CN116203034A

CN116203034A - Sofa fabric warp knitting cloth inspecting equipment

Info

Publication number: CN116203034A
Application number: CN202310391900.2A
Authority: CN
Inventors: 陆凤杰
Original assignee: Zhejiang Qiansiyi Textile Technology Co ltd
Current assignee: Zhejiang Qiansiyi Textile Technology Co ltd
Priority date: 2023-04-13
Filing date: 2023-04-13
Publication date: 2023-06-02

Abstract

The invention provides a sofa fabric warp knitting fabric inspection device, which relates to the field of fabric inspection and comprises: the front piece, the front piece is U-shaped structure, and the front piece passes through the front end bottom of bolt fastening in the main part, and a impeller is installed respectively to the top both sides of front piece, and the impeller is T-shaped structure, and the impeller is plastic material, and the inner of every impeller is equipped with a catch bar, and the catch bar is cylindrical structure. When the warp knitting cloth is used, after the warp knitting cloth passes through, the warp knitting cloth passes through between the two pushing rods, and meanwhile, the pressing rod moves downwards by utilizing the gravity of the pressing rod, so that the control rod is driven to move downwards together, the control rod is enabled to move continuously in the control groove, then the pushing piece and the pushing rod are enabled to move under the force simultaneously, and further the warp knitting cloth is continuously pushed to be clamped and taken out, so that the warp knitting cloth automatically moves under the force in the middle, and the problem that when the warp knitting cloth enters in the use process of the conventional warp knitting cloth inspection equipment for sofa cloth, the warp knitting cloth easily deviates, and the centering needs to be adjusted in a laborious manner is solved.

Description

Sofa fabric warp knitting cloth inspecting equipment

Technical Field

The invention relates to the technical field of cloth inspection, in particular to a sofa warp-knitted cloth inspection device.

Background

When processing sofa warp knitting cloth, it is generally necessary to use a warp inspection device to inspect the warp knitting cloth, thereby inspecting whether flaws exist on the outside of the warp knitting cloth.

When the existing sofa warp-knitted fabric inspection equipment is used, some flaws of the warp-knitted fabric are inside or are hidden, the inspection equipment cannot be inspected easily, inspection quality is affected, dust or flock is easily stained on the outer portion of the warp-knitted fabric, inspection accuracy is affected, and when the warp-knitted fabric enters inspection, offset easily occurs, and centering is required to be adjusted difficultly.

Disclosure of Invention

In view of the above, the invention provides a sofa warp knitted fabric inspection device, which solves the problems that when the existing sofa warp knitted fabric inspection device is used, some flaws of warp knitted fabric are in the interior or are hidden, and the inspection device cannot be inspected easily.

The invention provides sofa fabric warp knitting fabric inspection equipment, which specifically comprises: a main body; the main body is a testing equipment body, the main body is of a U-shaped structure, two sides of the inside of the main body are respectively provided with a rotatable guide shaft, the front end of the main body is provided with a controller, and the controller is connected with the comparison assembly through a circuit; the inner part is of an inverted U-shaped structure, the inner part is made of elastic metal, the inner part is fixed at the middle position inside the main body through a bolt, a movable part is arranged inside the inner part, the movable part is of an inverted U-shaped structure, two ends of the movable part are respectively provided with a T-shaped block, two sides of the inside of the movable part are respectively provided with a T-shaped shaft groove, the inside of each T-shaped shaft groove is provided with a mounting part, the movable part is clamped with a rotary part through two mounting parts, the rotary part is of a cylindrical structure, a reusable adhesive layer is arranged outside the rotary part, and two ends of the rotary part are respectively provided with an arc-shaped groove; the front piece, the front piece is U-shaped structure, and the front piece passes through the front end bottom of bolt fastening in the main part, and a impeller is installed respectively to the top both sides of front piece, and the impeller is T-shaped structure, and the impeller is plastic material, and the inner of every impeller is equipped with a catch bar, and the catch bar is cylindrical structure.

