Firefighter garment production device and method for facilitating quick donning

By designing a production device for fire suits that is easy to wear quickly, the automatic buckle connection between fire gloves and jackets was realized, solving the problem of inconvenience in the integrated production of buckles between gloves and jackets in fire suit production, and improving the efficiency of firefighters in wearing them.

CN116158586BActive Publication Date: 2026-06-19JIUJIANG HAOCHUAN FIRE FIGHTING EQUIP CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
JIUJIANG HAOCHUAN FIRE FIGHTING EQUIP CO LTD
Filing Date
2023-03-02
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

In the current production process of fire suits, the integrated production of buckles between fire gloves and jackets is inconvenient and affects firefighters' ability to quickly put them on.

Method used

A fire suit production device for quick and easy donning was designed, including a jacket positioning device, a glove feeding device, a metal buckle installation device, and multiple fastener feeding devices. These devices enable automated buckle connection between fire gloves and jackets.

Benefits of technology

The production of firefighting gloves and jackets with integrated buckles has been achieved, reducing the time required to wear firefighting suits and ensuring proper separation between the suits and gloves.

✦ Generated by Eureka AI based on patent content.

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Abstract

This invention discloses a production device and method for fire-fighting suits that facilitate rapid donning. The device includes a base plate and a top plate connected to the base plate by multiple support columns. The base plate has a garment positioning device. Two glove feeding devices are symmetrically arranged on the bottom of the top plate and on both sides of the garment positioning device. Two metal buckle mounting devices are symmetrically arranged on the top plate and on both sides of the garment positioning device. Multiple first fastener feeding devices and multiple second fastener feeding devices are symmetrically arranged on the top plate and on both sides of the metal buckle mounting devices. The first and second fastener feeding devices are used to feed metal buckle components to the metal buckle mounting devices. This invention provides a production device and method for the integrated production of fire-fighting gloves and garment clips.
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Description

Technical Field

[0001] This invention relates to the technical field of fire suit production, specifically to a fire suit production device and method that facilitates quick donning of fire suits. Background Technology

[0002] Fire suits are one of the most important pieces of equipment for protecting the personal safety of firefighters on the front lines of firefighting. They are not only an indispensable item at fire rescue sites, but also fire-resistant equipment to protect firefighters from injury. In firefighting, every second counts, and the speed at which firefighters put on their fire suits has a certain impact on the speed at which they can respond to and rescue fires.

[0003] According to the patent document with application number CN202210877762.4, an environmentally friendly multi-functional fire-resistant heat-insulating suit and its manufacturing process are disclosed. The product involves laying out multiple layers of fabric, including aluminum foil, flame-retardant fiber fabric, and inner lining fabric, using a fabric-laying device. These multiple layers of fabric are then cut into samples corresponding to various limb parts using a cutting machine, and these samples are sewn together to form the corresponding limb parts. The corresponding parts of the various fabrics are then sewn together to obtain the various parts of the fire-resistant heat-insulating suit. Protective pads are provided at the shoulders, knees, and elbows of the fire-resistant heat-insulating suit. Elastic bands are provided at corresponding positions on the cuffs and trousers. A fireproof zipper is installed on the outer jacket of the fire-resistant heat-insulating suit. Two installation straps are provided on the shoulders of the outer jacket, and safety hanging plates are installed on the installation straps. The various performance characteristics of the fire-resistant heat-insulating suit are sampled and tested, and after passing the tests, it is packaged.

[0004] The products in the aforementioned patents have good sealing properties and can be sampled and tested for various performance characteristics of fire-fighting thermal insulation clothing during the production process. After passing the tests, they can be packaged. However, they are not convenient for the production of integrated fasteners and jackets between fire gloves and clothing. Summary of the Invention

[0005] This invention mainly provides a production device and method for fire suits that are easy to wear quickly, in order to solve the technical problems mentioned in the background art.

