CN115506086A - Protective clothing processing device and processing method thereof - Google Patents

Abstract

The invention discloses a protective clothing processing device and a processing method thereof, relates to the technical field of protective clothing processing, and aims to solve the problem that the processing procedures are complicated because the conventional fabric cutting device can only cut fabrics with required lengths in the using process, but the fabrics can be processed for multiple times to obtain the finished products of the protective clothing. The device comprises a device grounding seat and a PLC (programmable logic controller), wherein an integrated end platform is arranged at the upper end of the device grounding seat, four supporting vertical rods are arranged at the upper end of the integrated end platform, a suspension platform is arranged at the upper ends of the four supporting vertical rods, the four supporting vertical rods are integrally formed with the integrated end platform and the suspension platform, a material receiving inner bin is arranged in the device grounding seat, and the material receiving inner bin and the device grounding seat are integrally formed; further comprising: the center square seat is arranged in the inner square groove of the integrated end table, a square cavity is arranged between the center square seat and the integrated end table, and a bearing square groove is formed in the upper end of the center square seat.

Description

Protective clothing processing device and processing method thereof

Technical Field

The invention relates to the technical field of protective clothing processing, in particular to a protective clothing processing device and a processing method thereof.

Background

The protective clothing types include fire-fighting protective clothing, industrial protective clothing, medical protective clothing, military protective clothing and protective clothing used by special people. The protective clothing is mainly applied to industries and departments such as fire fighting, military industry, ships, petroleum, chemical industry, paint spraying, cleaning and disinfection, laboratories and the like, and the protective clothing needs to cut fabrics in the processing process.

For example, application numbers are: 202121300560.0 (named as a prevent surface fabric cutting device for the processing of wrinkled protective clothing), including base, backup pad, fixed plate, cutting sword and workstation, the top fixedly connected with backup pad of base, and the top of backup pad is connected with the horizontal pole to the center department of horizontal pole is provided with first motor, the left side fixedly connected with screw rod of first motor, and be provided with the swivel nut on the screw rod, and the top of swivel nut is connected with the support column, the top fixedly connected with connecting plate of support column, and the below of connecting plate is connected with the gyro wheel, the below of backup pad is connected with the telescopic link, and the below of telescopic link is connected with the fixed plate, the below fixedly connected with movable rod of fixed plate, and the below of movable rod is connected with the clamp plate, the below center department of fixed plate is connected with the mounting panel, and the mounting panel left side is provided with the second motor, the right side of second motor is connected with the pivot, and the right side of pivot is provided with the cutting sword, the top of base is provided with the workstation, and the top of workstation is provided with the fixing base to the top of fixing base is provided with the briquetting, the inside of workstation has seted up the spout, and the inside of slider is provided with the right side spring, and the pull rod is provided with the measuring gauge rod.

The fabric cutting device can only cut out fabrics with required length in the using process, but the fabrics can be processed for multiple times to obtain the finished product of the protective clothing, so that the processing procedure is complex, and the protective clothing processing device and the processing method thereof are provided.

Disclosure of Invention

The invention aims to provide a protective clothing processing device and a processing method thereof, and aims to solve the problem that the existing fabric cutting device in the background art can only cut fabrics with required length in the using process, but the fabrics can be processed for multiple times to obtain the finished protective clothing, so that the processing procedure is complicated.

In order to achieve the purpose, the invention provides the following technical scheme: a protective clothing processing device comprises a device grounding seat and a PLC (programmable logic controller), wherein an integrated end platform is arranged at the upper end of the device grounding seat, four supporting vertical rods are arranged at the upper end of the integrated end platform, a suspension platform is arranged at the upper ends of the four supporting vertical rods, the four supporting vertical rods are all integrally formed with the integrated end platform and the suspension platform, a material receiving inner bin is arranged inside the device grounding seat, and the material receiving inner bin and the device grounding seat are integrally formed;

further comprising:

the central square seat is arranged in the internal square groove of the integrated end table, a square cavity is arranged between the central square seat and the integrated end table, a bearing square groove is formed in the upper end of the central square seat, the bearing square groove and the central square seat are integrally formed, a contour through groove is formed in the bearing square groove, and the contour through groove and the bearing square groove are integrally formed;

the first electric hydraulic cylinder is arranged at the top of the suspension stand, a first-stage stand is arranged at the output end of the first electric hydraulic cylinder, a second-stage stand is arranged at the bottom of the first-stage stand, a second electric hydraulic cylinder is arranged at the upper end of the second-stage stand, and a third-stage stand is arranged below the second-stage stand;