Optionally, the controller is connected with two converters through lines respectively, the two converters are connected with the comparison assembly through lines at the same time, the two converters are respectively fixed inside two sides of the main body, each converter is respectively connected with one flaw identification assembly, one grating ruler and one photoelectric sensor through lines, the flaw identification assembly is provided with two in total, the two flaw identification assemblies are respectively arranged above two ends of the inside of the main body, the two grating rulers are respectively arranged above two ends of the inside of the main body, the two photoelectric sensors are respectively arranged above two ends of the inside of the main body; two illumination assemblies are respectively arranged above two ends of the interior of the main body, the two illumination assemblies are connected with the controller through a circuit, two servo motors are respectively arranged on two sides of the rear end of the main body and are connected with the controller through a circuit, a driving rod is connected with the inner end of each servo motor in a transmission manner, and the driving rod is of a cylindrical structure; every the outer end of actuating lever is equipped with a top and moves the piece, and the top moves the piece and is equipped with two altogether for cam-like structure, and two top move the staggered setting of piece position, and two top move the piece and be in the both sides of main part inside respectively, and the inside both sides of main part are equipped with a backup pad respectively, and the backup pad is L shape structure, and the outside of backup pad is equipped with the dog, and the backup pad is equipped with two altogether, and two backup pads are crisscross to be set up.

Optionally, two sides of the inner part are respectively provided with a chute, the chute is of a T-shaped structure, T-shaped blocks at two ends of the moving part are embedded in the chute, the top end of the inner part is provided with two top grooves, and the bottom end of each top groove is provided with a rectangular groove and a round hole; the two sides of the bottom of the moving part are respectively provided with a driving groove, the driving grooves are of an inclined structure, the top end of the moving part is provided with two guide parts, the guide parts are of a T-shaped structure, the guide parts are embedded into the top grooves and the rectangular grooves, the inner side of each guide part is provided with a round rod, the round rods are inserted into the round holes, and the outer side of each round rod is sleeved with a spring; the outer end of the mounting piece is of a circular plate-shaped structure, the inner end of the mounting piece is of a semicircular structure, a spring is mounted on the outer side of each mounting piece, the inner end of the mounting piece is embedded into an arc-shaped groove of the rotating piece, two driving pieces are mounted on two sides of the inner portion of the moving piece respectively, the driving pieces are of L-shaped structures, the outer ends of the driving pieces are in contact with the jacking piece, an inserting rod is arranged at the inner end of each driving piece, the inserting rod is inserted into the driving groove, an elongated groove is formed in each driving piece, and a supporting plate is inserted into the elongated groove.

Optionally, two sides of the front piece are respectively provided with an outer groove, the outer groove is of a rectangular structure, a pushing piece is inserted into the outer groove, two ends of the side edge of the front piece are respectively provided with a guide groove, and the guide grooves are of a T-shaped structure; a control groove is formed in each pushing piece, the control groove is of an inclined structure, a control rod is inserted into each control groove, the control rods are of a T-shaped shaft structure, and two control rods are arranged in total; the outer ends of the two control rods are fixedly provided with a pressing rod which is of a rectangular structure, the pressing rods are made of metal materials, the inner sides of the two ends of the pressing rods are respectively provided with a sliding block, the sliding blocks are of T-shaped structures, and the sliding blocks are inserted into the guide grooves.

Advantageous effects

1. By arranging the controller and the contrast assembly, when the warp knitting cloth is used, the defect identification assembly, the grating ruler and the photoelectric sensor at the left end of the main body firstly identify defects, then information is transmitted to the controller and the contrast assembly at the same time, then the driving rod drives the top moving part to rotate together, the top moving part drives the driving part to move, the inserting rod is inserted into the driving groove, the moving part moves downwards, the rotating part presses the warp knitting cloth, the warp knitting cloth is pulled, hidden defects of the warp knitting cloth are displayed and enlarged, when the top moving part does not push the driving part any more, the spring drives the moving part to ascend and reset, then the warp knitting cloth continues to move, the defect identification assembly, the grating ruler and the photoelectric sensor at the right end of the warp knitting cloth identify the defects again, then the information is transmitted to the controller and the contrast assembly at the same time, the controller displays the information, and the contrast assembly compares the information, and then identifies the defects appearing by the controller, and the defect identification accuracy is improved;

