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CN-121970942-A - High-voltage electrostatic flame-retardant garment and processing technology thereof

CN121970942ACN 121970942 ACN121970942 ACN 121970942ACN-121970942-A

Abstract

The invention discloses a high-voltage electrostatic flame-retardant garment and a processing technology thereof. The flame-retardant garment comprises a garment body, wherein a reinforcing layer is arranged on the front surface of the garment body, a transparent base is fixed on the reinforcing layer, a transparent mounting seat is detachably arranged on the transparent base, a placing cavity is arranged in the mounting seat, the opening end of the mounting seat is hidden and shielded after assembly, and waterproof, damage-proof and convenient replacement of a message board are realized. The structure has no exposed metal parts, avoids tip discharge in high-pressure environment, and the reinforcing layer is independent of the clothing body to prevent damage to the antistatic and flame-retardant coating. The manufacturing process comprises high-precision punching, standardized cutting, edge bending reinforcement and triple sealing assembly (screw, sealing gasket and waterproof glue), so that the components are firm and sealed, and the main fabric is not damaged. The transparent part adopts flame-retardant engineering plastics, and the whole transparent part meets the requirements of safety, reliability and attractive appearance under high-pressure and inflammable operation environments.

Inventors

  • ZHENG TING
  • XU CHUNYAN
  • SONG JIANHUA

Assignees

  • 浙江蓝天鹤舞控股有限公司

Dates

Publication Date
20260505
Application Date
20251229

Claims (10)