the profile pressing plate is arranged in the scarf groove in the three-stage stand, the profile pressing plate is connected with the bottom of the three-stage stand in an embedded mode, an edge cutter is arranged at the edge position of the bottom of the profile pressing plate, the edge cutter and the profile pressing plate are integrally formed, and the profile of the edge cutter is the same as that of the profile through groove;

the infrared receiver is arranged on the peripheral outer wall of the three-stage stand and fixedly connected with the peripheral outer wall of the three-stage stand in an embedded manner, infrared transmitters are arranged on the peripheral inner walls of the bearing square grooves, and the infrared transmitters are fixedly connected with the peripheral inner walls of the bearing square grooves in an embedded manner;

connect the material support plate, it sets up the inside in the storehouse is received to the material, is provided with pressure sensor on receiving the bottom central point in the storehouse and puts, all is provided with down the support ejector pin on pressure sensor's the position all around, and lower support ejector pin sets up with connecing material support plate integrated into one piece, and the below of lower support ejector pin is provided with cup joints the drum.

Preferably, the output ends of the first electric hydraulic cylinder, the infrared receiver and the pressure sensor are in transmission connection with the input end of the PLC, and the output end of the PLC is in transmission connection with the input end of the second electric hydraulic cylinder.

Preferably, the inside of the sleeving cylinder is provided with a buffer spring, two ends of the buffer spring are respectively and fixedly connected with the lower supporting ejector rod and the sleeving cylinder through screws, and the sleeving cylinder is connected with the lower supporting ejector rod in a sleeving manner.

Preferably, the infrared transmitter and the infrared receiver have the same size, and the transmitting end of the infrared transmitter and the receiving end of the infrared receiver are correspondingly arranged.

Preferably, the inside of tertiary pallet is provided with the direction circle way, and the direction circle way sets up with tertiary pallet integrated into one piece, and screw fixed connection is passed through with the upper end of profile clamp plate to the output that second electric hydraulic cylinder runs through the direction circle way.

Preferably, be provided with two location connecting rods between second grade pallet and the tertiary pallet, the both ends of location connecting rod respectively with second grade pallet and tertiary pallet welded connection.

Preferably, the top of one-level pallet is provided with connects the top dish, connects top dish and one-level pallet integrated into one piece setting, connects the output fixed connection that the top dish passes through screw and first electric hydraulic cylinder.

Preferably, the internally mounted who bears the square trough has sealed apron, and the sealed size of covering plate equals with the bore that bears the square trough, the upper end of sealed apron is provided with two and lifts and draws the handle, lifts and draws the handle and seal apron integrated into one piece setting.

Preferably, the inside of square cavity is provided with the suspension strut, and the both ends of suspension strut are connected with the outer wall of center square seat and the inner wall welded connection of integral type end platform respectively.

Preferably, the processing method of the processing device for the protective clothing comprises the following steps:

the method comprises the following steps: taking down the sealing cover plate, then putting the protective clothing fabric with the same size and specification as the bearing square groove into the bearing square groove, and flattening the fabric;

step two: the first electric hydraulic cylinder drives the first-stage stand, the second-stage stand and the third-stage stand to be pressed downwards, so that the third-stage stand falls into the bearing square groove, and the fabric is flattened;

step three: after the third-stage stand falls into the bearing square groove in place, infrared rays emitted by the infrared emitter are received by the infrared receiver, and after the infrared rays emitted by the infrared emitter are completely received by the infrared receiver under the condition that the infrared rays are not shielded, the PLC controller controls the second electric hydraulic cylinder to press down;

step four: the second electric hydraulic cylinder drives the contour pressing plate and the edge cutter in the three-stage stand to move downwards after being pressed downwards, so that the fabric which is placed in the bearing square groove in advance is cut out according to the contour through groove, and the cut fabric falls into the material receiving inner bin;

step five: the cut fabric falls to the upper end of the material receiving support plate, the pressure sensor is triggered to sense the lifting of weight, the pressure lifting result is transmitted to the PLC, then the PLC controls the first electric hydraulic cylinder to return and lift, and the infrared receiver triggers the second electric hydraulic cylinder to return and lift after receiving no infrared rays;

