphery of the upper end of the displacement inner shaft, the induction plates extend out of the surface of the thickness measurement telescopic shaft and are spaced from the displacement sensor, an arc-shaped accommodating cavity is arranged at the lower end of the displacement inner shaft, thickness measurement balls are attached to the accommodating cavity, the peripheral surfaces of the thickness measurement balls extend out of the lower end surface of the displacement inner shaft, through holes are formed in the surface of the locking rod, compression springs are sleeved on the periphery of the displacement inner shaft, one ends of the compression springs are connected with the surface of the induction plates, and the other ends of the compression springs are connected with the inner bottom surface of the thickness measurement telescopic shaft.

3. The slush molding skin thickness measurement detection and weakening treatment integrated machine according to claim 1, wherein the tiling clamping mechanism is symmetrically provided with two and same structure, and comprises: the rotary motor is fixedly connected with the mounting table on the outer side surface of the detection rack, the rotary motor is fixedly connected with a rotary shaft at the output end of the rotary motor, the rotary shaft penetrates through one side of the detection rack and is connected with the other end of the detection rack in a rotating mode, a plurality of extrusion plates are movably arranged in the rotary shaft, a reset spring is arranged at one end of each extrusion plate located in the rotary shaft, and rubber blocks are fixedly arranged at the other end of each extrusion plate.

4. The slush molded skin thickness measurement, inspection and weakness machine of claim 1, wherein the support assembly comprises: the automatic detection device comprises a driving rotating shaft, wherein the driving rotating shaft is movably arranged in a detection bench, gears are fixedly connected to the upper end and the lower end of the driving rotating shaft respectively, a driving toothed plate is connected to the upper end of the driving rotating shaft in a meshing manner, one end of the driving toothed plate is fixedly connected with a mounting plate, a driven toothed plate is connected to the lower end of the driving rotating shaft in a meshing manner, the driven toothed plate is movably arranged in a guide plate, a supporting plate is fixedly connected to one end of the driven toothed plate, and the upper surface of the supporting plate is flush with the upper surface of the guide plate.

5. The integrated machine for measuring thickness and weakening the slush molding surface skin according to claim 4, wherein the two driving rotating shafts are symmetrically arranged, the two driving toothed plates are symmetrically arranged, tooth grooves are formed in the surface of one side of each driving toothed plate, facing the driving rotating shaft, of the two driving toothed plates, the tooth grooves of the two driving toothed plates are respectively engaged with gears at the upper ends of the two driving rotating shafts, and the two driven toothed plates are respectively engaged with gears at the lower ends of the corresponding driving rotating shafts.

6. The slush molded skin thickness measurement, inspection and weakening integrated machine of claim 1, wherein the weakening assembly comprises: the device comprises a weakening tool rest, wherein a sliding block is arranged at the upper end of the weakening tool rest, the sliding block of the weakening tool rest is in sliding connection with the lower surface of a limiting sliding table, a weakening tool is arranged at the lower end of the weakening tool rest, a splicing hole is formed in one side, facing to a thickness measuring assembly, of the weakening tool rest, the splicing hole is used for accommodating a locking rod, and a locking hole is formed in the adjacent side, provided with the splicing hole, of the weakening tool rest.

7. The integrated slush molding skin thickness measurement, detection and weakening treatment machine according to claim 6, wherein a guiding sliding rail is fixedly arranged on the inner wall surface of the detection rack at one side of the weakening treatment assembly, an electric lock is slidably arranged on the guiding sliding rail, and a locking block of the electric lock corresponds to the locking hole.