[0006] The technical solution adopted by the present invention to solve the above-mentioned technical problems is as follows:

[0007] A fire suit production device for easy and quick donning includes a base plate and a top plate connected to the top of the base plate by multiple support columns. The base plate is provided with an upper garment positioning device. Two glove feeding devices are symmetrically arranged at the bottom of the top plate on both sides of the upper garment positioning device. Two metal buckle mounting devices are symmetrically arranged on the top plate on both sides of the upper garment positioning device. Multiple first fastener feeding devices and multiple second fastener feeding devices are symmetrically arranged on the top plate on both sides of the metal buckle mounting devices. The first fastener feeding devices and the second fastener feeding devices are all used to feed metal buckle components to the metal buckle mounting devices.

[0008] The garment positioning device includes an L-shaped support plate symmetrically arranged on the base plate, a positioning tube with one end connected to the outer wall of the L-shaped support plate, a telescopic tube disposed inside the positioning tube, a drive cylinder disposed on the L-shaped support plate for driving the telescopic tube to move, a plurality of fastener positioning holes passing through the outer wall of the telescopic tube and arranged in a ring array, and a fastener support component disposed inside the telescopic tube.

[0009] The metal buckle mounting device includes two first linear modules symmetrically arranged on the base plate, a movable plate connected to the execution ends of the two first linear modules at both ends, a drive motor located at the bottom of the movable plate and extending to the top of the movable plate, a telescopic cylinder horizontally located at the execution end of the drive motor, a base tube located at the execution end of the telescopic cylinder, a plurality of sliding magnetic blocks passing through the outer wall of the base tube and arranged in a circular array, a retraction drive component located inside the base tube for driving the plurality of sliding magnetic blocks to expand or retract simultaneously, an L-shaped extension plate located at the top of the sliding magnetic blocks, and two fastener pneumatic clamping components symmetrically located at the top and bottom of the L-shaped extension plate.

[0010] Preferably, the glove feeding device includes two second linear modules symmetrically arranged at the bottom of the top plate, a horizontal plate connected to the execution ends of the two second linear modules at both ends, a drive motor located at the top of the horizontal plate with its execution end extending to the lower part of the horizontal plate, a first power cylinder vertically arranged at the execution end of the drive motor, a second power cylinder horizontally arranged at the execution end of the first power cylinder, a C-shaped frame located at the execution end of the second power cylinder, a positioning ring located at the end of the C-shaped frame, and a plurality of finger cylinders arranged in a circular array on the inner wall of the positioning ring. In this preferred embodiment, the glove feeding device facilitates the positioning of the glove to the outside of the cuff.

[0011] Preferably, the first fastener feeding device includes a vertical plate disposed on the base plate, inclined plates symmetrically disposed on both sides of the vertical plate, a first fastener slide rail disposed at the ends of the vertical plate and the inclined plates, a first conveyor belt disposed within the first fastener slide rail, a first feeding ring disposed at the end of the first fastener slide rail and communicating with the first fastener slide rail, a first n-shaped frame disposed at the top of the first feeding ring, a first miniature cylinder disposed at the top of the first n-shaped frame and whose actuating end extends to the lower part of the first n-shaped frame, and a first rubber disc disposed at the actuating end of the first miniature cylinder. In this preferred embodiment, the first fastener feeding device facilitates the feeding of fasteners to the outside of the actuating end of the metal fastener mounting device, thereby facilitating the outward expansion installation of the metal fasteners.

[0012] Preferably, the second fastener feeding device includes an annular frame disposed on the base plate, a plurality of second fastener slide rails arranged in an annular array within the annular frame, a second conveyor belt disposed within the second fastener slide rails, a second feeding ring disposed at the end of the second fastener slide rails and communicating with the second fastener slide rails, a second n-shaped frame disposed at the bottom of the second feeding ring, a second micro cylinder disposed at the bottom of the second n-shaped frame and extending to the upper part of the second n-shaped frame, and a second rubber disc disposed at the actuating end of the second micro cylinder. In this preferred embodiment, the second fastener feeding device facilitates the feeding of fasteners into the interior of the actuating end of the metal fastener mounting device, thereby facilitating the inward retraction installation of the metal fasteners.