step six: the cut fabric with the contour is orderly stacked together, then the edge positions of the two fabrics are sewn to obtain a main fabric structure of the protective garment, and finally the protective garment finished product can be obtained only by simply processing and decorating the fabrics.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the second electric hydraulic cylinder is pressed downwards to drive the contour pressing plate and the edge cutter in the three-stage stand to move downwards, so that the fabric which is placed in the bearing square groove in advance is cut out according to the contour through groove, the cut fabric falls into the material receiving inner bin, two pieces of the cut fabric with the contours are stacked together in a group, then the edge positions of the two pieces of the fabric are sewn, the main fabric structure of the protective clothing is obtained, and finally, the finished protective clothing can be obtained only by simply processing and decorating the fabric, so that the problem that the finished protective clothing can be obtained only by cutting the fabric with the required length in the using process of the conventional fabric cutting device, but the finished protective clothing can be obtained only by processing the fabrics for multiple times, and the processing procedure is complicated is solved.

2. The surface fabric of cutting falls to the upper end that connects the material support plate, triggers the promotion of pressure sensor sensing weight to give the PLC controller with the result transmission that pressure promoted, the first electric hydraulic cylinder return of PLC controller control rises after that, infrared receiver can not receive the infrared ray after, triggers the return of second electric hydraulic cylinder and rises, reaches the purpose of the device return of being convenient for.

3. Under the infrared ray that infrared emitter sent was sheltered from the condition, the surface fabric that bears the weight of the square groove on the representative did not lay levelly and smoothly, and the unable push down of second electric hydraulic cylinder this moment to reach the purpose that the roughness was laid to the intellectual detection system surface fabric, improved the accuracy of protective clothing processing.

Drawings

FIG. 1 is a schematic view of the overall structure of a protective clothing processing device of the present invention;

FIG. 2 is a schematic structural diagram of a two-stage rack and a three-stage rack according to the present invention;

FIG. 3 is a schematic diagram of the internal structure of the three-stage rack of the present invention;

FIG. 4 is a schematic view of the internal structure of the integrated end table of the present invention;

FIG. 5 is a schematic view of the internal structure of the receiving inner bin of the present invention;

FIG. 6 is a schematic diagram of the PLC controller of the present invention;

in the figure: 1. a device ground base; 2. a material receiving inner bin; 3. a material receiving carrier plate; 4. an integrated end table; 5. supporting the upright stanchion; 6. a suspension table; 7. a square cavity; 8. a central square base; 9. a bearing square groove; 10. sealing the cover plate; 11. lifting and pulling the handle; 12. a first electric hydraulic cylinder; 13. a second electric hydraulic cylinder; 14. a secondary stand; 15. a third-stage stand; 16. guiding a round way; 17. a first-stage stand; 18. connecting the top disc; 19. positioning the connecting rod; 20. an infrared receiver; 21. a contour pressing plate; 22. an edge cutter; 23. an infrared emitter; 24. a contour through groove; 25. a suspension strut; 26. a pressure sensor; 27. sleeving a cylinder; 28. a mandril is supported downwards; 29. a buffer spring; 30. a PLC controller.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-6, an embodiment of the present invention is shown: a protective clothing processing device comprises a device grounding seat 1 and a PLC (programmable logic controller) 30, wherein an integrated end platform 4 is arranged at the upper end of the device grounding seat 1, four supporting vertical rods 5 are arranged at the upper end of the integrated end platform 4, a suspension platform 6 is arranged at the upper ends of the four supporting vertical rods 5, the four supporting vertical rods 5 are integrally formed with the integrated end platform 4 and the suspension platform 6, a material receiving inner bin 2 is arranged inside the device grounding seat 1, and the material receiving inner bin 2 and the device grounding seat 1 are integrally formed;

further comprising:

the central square seat 8 is arranged in an internal square groove of the integrated end table 4, a square cavity 7 is arranged between the central square seat 8 and the integrated end table 4, a bearing square groove 9 is arranged at the upper end of the central square seat 8, the bearing square groove 9 and the central square seat 8 are integrally formed, a contour through groove 24 is arranged inside the bearing square groove 9, and the contour through groove 24 and the bearing square groove 9 are integrally formed;

the suspension frame comprises a suspension frame 6, a first electric hydraulic cylinder 12, a second electric hydraulic cylinder 13 and a third electric hydraulic cylinder 15, wherein the first electric hydraulic cylinder 12 is arranged at the top of the suspension frame 6, a first stage 17 is arranged at the output end of the first electric hydraulic cylinder 12, a second stage 14 is arranged at the bottom of the first stage 17, the second electric hydraulic cylinder 13 is arranged at the upper end of the second stage 14, and a third stage 15 is arranged below the second stage 14;