2. through setting up moving part and rotating part, make the moving part reciprocate, drive the rotating part and move together, make the rotating part continuously atress and warp knitting cloth contact, and then continuously glue dust and batting of collecting warp knitting cloth surface through the glue film, improve and collect the effect, avoid batting to influence the degree of accuracy;

3. through setting up impeller and catch bar, make this device when using, warp knitting cloth after passing through, between two catch bars, the depression bar utilizes self gravity downwardly moving simultaneously, and then drives the control lever and move down together, makes the control lever at the inside continuous displacement of control groove, and then makes impeller and catch bar atress remove simultaneously, and then continuously promotes to press from both sides and get warp knitting cloth, makes warp knitting cloth automatic atress remove in the middle.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the invention and are not intended to limit the invention.

In the drawings:

fig. 1 is a schematic perspective view of a cloth inspecting apparatus according to an embodiment of the present invention.

Fig. 2 is a schematic bottom view of the cloth inspecting apparatus according to the embodiment of the present invention.

Fig. 3 is a block diagram of a control system of the cloth inspection apparatus according to the embodiment of the present invention.

Fig. 4 is an exploded perspective view of a cloth inspection apparatus according to an embodiment of the present invention.

Fig. 5 is an exploded bottom view schematic of a cloth inspection apparatus of an embodiment of the present invention.

Fig. 6 is a schematic top view of the main body of the cloth inspecting apparatus according to the embodiment of the present invention.

Fig. 7 is a schematic bottom view of the main body of the cloth inspecting apparatus according to the embodiment of the present invention.

Fig. 8 is an exploded perspective and partially enlarged schematic view of the internal components of the cloth inspection apparatus according to the embodiment of the present invention.

Fig. 9 is an exploded bottom view of the internal components of the cloth inspection apparatus of the embodiment of the present invention.

Fig. 10 is a front exploded perspective view of a cloth inspection apparatus according to an embodiment of the present invention.

List of reference numerals

1. A main body; 101. a controller; 102. a contrast assembly; 103. a converter; 104. a lighting assembly; 105. a servo motor; 106. a driving rod; 107. a top moving member; 108. a support plate;

2. an inner member; 201. a chute; 202. a top groove; 203. a moving member; 204. a driving groove; 205. a guide; 206. a mounting member; 207. a rotating member; 208. a driving member;

3. a front piece; 301. an outer groove; 302. a guide groove; 303. a pushing member; 304. a push rod; 305. a control groove; 306. a compression bar; 307. a control lever; 308. a sliding block.

Detailed Description

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings and examples.

Embodiment one: please refer to fig. 1 to 10:

the invention provides sofa fabric warp-knitted fabric inspection equipment, which comprises a main body 1; the main body 1 is a testing equipment body, the main body 1 is of a U-shaped structure, rotatable guide shafts are respectively arranged on two sides of the inside of the main body 1 and used for controlling warp knitting cloth to guide circulation, a controller 101 is arranged at the front end of the main body 1, and the controller 101 is connected with a comparison component 102 through a circuit, so that the comparison component 102 compares information, and hidden flaws are all displayed; the inner part 2 is of an inverted U-shaped structure, the inner part 2 is made of elastic metal, the inner part 2 is fixed at the middle position inside the main body 1 through bolts, the moving part 203 is installed inside the inner part 2, the moving part 203 is of an inverted U-shaped structure, two ends of the moving part 203 are respectively provided with a T-shaped block, two sides of the inside of the moving part 203 are respectively provided with a T-shaped shaft groove, each T-shaped shaft groove is internally provided with a mounting part 206, the mounting part 206 moves inside the T-shaped shaft groove, the moving part 203 is clamped with a rotating part 207 through the two mounting parts 206, the rotating part 207 is of a cylindrical structure, an adhesive layer capable of being repeatedly cleaned is arranged outside the rotating part 207, the adhesive layer is continuously stressed to be contacted with warp knitted fabrics, dust and flocks outside the warp knitted fabrics are collected, and two ends of the rotating part 207 are respectively provided with an arc groove for being embedded into the inner ends of the mounting part 206, so that the mounting part 206 can be freely mounted and simultaneously rotated conveniently; the front piece 3, the front piece 3 is U-shaped structure, and front piece 3 passes through the front end bottom of bolt fastening at main part 1, and a impeller 303 is installed respectively to the top both sides of front piece 3, and impeller 303 is T-shaped structure, is driven to displace together, and impeller 303 is the plastics material, and the inner of every impeller 303 is equipped with a catch bar 304, and catch bar 304 is cylindrical structure, makes two catch bars 304 atress remove simultaneously, and then presss from both sides and get warp knitting cloth, makes warp knitting cloth atress center, makes warp knitting cloth center removal.