  1. 1. A high-voltage electrostatic flame-retardant garment comprises a garment body; The method is characterized in that: The front surface of the clothing body is provided with a reinforcing layer, and the reinforcing layer is sewn and fixed with the clothing body; The transparent base is fixedly connected with the reinforcing layer, a transparent mounting seat is detachably arranged on the transparent base, a placing cavity is arranged in the transparent mounting seat, one end of the placing cavity is an open end, and the open end is arranged on the outer side wall of the transparent mounting seat; when the transparent mounting base is mounted on the transparent base, the open end is hidden and shielded.
  2. 2. The high-voltage static flame-retardant garment of claim 1, wherein the transparent base is provided with mounting holes, the reinforcing layer is provided with connecting holes, the connecting holes are in one-to-one correspondence with the mounting holes, and the screws penetrate through the mounting holes and the connecting holes to be connected with the sealing gasket and the nuts.
  3. 3. The high-voltage electrostatic flame-retardant garment of claim 2, wherein an installation cavity is formed in the transparent base, the transparent installation seat is embedded in the installation cavity, positioning grooves are circumferentially distributed on the side wall of the installation cavity, each positioning groove comprises a sliding cavity and a clamping groove which are communicated, positioning blocks are circumferentially distributed on the side wall of the transparent installation seat, one side of each positioning block is provided with a limit baffle, and each positioning block is matched with each sliding cavity and each clamping groove; The positioning block is clamped in from the sliding-in cavity, the transparent mounting seat is rotated circumferentially, the positioning block is clamped in the clamping cavity from the sliding-in cavity until the limit baffle is abutted to the intersection end face of the sliding-in cavity and the clamping groove, and the transparent mounting seat is mounted in place.
  4. 4. The high-voltage static flame-retardant garment of claim 2, wherein grooves are circumferentially distributed on the edge of the top surface of the transparent mounting seat, the grooves are in one-to-one correspondence with the positioning blocks, the end surfaces of the grooves are flush with the top surfaces of the positioning blocks, convex handles are formed on the edges of the grooves in an upward protruding mode, and the convex handles are fixedly connected with the positioning blocks.
  5. 5. The processing technology for the high-voltage electrostatic flame-retardant garment according to any one of claims 1-4, which is characterized by comprising the following steps: Cutting to obtain various types of garment pieces according to design requirements, sewing the various garment pieces to obtain a garment primary finished product, and carrying out injection molding to obtain a transparent mounting seat and a transparent base according to the design requirements; cutting out a primary reinforcing layer sheet according to design requirements, punching the primary reinforcing layer sheet on a punching device, wherein the punching device comprises a mounting bracket, a processing table and punching components, the processing tables are symmetrically arranged on two sides of the mounting bracket, a clamping device is arranged on the processing table, a guide hopper is arranged below the mounting bracket, an outlet slot hole is arranged on the mounting bracket, each processing table is provided with a punching component, a base plate is arranged on the processing table, the primary reinforcing layer sheet is flatly paved on the base plate, the clamping device is adjusted, and the primary reinforcing layer sheet is clamped and fixed on the base plate; Step three, installing sample plate blocks, namely pressing and fastening the sample plate blocks on the primary plate of the reinforcing layer, wherein sample plate holes are formed in the sample plate blocks, guide taper holes are formed in the top surface of each sample plate hole, through holes are formed in the base plate, and the through holes are communicated with the sample plate holes in a one-to-one correspondence manner; The fourth step, the stamping assembly comprises a linear module, a lifting frame and stamping heads, wherein the linear module is fixedly connected with the mounting bracket, the lifting frame is fixed with slide block screws of the linear module, the lifting frame is provided with stamping heads which are in one-to-one correspondence with sample plate holes, the linear module is started, the lifting frame is driven by the slide blocks to integrally descend, the lifting frame drives the stamping heads to descend, the stamping heads extend into the guide taper holes and then enter the corresponding positioning holes, and gradually move downwards to penetrate through the reinforcing layer primary sheet to punch holes on the reinforcing layer primary sheet to form connecting holes until the end heads of the stamping heads penetrate out of the reinforcing layer primary sheet and extend into the through holes for 1.5-5 mm; The linear module is started to drive the lifting frame and the stamping head to move upwards for resetting, the second scribing plate is clamped to the outer side of the template block, mark lines are formed on the reinforcing lamellar sheet along the outer edge of the second scribing plate, the second scribing plate is taken down to clamp the first scribing plate to the outer side of the template block, the reinforcing lamellar sheet is cut out along one edge of the scribing plate, the first scribing plate and the template block are taken down, the reinforcing lamellar sheet is taken out and put into the reinforcing lamellar sheet from an outlet slot hole of the mounting bracket, and the reinforcing lamellar sheet falls into the collecting box for collection through the outlet slot hole and the guide hopper; Step six, bending the edges of the collected reinforced ply to the back of the reinforced ply along the mark line II so that the edges of the reinforced ply form reinforced edges and the reinforced edges are fixed by lockstitch lines; Step seven, the mounting holes on the transparent base are in one-to-one correspondence with the connecting holes on the reinforcing layer sheet, the end parts of the screws sequentially penetrate through the mounting holes and the connecting holes to extend to the back surface of the reinforcing layer sheet to be connected with the sealing gasket and the nuts, and waterproof sealing glue is coated on the heads of the screws and the peripheries of the nuts; Eighth, sewing the reinforcing layer sheet to the left chest position of the clothing primary product according to the design requirement, positioning the stitching line at the reinforcing edge, and screwing the transparent mounting seat onto the transparent base.