the profile pressing plate 21 is arranged in the embedding groove in the three-stage stand 15, the profile pressing plate 21 is connected with the bottom of the three-stage stand 15 in an embedded mode, an edge cutter 22 is arranged at the edge position of the bottom of the profile pressing plate 21, the edge cutter 22 and the profile pressing plate 21 are integrally formed, and the profile of the edge cutter 22 is the same as that of the profile through groove 24;

the infrared receiver 20 is arranged on the peripheral outer wall of the three-stage stand 15, the infrared receiver 20 is fixedly connected with the peripheral outer wall of the three-stage stand 15 in an embedded manner, the peripheral inner walls of the bearing square groove 9 are respectively provided with an infrared emitter 23, and the infrared emitters 23 are fixedly connected with the peripheral inner walls of the bearing square groove 9 in an embedded manner;

the material receiving support plate 3 is arranged inside the material receiving inner bin 2, a pressure sensor 26 is arranged at the center of the bottom of the material receiving inner bin 2, lower supporting ejector rods 28 are arranged on the periphery of the pressure sensor 26, the lower supporting ejector rods 28 and the material receiving support plate 3 are integrally formed, and a sleeving cylinder 27 is arranged below the lower supporting ejector rods 28.

Referring to fig. 6, the output ends of the first electric hydraulic cylinder 12, the infrared receiver 20 and the pressure sensor 26 are in transmission connection with the input end of the PLC controller 30, and the output end of the PLC controller 30 is in transmission connection with the input end of the second electric hydraulic cylinder 13.

Referring to fig. 5, a buffer spring 29 is disposed inside the sleeve cylinder 27, two ends of the buffer spring 29 are respectively and fixedly connected with the lower supporting rod 28 and the sleeve cylinder 27 through screws, the sleeve cylinder 27 is connected with the lower supporting rod 28 in a sleeve manner, and the buffer spring 29 disposed inside the sleeve cylinder 27 plays a role in supporting the lower supporting rod 28.

Referring to fig. 2 and 4, the infrared emitter 23 and the infrared receiver 20 have the same size, and the emitting end of the infrared emitter 23 is disposed corresponding to the receiving end of the infrared receiver 20.

Referring to fig. 2, a guiding circular track 16 is arranged inside the third-stage stand 15, the guiding circular track 16 and the third-stage stand 15 are integrally formed, an output end of the second electric cylinder 13 penetrates through the guiding circular track 16 and is fixedly connected with the upper end of the outline pressing plate 21 through a screw, and the guiding circular track 16 arranged inside the third-stage stand 15 plays a role in facilitating the second electric cylinder 13 to penetrate through the third-stage stand 15 and be connected with the outline pressing plate 21.

Referring to fig. 2, two positioning connecting rods 19 are disposed between the second-stage stand 14 and the third-stage stand 15, two ends of each positioning connecting rod 19 are respectively connected to the second-stage stand 14 and the third-stage stand 15 in a welding manner, and the two positioning connecting rods 19 disposed between the second-stage stand 14 and the third-stage stand 15 function as the second-stage stand 14 and the third-stage stand 15.

Please refer to fig. 2, a connection top plate 18 is arranged at the top of the first-stage stand 17, the connection top plate 18 and the first-stage stand 17 are integrally formed, the connection top plate 18 is fixedly connected with the output end of the first electric hydraulic cylinder 12 through a screw, and the connection top plate 18 arranged at the top of the first-stage stand 17 plays a role in facilitating the connection of the first-stage stand 17 and the first electric hydraulic cylinder 12.

Referring to fig. 1, a sealing cover plate 10 is installed inside the square bearing groove 9, the size of the sealing cover plate 10 is equal to the caliber of the square bearing groove 9, two lifting handles 11 are arranged at the upper end of the sealing cover plate 10, the lifting handles 11 and the sealing cover plate 10 are integrally formed, and the sealing cover plate 10 installed inside the square bearing groove 9 plays a role in sealing the square bearing groove 9 when the device is not used.

Referring to fig. 4, a suspension rod 25 is disposed inside the square cavity 7, two ends of the suspension rod 25 are respectively welded to the outer wall of the central square seat 8 and the inner wall of the integrated end table 4, and the suspension rod 25 disposed inside the square cavity 7 plays a role in supporting the central square seat 8.