Referring to fig. 6 and 8, the controller 101 is connected with two converters 103 through lines respectively, so that the converters 103 transmit information to the controller 101, the two converters 103 are connected with the comparison assembly 102 through lines simultaneously, the information is transmitted to the comparison assembly 102 simultaneously, the two converters 103 are respectively fixed inside two sides of the main body 1, each converter 103 is respectively connected with a flaw identification assembly, a grating ruler and a photoelectric sensor through lines respectively, flaws of warp knitting cloth are conveniently identified, the flaw identification assemblies are provided with two, the two flaw identification assemblies are respectively arranged above two ends of the interior of the main body 1, the grating ruler is provided with two, the two grating rulers are respectively arranged above two ends of the interior of the main body 1, the photoelectric sensors are provided with two, and the two photoelectric sensors are respectively arranged above two ends of the interior of the main body 1; two illumination assemblies 104 are respectively arranged above two ends of the interior of the main body 1, two illumination assemblies 104 are respectively arranged, the illumination assemblies 104 are connected with the controller 101 through lines, two servo motors 105 are respectively arranged on two sides of the rear end of the main body 1, the servo motors 105 are connected with the controller 101 through lines and are conveniently controlled to operate by the controller 101, a driving rod 106 is connected with the inner end of each servo motor 105 in a transmission manner, the driving rod 106 is of a cylindrical structure, rotary power is generated, and warp knitting cloth is further controlled to move; the outer end of each driving rod 106 is provided with a jacking piece 107, the jacking pieces 107 are of a cam-shaped structure, when the driving rods 106 rotate, the jacking pieces 107 are driven to rotate together, the jacking pieces 107 continuously jack the driving pieces 208 to move, the jacking pieces 107 are provided with two jacking pieces, the two jacking pieces 107 are arranged in a staggered mode, the two jacking pieces 107 are respectively positioned inside two sides of the main body 1, two supporting plates 108 are respectively arranged on two sides of the inside of the main body 1, the supporting plates 108 are of L-shaped structures and are used for being inserted into long grooves of the driving pieces 208, the driving pieces 208 are guided to move, stop blocks are arranged outside the supporting plates 108, the driving pieces 208 are positioned and guided to move, the supporting plates 108 are provided with two in total, and the two supporting plates 108 are arranged in a staggered mode.