  6. 6. The process for manufacturing the high-voltage electrostatic flame-retardant garment according to claim 5, wherein in the second step, the clamping step of the clamping device is as follows: (1) The clamping device comprises a clamping seat, a clamping pressing plate and an adjusting screw rod, wherein a sliding clamping groove is formed in the clamping seat, the clamping seat is in sliding clamping connection with the mounting bracket through the sliding clamping groove, the clamping seat is in tight supporting fixation with the mounting bracket through a supporting screw, the adjusting screw rod is threaded through the clamping seat, the bottom end of the adjusting screw rod is connected with the clamping pressing plate through a bearing, a limiting block is arranged on the clamping pressing plate, a limiting chute is formed in the clamping seat, the limiting block is in sliding clamping connection with the limiting chute, and an operating handle is arranged at the top end of the adjusting screw rod; (2) Two groups of clamping devices are arranged on each processing table, the loosening and supporting screws are screwed, the two groups of clamping devices slide along the mounting bracket, the two groups of clamping devices are respectively moved to the two ends of the primary sheet of the reinforcing layer, the adjusting screw is rotated through the operating handle, the adjusting screw drives the clamping pressing plate to move downwards until the clamping pressing plate is tightly limited on the end face of the primary sheet of the reinforcing layer, and the clamping pressing plate is always guided and limited by the limiting chute in the moving process; (3) Be provided with the forked tail spout on the slip draw-in groove, the bottom surface of processing platform is provided with the forked tail slider, the forked tail slider with forked tail spout assorted, the clamping seat passes through forked tail spout slip joint is in on the forked tail slider, in the clamping device adjustment process, the clamping seat receives the direction spacing of forked tail slider all the time.
  7. 7. The process for manufacturing a high-voltage electrostatic flame-retardant garment according to claim 5, wherein in the second step, the mounting step of the backing plate and the processing table is as follows: (1) Positioning holes are formed in the four corners of the backing plate, positioning columns are arranged on the processing table and are matched with the positioning holes in a one-to-one correspondence manner, the positioning columns are inserted into the corresponding positioning holes in a penetrating mode, and fastening nuts are screwed in and screwed up at the penetrating end portions of the positioning columns; (2) Meanwhile, a boss is arranged on the bottom surface of the backing plate, an avoidance groove is formed in the machining table, the boss is in limiting clamping connection with the avoidance groove, a cavity is formed in the boss, and the through hole is communicated with the cavity.
  8. 8. The process for manufacturing the high-voltage static flame-retardant garment according to claim 5, wherein in the fourth step, the lifting frame comprises a first frame body and a positioning plate, the first frame body is connected with the linear module, the positioning plate is fixed with the first frame body, a driving motor is fixedly arranged on the first frame body, a driving gear is connected to a motor shaft end of the driving motor, the bottom end of the driving gear is rotationally connected with the positioning plate through a bearing, the driving gear is meshed with a plurality of driven gears along the circumferential direction of the driving gear, the driven gears are fixed on the mounting sleeve, the top end of the mounting sleeve is rotationally connected with the frame body through the bearing, the positioning plate penetrates through and is fixedly provided with a guide sleeve, the guide sleeve is matched with the mounting sleeve, the bottom end of the mounting sleeve penetrates through the guide sleeve and extends to the lower portion of the positioning plate to be connected with the punching head, the punching head is inserted into the mounting sleeve and is fixed through the bolt assembly, and when the linear module drives the lifting frame to move downwards, the driving motor drives the driving gear to rotate, and the driving gear drives the driven gear to synchronously rotate, and the driven gear drives the corresponding mounting sleeve to rotate, and the mounting sleeve to synchronously rotate, and the punching head fixed with the punching head.
  9. 9. The process for manufacturing the high-voltage electrostatic flame-retardant garment according to claim 5, wherein in the third step, the sample plate block mounting step is as follows: (1) The base plate is provided with a positioning boss, the positioning boss is provided with an anti-rotation groove, a threaded hole is formed in the anti-rotation groove, the sample plate is provided with a positioning empty groove, the positioning empty groove is matched with the positioning boss, the positioning empty groove is internally provided with an anti-rotation block, the anti-rotation block is matched with the anti-rotation groove, and the anti-rotation block is provided with a perforation; (2) Placing the sample plate block on the base plate, clamping the positioning convex table into the positioning empty groove, and clamping the anti-rotation block into the anti-rotation groove; (3) And then installing the abutting piece, wherein a screw rod is arranged below the abutting piece, penetrates through the through hole and is screwed into the threaded hole until a pressing block on the abutting piece is abutted and pressed on the positioning boss and the sample plate.
  10. 10. The high voltage electrostatic fire-retardant garment of claim 9, wherein in the sixth step, the sample block is removed by rotating the detachable abutting piece, completely removing the screw from the threaded hole and the through hole, and then removing the sample block from the backing plate.