Referring to fig. 1-6, a method for manufacturing a device for manufacturing protective clothing includes the following steps:

the method comprises the following steps: firstly, taking down the sealing cover plate 10, then putting the protective clothing fabric with the size and the specification equal to that of the bearing square groove 9 into the bearing square groove 9, and flattening the fabric;

step two: the first electric hydraulic cylinder 12 drives the first stage table 17, the second stage table 14 and the third stage table 15 to press downwards, so that the third stage table 15 falls into the bearing square groove 9, and the fabric is flattened;

step three: after the third-stage stand 15 falls into the bearing square groove 9 and is in place, the infrared transmitter 23 sends infrared rays which are received by the infrared receiver 20, and after the infrared rays sent by the infrared transmitter 23 are completely received by the infrared receiver 20 under the condition that the infrared rays are not blocked, the PLC 30 controls the second electric hydraulic cylinder 13 to press down;

step four: after the second electric hydraulic cylinder 13 is pressed downwards, the contour pressing plate 21 and the edge cutter 22 in the third-stage stand 15 are driven to move downwards, so that the fabric which is placed in the bearing square groove 9 in advance is cut out according to the contour through groove 24, and the cut fabric falls into the material receiving inner bin 2;

step five: the cut fabric falls to the upper end of the material receiving carrier plate 3, the pressure sensor 26 is triggered to sense the lifting of the weight, the pressure lifting result is transmitted to the PLC 30, then the PLC 30 controls the first electric hydraulic cylinder 12 to return and lift, and the infrared receiver 20 triggers the second electric hydraulic cylinder 13 to return and lift after receiving no infrared rays;

step six: the cut fabric with the contour is orderly stacked together, then the edge positions of the two fabrics are sewn to obtain a main fabric structure of the protective garment, and finally the protective garment finished product can be obtained only by simply processing and decorating the fabrics.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. A protective clothing processing device comprises a device grounding seat (1) and a PLC (programmable logic controller) (30), wherein an integrated end platform (4) is arranged at the upper end of the device grounding seat (1), four supporting vertical rods (5) are arranged at the upper end of the integrated end platform (4), a suspension platform (6) is arranged at the upper ends of the four supporting vertical rods (5), the four supporting vertical rods (5) are integrally formed with the integrated end platform (4) and the suspension platform (6), a material receiving inner bin (2) is arranged inside the device grounding seat (1), and the material receiving inner bin (2) and the device grounding seat (1) are integrally formed;

the method is characterized in that: further comprising:

the central square seat (8) is arranged in an internal square groove of the integrated end platform (4), a square cavity (7) is arranged between the central square seat (8) and the integrated end platform (4), a bearing square groove (9) is arranged at the upper end of the central square seat (8), the bearing square groove (9) and the central square seat (8) are integrally formed, a contour through groove (24) is arranged inside the bearing square groove (9), and the contour through groove (24) and the bearing square groove (9) are integrally formed;

the suspension frame comprises a suspension frame (6), a first electric hydraulic cylinder (12) which is arranged at the top of the suspension frame (6), wherein a first-stage frame (17) is arranged at the output end of the first electric hydraulic cylinder (12), a second-stage frame (14) is arranged at the bottom of the first-stage frame (17), a second electric hydraulic cylinder (13) is arranged at the upper end of the second-stage frame (14), and a third-stage frame (15) is arranged below the second-stage frame (14);

the profile pressing plate (21) is arranged in the embedding groove in the three-stage stand (15), the profile pressing plate (21) is connected with the bottom of the three-stage stand (15) in an embedded mode, an edge cutter (22) is arranged at the edge position of the bottom of the profile pressing plate (21), the edge cutter (22) and the profile pressing plate (21) are integrally formed, and the profile of the edge cutter (22) is the same as that of the profile through groove (24);

the infrared receivers (20) are arranged on the peripheral outer walls of the three-stage stand (15), the infrared receivers (20) are fixedly connected with the peripheral outer walls of the three-stage stand (15) in an embedded mode, infrared emitters (23) are arranged on the peripheral inner walls of the bearing square grooves (9), and the infrared emitters (23) are fixedly connected with the peripheral inner walls of the bearing square grooves (9) in an embedded mode;

connect material support plate (3), it sets up the inside of storehouse (2) in receiving the material is provided with pressure sensor (26) on the bottom central point of storehouse (2) in receiving the material, all is provided with down on the position all around of pressure sensor (26) and holds in the palm ejector pin (28), holds in the palm ejector pin (28) down and connect material support plate (3) integrated into one piece to set up, and the below of holding in the palm ejector pin (28) down is provided with cup joints drum (27).