Referring to fig. 8 and 9, two sides of the inside of the inner member 2 are respectively provided with a chute 201, the chute 201 has a T-shaped structure, T-shaped blocks at two ends of the moving member 203 are embedded in the chute 201 to control the guiding movement of the moving member 203, two top grooves 202 are provided at the top end of the inner member 2, and a rectangular groove and a circular hole are provided at the bottom end of each top groove 202 to guide the guiding member 205 for displacement; the two sides of the bottom of the moving piece 203 are respectively provided with a driving groove 204, the driving grooves 204 are of an inclined structure, the top end of the moving piece 203 is provided with two guide pieces 205, the guide pieces 205 are of a T-shaped structure, the guide pieces 205 are embedded into the top grooves 202 and the rectangular grooves, the inner side of each guide piece 205 is provided with a round rod, the round rods are inserted into the round holes, the outer side of each round rod is sleeved with a spring, and the spring stretches to drive the moving piece 203 to reset; the outer end of the mounting piece 206 is of a circular plate structure, the inner end of the mounting piece 206 is of a semicircular structure, a spring is mounted on the outer side of each mounting piece 206, the mounting piece 206 is enabled to move freely under force, the rotating piece 207 is conveniently fixed, the inner end of the mounting piece 206 is embedded into an arc-shaped groove of the rotating piece 207, the rotating piece 207 is stably mounted and used, two driving pieces 208 are mounted on two sides of the inner portion of the moving piece 203 respectively, the driving pieces 208 are of L-shaped structures, the outer ends of the driving pieces 208 are in contact with the jacking piece 107, when the jacking piece 107 rotates, the driving pieces 208 are enabled to move under force, an inserting rod is arranged at the inner end of each driving piece 208, the inserting rod is inserted into the inner portion of the driving groove 204, and when the driving pieces 208 move together, the inserting rod is enabled to move due to the fact that the driving groove 204 is of an inclined structure, the moving piece 203 is driven to move, a long groove is formed in the inner portion of each driving piece 208, and a supporting plate 108 is inserted into the long groove for controlling the guiding movement of the driving pieces 208.

Referring to fig. 10, two sides of the front member 3 are respectively provided with an outer groove 301, the outer groove 301 has a rectangular structure, a pushing member 303 is inserted into the outer groove 301 to guide the pushing member 303 to move, two ends of the side edge of the front member 3 are respectively provided with a guide groove 302, the guide grooves 302 have a T-shaped structure, and the guide grooves 302 are used for guiding and moving the sliding blocks 308 in the inner part thereof, so that the control rod 307 moves vertically; a control groove 305 is formed in each pushing piece 303, the control groove 305 is of an inclined structure, a control rod 307 is inserted into each control groove 305, the control rod 307 controls the pushing pieces 303 to move through the control grooves 305, the control rods 307 are of a T-shaped shaft structure, and the control rods 307 are provided with two control rods; the outer ends of the two control rods 307 are fixedly provided with a pressing rod 306, so that the pressing rod 306 drives the two control rods 307 to move together at the same time, and further the two pushing pieces 303 and the two pushing rods 304 move together, the pressing rod 306 is of a rectangular structure, the pressing rod 306 is made of metal, the inner sides of two ends of the pressing rod 306 are respectively provided with a sliding block 308, the sliding blocks 308 are of T-shaped structures, and the sliding blocks 308 are inserted into the guide grooves 302 to guide the pressing rod 306 and the control rods 307 to move.

Embodiment two: when dust and flock are not required to be collected and warp knitting cloth is not pressed, the bolts of the inner piece 2 are detached, and then the bottom side edge of the inner piece 2 is pushed to slightly incline by elasticity, so that the inserting rod is separated from the inside of the driving groove 204, and the inner piece 2 is conveniently taken down.

Embodiment III: when the warp knitting cloth is not required to be controlled to be centered, the bolts of the front piece 3 are controlled to be detached, so that the front piece 3 is convenient to take down.