Description

High-voltage electrostatic flame-retardant garment and processing technology thereof Technical Field The invention belongs to the technical field of protective equipment, and particularly relates to high-voltage electrostatic flame-retardant clothing and a processing technology thereof. Background In the prior art, protective clothing worn by high-voltage operators or dangerous chemical operators is generally required to meet multiple safety requirements of flame retardance, static electricity resistance, liquid permeation resistance and the like. However, such protective apparel has significant drawbacks in terms of additional functionality such as identification, information presentation, etc. The traditional method adopts the mode of directly sewing a cloth nameplate or using pins, magic tapes and the like to temporarily fix the paper information card, is not only easy to be corroded by rainwater or chemical liquid to cause information blurring or falling, but also damages the functional coating of the clothing body during frequent replacement to destroy the waterproof and flame-retardant integrity of the clothing body. In addition, the existing structure lacks effective protection and hidden design to information cards, and exposed metal pieces may cause discharge risks, and the appearance is untidy, and the safety and the practicability are poor. Disclosure of Invention The application aims to solve the technical problems in the prior art, provides the high-voltage static flame-retardant garment and the processing technology thereof, wherein the front surface of the protective garment is provided with the reinforcing layer, the transparent base is fixedly arranged, and the detachable transparent mounting seat is matched, so that the safety mark or the information card is arranged in the internal placing cavity, the durable damage prevention and convenient replacement of the information carrier under outdoor rain or high-risk environment are realized, the information carrier is protected from liquid erosion and physical abrasion, the damage to the functional coating of the protective garment body caused by frequent disassembly and assembly is avoided, the processing technology of the application realizes the integrated operation of high-precision punching, standardized cutting, edge reinforcement and waterproof assembly of the reinforcing layer sheet on the protective garment, realizes the efficient, accurate and modularized production of the reinforcing layer and the transparent base assembly, and remarkably improves the safety reliability and the integral aesthetic property of the product under high-voltage and inflammable environment while ensuring the precision of connecting hole positions, assembly tightness and sewing firmness. In order to solve the technical problems, the invention adopts the following technical scheme: The utility model provides a fire-retardant clothes of high-voltage static, includes the clothing body, and the front of clothing body is provided with the enhancement layer, and the enhancement layer is fixed with the clothing body sewing, is provided with transparent base on the enhancement layer, transparent base and enhancement layer fixed connection, but demountable installation has transparent mount pad on the transparent base, is provided with in the transparent mount pad and places the chamber, and the one end of placing the chamber is open end, and the open end is located on the lateral wall of transparent mount pad, and when transparent mount pad was installed on the transparent base, the open end was hidden and sheltered from. Further, be provided with the mounting hole on the transparent base, be provided with the connecting hole on the reinforcement layer, connecting hole and mounting hole one-to-one, the screw passes the mounting hole, connecting hole and sealing washer, the nut is connected, the screw, nut cooperation sealing washer realizes the mechanical fastening of transparent base and reinforcement layer, high strength, high reliability connection between the two has been realized, owing to connect and act on independent reinforcement layer and not directly act on the clothing body, avoided the destruction to the functional coating, both ensured overall structure's fastness, maintained the original waterproof integrality of clothes again. Further, be provided with the installation cavity in the transparent base, transparent mount pad embedding has the constant head tank in the installation cavity, circumference distribution has the locating slot on the lateral wall of installation cavity, the locating slot is including the smooth chamber and the card income groove that the intercommunication set up, circumference distribution has the locating piece on the lateral wall of transparent mount pad, one side of locating piece is provided with limit baffle, locating piece and smooth chamber, card income groove assorted, the locating piece is gone into from smooth cham