2. The protective garment processing device as claimed in claim 1, wherein: the output ends of the first electric hydraulic cylinder (12), the infrared receiver (20) and the pressure sensor (26) are in transmission connection with the input end of the PLC (30), and the output end of the PLC (30) is in transmission connection with the input end of the second electric hydraulic cylinder (13).

3. A protective garment processing apparatus as claimed in claim 2, wherein: the inside of the sleeving cylinder (27) is provided with a buffer spring (29), two ends of the buffer spring (29) are respectively fixedly connected with the lower supporting ejector rod (28) and the sleeving cylinder (27) through screws, and the sleeving cylinder (27) is connected with the lower supporting ejector rod (28) in a sleeving manner.

4. A protective garment processing apparatus as claimed in claim 3, wherein: the sizes of the infrared emitter (23) and the infrared receiver (20) are equal, and the emitting end of the infrared emitter (23) is arranged corresponding to the receiving end of the infrared receiver (20).

5. The protective garment processing device according to claim 4, wherein: the inside of tertiary rack (15) is provided with direction circle (16), and direction circle (16) and tertiary rack (15) integrated into one piece set up, and the output of second electric hydraulic cylinder (13) runs through direction circle (16) and passes through screw fixed connection with the upper end of profile clamp plate (21).

6. A protective garment processing device as claimed in claim 5, wherein: be provided with two location connecting rod (19) between second grade stand (14) and tertiary stand (15), the both ends of location connecting rod (19) respectively with second grade stand (14) and tertiary stand (15) welded connection.

7. The protective garment processing device as claimed in claim 6, wherein: the top of one-level pallet (17) is provided with connects top dish (18), connects top dish (18) and one-level pallet (17) integrated into one piece setting, connects the output fixed connection that top dish (18) pass through screw and first electric hydraulic cylinder (12).

8. The protective garment processing device as claimed in claim 7, wherein: the bearing square groove structure is characterized in that a sealing cover plate (10) is arranged inside the bearing square groove (9), the size of the sealing cover plate (10) is equal to the caliber of the bearing square groove (9), two lifting handles (11) are arranged at the upper end of the sealing cover plate (10), and the lifting handles (11) and the sealing cover plate (10) are integrally formed.

9. The protective garment processing device as claimed in claim 8, wherein: the square cavity (7) is internally provided with a suspension support rod (25), and two ends of the suspension support rod (25) are respectively connected with the outer wall of the central square seat (8) and the inner wall of the integrated end platform (4) in a welding mode.

10. The method for manufacturing a protective suit manufacturing device according to claim 9, characterized by comprising the following steps:

the method comprises the following steps: firstly, taking down the sealing cover plate (10), then putting the protective clothing fabric with the same size and specification as the bearing square groove (9) into the bearing square groove (9), and flattening the fabric;

step two: the first electric hydraulic cylinder (12) drives the first stage stand (17), the second stage stand (14) and the third stage stand (15) to be pressed downwards, so that the third stage stand (15) falls into the bearing square groove (9), and the fabric is flattened;

step three: after the three-stage stand (15) falls into the bearing square groove (9) to be in place, the infrared transmitter (23) sends infrared rays which are received by the infrared receiver (20), and after the infrared rays sent by the infrared transmitter (23) are completely received by the infrared receiver (20) under the condition that the infrared rays are not blocked, the PLC (programmable logic controller) controller (30) controls the second electric hydraulic cylinder (13) to be pressed downwards;

step four: the second electric hydraulic cylinder (13) is pressed downwards to drive the contour pressing plate (21) and the edge cutter (22) in the three-stage stand (15) to move downwards, so that fabrics placed in the bearing square groove (9) in advance are cut out according to the contour through groove (24), and the cut fabrics fall into the material receiving inner bin (2);

step five: the cut fabric falls to the upper end of the material receiving carrier plate (3), the pressure sensor (26) is triggered to sense the lifting of weight, the pressure lifting result is transmitted to the PLC (30), then the PLC (30) controls the first electric hydraulic cylinder (12) to return and lift, and the infrared receiver (20) triggers the second electric hydraulic cylinder (13) to return and lift after receiving no infrared rays;

step six: the cut fabric with the contour is orderly stacked together, then the edge positions of the two fabrics are sewn to obtain a main fabric structure of the protective garment, and finally the protective garment finished product can be obtained only by simply processing and decorating the fabrics.

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