Specific use and action of the embodiment: in the invention, when the device is needed to be used, the main body 1 is controlled by manpower to be arranged at a proper position for use, then the warp knitting cloth is controlled to pass through between two pushing rods 304, then the warp knitting cloth is controlled to pass through a plurality of guide shafts at the left end of the main body 1, then the warp knitting cloth is controlled to pass through two driving rods 106, and simultaneously passes through the bottom of a rotating piece 207, then is discharged through a plurality of guide shafts at the right end of the main body 1, so that the cloth conveniently passes through the inside of the device, then a plurality of components and the servo motor 105 are controlled by the controller 101 to operate, the servo motor 105 is controlled to control the driving rods 106 to rotate, so that the warp knitting cloth continuously moves under stress, when the warp knitting cloth moves, the compression rod 306 continuously moves under stress by self gravity, and then the two control rods 307 continuously move in the inside of two control grooves 305, and then the two pushing pieces 303 and the two pushing rods 304 are simultaneously controlled to move together, the two pushing rods 304 are forced to move inwards simultaneously so as to push the warp knitting cloth to move centrally, deflection of the warp knitting cloth is avoided, meanwhile, when the warp knitting cloth moves, the defect identification component, the grating ruler and the photoelectric sensor at the left end of the main body 1 firstly identify defects, then information is transmitted to the controller 101 and the contrast component 102 simultaneously, the driving rod 106 drives the jacking component 107 to rotate together, the jacking component 107 jacks the driving component 208 to displace, the inserting rod is inserted into the driving groove 204, the moving component 203 moves downwards, the rotating component 207 presses the warp knitting cloth, the warp knitting cloth is pulled, hidden defects are displayed and enlarged, when the jacking component 107 does not jack the driving component 208 any more, the spring drives the moving component 203 to ascend and reset, then the warp knitting cloth moves continuously, the defect identification component, the grating ruler and the photoelectric sensor at the right end of the warp knitting cloth identify the defects again, then with information simultaneous transmission for controller 101 and contrast subassembly 102, make controller 101 come out with information display, contrast subassembly 102 contrast information simultaneously, then will drag the flaw that appears and discern, then show through controller 101, improve flaw recognition accuracy, when moving piece 203 reciprocates, drive rotating piece 207 and move together, make rotating piece 207 continuously atress and warp knitting cloth contact, it gathers dust and batting on warp knitting cloth surface to keep gluing through the glue film, improve the collection effect, avoid the batting to influence the degree of accuracy, and then the convenient inspection of accomplishing warp knitting cloth.

Claims

1. A sofa fabric warp knitting fabric inspection device, comprising: a main body (1); the main body (1) is a testing equipment body, the main body (1) is of a U-shaped structure, two sides of the inside of the main body (1) are respectively provided with a rotatable guide shaft, the front end of the main body (1) is provided with a controller (101), and the controller (101) is connected with the comparison assembly (102) through a circuit; the inner part (2) is of an inverted U-shaped structure, the inner part (2) is made of elastic metal, the inner part (2) is fixed at the middle position inside the main body (1) through bolts, the movable part (203) is installed inside the inner part (2), the movable part (203) is of an inverted U-shaped structure, two ends of the movable part (203) are respectively provided with a T-shaped block, two sides of the inside of the movable part (203) are respectively provided with a T-shaped shaft groove, one mounting part (206) is installed inside each T-shaped shaft groove, the movable part (203) is connected with one rotary part (207) in a clamping mode through two mounting parts (206), the rotary part (207) is of a cylindrical structure, the outer part of the rotary part (207) is provided with a glue layer capable of being repeatedly cleaned and used, and two ends of the rotary part (207) are respectively provided with an arc-shaped groove; the front piece (3), front piece (3) is U-shaped structure, and front piece (3) pass through the front end bottom of bolt fastening in main part (1), and a pushing piece (303) is installed respectively to the top both sides of front piece (3), and pushing piece (303) are T-shaped structure, and pushing piece (303) are plastics material, and the inner of every pushing piece (303) is equipped with a catch bar (304), and catch bar (304) are cylindrical structure.

2. The sofa fabric warp-knitted fabric inspection device of claim 1, wherein: the controller (101) is connected with two converters (103) through lines respectively, the two converters (103) are connected with the comparison assembly (102) through lines simultaneously, the two converters (103) are respectively fixed inside two sides of the main body (1), each converter (103) is respectively connected with one flaw identification assembly, one grating ruler and one photoelectric sensor through lines, the flaw identification assembly is provided with two in total, the two flaw identification assemblies are respectively installed above the two inner ends of the main body (1), the two grating rulers are provided with two in total, the two grating rulers are respectively installed above the two inner ends of the main body (1), the two photoelectric sensors are provided with two in total, and the two photoelectric sensors are respectively installed above the two inner ends of the main body (1).