[0013] Preferably, the fastener support component includes a pneumatic cylinder disposed within the telescopic tube, and a frustum-shaped support block disposed at the actuating end of the pneumatic cylinder. In this preferred embodiment, the fastener support component facilitates the support of fasteners installed inside the sleeve.

[0014] Preferably, the fastener positioning hole includes a circular through hole passing through the outer wall of the telescopic tube, and a square through hole embedded in the end of the telescopic tube and communicating with the circular through hole. In this preferred embodiment, the fastener positioning hole facilitates the positioning of the fastener.

[0015] Preferably, the retraction / expansion driving component includes an electric cylinder disposed on the outer wall of the base tube and with its actuating end extending into the base tube; a conical block disposed on the actuating end of the electric cylinder and with its outer wall contacting the sliding magnetic block; a movable ring sleeved on the outer wall of the base tube; and a connecting frame with one end connected to the conical block and the other end connected to the movable ring. In this preferred embodiment, the retraction / expansion driving component facilitates the simultaneous expansion or contraction of multiple sliding magnetic blocks.

[0016] Preferably, the fastener pneumatic clamping component includes a positioning plate disposed on the top of the L-shaped extension plate, an annular airbag disposed within the positioning plate, and an air source pipe disposed on the outer wall of the positioning plate with one end connected to the annular airbag. In this preferred embodiment, the fastener pneumatic clamping component facilitates the clamping of the fastener.

[0017] Preferably, the top of the base plate is symmetrically provided with two sleeve clamping devices with telescopic tubes as axes. Each sleeve clamping device includes a third linear guide rail on the base plate, a pneumatic cylinder at the actuating end of the third linear guide rail, and a C-shaped positioning clamp at the actuating end of the pneumatic cylinder. In this preferred embodiment, the sleeve clamping device facilitates the clamping and fixing of the sleeve.

[0018] Based on the above technical solution for a fire suit production device that facilitates quick donning, a method for producing such a device will also be provided, comprising the following steps:

[0019] Step 1: Positioning the upper garment. Place the fire suit upper garment over the L-shaped bracket plate in the upper garment positioning device. The positioning tube extends into the sleeve. The drive cylinder moves the telescopic tube according to the sleeve length to complete the positioning of the upper garment.

[0020] Step 2: Installation of the metal buckle positioning pin on the sleeve. The metal buckle installation device takes the metal buckle positioning pin from the first fastener feeding device and installs it from inside the sleeve. The tip of the metal buckle positioning pin pierces the sleeve and extends to the outside of the sleeve. After installation, the metal buckle installation device is reset, and the fastener support component supports the metal buckle positioning pin to complete the installation of the metal buckle positioning pin.

[0021] Step 3: Installation of the metal buckle on the sleeve. The metal buckle installation device takes the metal buckle from the second fastener feeding device and snaps the metal buckle into the tip of the metal buckle positioning pin to complete the installation of the metal buckle.

[0022] Step 4: Installation of the metal buckle on the glove. The metal buckle installation device takes the metal buckle from the second fastener feeding device and engages the metal buckle with the metal recess to complete the installation of the metal buckle.

[0023] Step 5: Glove positioning. The glove feeding device clamps the glove inlet and places the glove inlet outside the sleeve, thus completing the glove positioning.

[0024] Step six: Installation of the glove metal buckle positioning pin. The metal buckle installation device takes the metal buckle positioning pin from the second fastener feeding device and pierces the glove with the tip of the metal buckle positioning pin to engage the metal buckle, thus completing the processing.