3. The sofa fabric warp-knitted fabric inspection device of claim 1, wherein: two lighting components (104) are respectively arranged above two ends of the interior of the main body (1), the two lighting components (104) are arranged in total, the lighting components (104) are connected with the controller (101) through circuits, a servo motor (105) is respectively arranged on two sides of the rear end of the main body (1), the servo motor (105) is connected with the controller (101) through circuits, a driving rod (106) is connected with the inner end of each servo motor (105) in a transmission mode, and the driving rod (106) is of a cylindrical structure.

4. A sofa fabric warp-knitted fabric inspection apparatus as in claim 3, wherein: every the outer end of actuating lever (106) is equipped with one and pushes up and move piece (107), pushes up and moves piece (107) and be cam-like structure, pushes up and moves piece (107) and be equipped with two altogether, and two push up move piece (107) position crisscross setting, two push up move piece (107) and be in the both sides inside of main part (1) respectively, the inside both sides of main part (1) are equipped with a backup pad (108) respectively, backup pad (108) are L shape structure, the outside of backup pad (108) is equipped with the dog, backup pad (108) are equipped with two altogether, two backup pads (108) are crisscross setting.

5. The sofa fabric warp-knitted fabric inspection device of claim 4, wherein: the inside both sides of internals (2) are equipped with a spout (201) respectively, and spout (201) are T shape structure, and the inside embedding of spout (201) has the T shape piece at moving part (203) both ends, and the top of internals (2) is equipped with two roof grooves (202), and the bottom of every roof groove (202) is equipped with a rectangular channel and a round hole.

6. The sofa fabric warp-knitted fabric inspection device of claim 5, wherein: the bottom both sides of moving part (203) are equipped with a drive slot (204) respectively, and drive slot (204) are slope form structure, and the top of moving part (203) is equipped with two guide (205), and guide (205) are T shape structure, and guide (205) imbeds in the inside of roof groove (202) and rectangular channel, and the inboard of every guide (205) is equipped with a round bar, and the round bar inserts in the inside of round hole, and the outside cover of every round bar is equipped with a spring.

7. The sofa fabric warp-knitted fabric inspection device of claim 6, wherein: the outer end of the mounting piece (206) is of a circular plate-shaped structure, the inner end of the mounting piece (206) is of a semicircular structure, a spring is mounted on the outer side of each mounting piece (206), the inner end of the mounting piece (206) is embedded into an arc-shaped groove of the rotating piece (207), driving pieces (208) are mounted on two sides of the inner portion of the moving piece (203) respectively, the driving pieces (208) are of L-shaped structures, the outer end of each driving piece (208) is in contact with the jacking piece (107), an inserting rod is arranged at the inner end of each driving piece (208), the inserting rod is inserted into the driving groove (204), a long groove is formed in each driving piece (208), and a supporting plate (108) is inserted into the long groove.

8. The sofa fabric warp-knitted fabric inspection device of claim 1, wherein: the two sides of the front piece (3) are respectively provided with an outer groove (301), the outer grooves (301) are of rectangular structures, pushing pieces (303) are inserted into the outer grooves (301), two ends of the side edge of the front piece (3) are respectively provided with a guide groove (302), and the guide grooves (302) are of T-shaped structures.

9. The sofa fabric warp-knitted fabric inspection device of claim 8, wherein: the inside of every impeller (303) is equipped with a control groove (305), and control groove (305) are slope form structure, and the inside of every control groove (305) has inserted a control rod (307), and control rod (307) are T shape axle construction, and control rod (307) are equipped with two altogether.

10. The sofa fabric warp-knitted fabric inspection apparatus of claim 9, wherein: the outer ends of the two control rods (307) are fixedly provided with a pressing rod (306), the pressing rod (306) is of a rectangular structure, the pressing rod (306) is made of metal, the inner sides of the two ends of the pressing rod (306) are respectively provided with a sliding block (308), the sliding blocks (308) are of T-shaped structures, and the sliding blocks (308) are inserted into the guide grooves (302).