[0025] Compared with the prior art, the beneficial effects of the present invention are as follows:

[0026] The device in this invention facilitates the integrated production of fire gloves and upper garment compartment clips;

[0027] The upper garment positioning device facilitates the positioning of the fire-fighting upper garment, and the glove feeding device facilitates the positioning of the gloves to the outside of the cuff. Both the first and second fastener feeding devices can feed fasteners to the metal buckle installation device. The metal buckle installation device can install fasteners on the sleeves and gloves, and complete the snap connection between the sleeves and gloves during the fastener installation process.

[0028] The fastener positioning hole facilitates the positioning of the fastener; the first fastener feeding device facilitates feeding the fastener to the outside of the metal fastener mounting device's execution end for outward expansion installation; the second fastener feeding device facilitates feeding the fastener to the inside of the metal fastener mounting device's execution end for inward retraction installation; and the fastener support component facilitates support for the fastener installed inside the sleeve.

[0029] In the metal buckle installation device, the retraction and expansion drive component facilitates the simultaneous expansion or contraction of multiple sliding magnetic blocks, and the fastener pneumatic clamping component facilitates the clamping of the fastener.

[0030] The sleeve clamping device makes it easy to clamp and fix the sleeve, thereby increasing the stability of the sleeve.

[0031] The present invention will be explained in detail below with reference to the accompanying drawings and specific embodiments. Attached Figure Description

[0032] Figure 1 This is an isometric view of the overall structure of the present invention;

[0033] Figure 2 This is an exploded view of the overall structure of the present invention;

[0034] Figure 3 This is an exploded view of the metal buckle mounting device of the present invention;

[0035] Figure 4 This is an exploded view of the first fastener feeding device and the second fastener feeding device of the present invention;

[0036] Figure 5 This is a top view of the overall structure of the present invention;

[0037] Figure 6 This is a cross-sectional view of the overall structure of the present invention;

[0038] Figure 7 This is an enlarged view of the structure at point A of the present invention;

[0039] Figure 8 This is an enlarged view of the structure at point B of the present invention.

[0040] Figure Descriptions: 10. Base plate; 11. Top plate; 20. Top positioning device; 21. L-shaped bracket plate; 22. Positioning tube; 23. Telescopic tube; 24. Drive cylinder; 25. Fastener positioning hole; 251. Circular through hole; 252. Square through hole; 26. Fastener support component; 261. Pneumatic cylinder; 262. Frustum support block; 30. Metal buckle mounting device; 31. First linear module; 32. Moving plate; 33. Drive motor; 34. Telescopic cylinder; 35. Base tube; 36. Sliding magnetic block; 37. Retraction and release drive component; 371. Electric cylinder; 372. Conical block; 373. Moving ring; 374. Connecting frame; 38. L-shaped extension plate; 39. Fastener pneumatic clamping component; 391. Positioning plate; 392. Annular airbag; 393. Air source pipe; 40. 41. Fastener feeding device; 42. Vertical plate; 43. Inclined plate; 44. First fastener slide rail; 45. First conveyor belt; 46. First n-shaped frame; 47. First micro cylinder; 48. First rubber disc; 50. Second fastener feeding device; 51. Ring frame; 52. Second fastener slide rail; 53. Second conveyor belt; 54. Second feeding ring; 55. Second n-shaped frame; 56. Second micro cylinder; 57. Second rubber disc; 60. Glove feeding device; 61. Second linear module; 62. Horizontal plate; 63. Drive motor; 64. First power cylinder; 65. Second power cylinder; 66. C-shaped frame; 67. Positioning ring; 68. Finger cylinder; 70. Sleeve clamping device; 71. Third linear guide rail; 72. Pneumatic cylinder; 73. C-shaped positioning clamp. Detailed Implementation

[0041] To facilitate understanding of the present invention, a more comprehensive description of the present invention will be given below with reference to the accompanying drawings, which illustrate several embodiments of the present invention. However, the present invention can be implemented in different forms and is not limited to the embodiments described in the text. Rather, these embodiments are provided to make the disclosure of the present invention more thorough and complete.

[0042] It should be noted that when an element is referred to as being "fixed to" another element, it can be directly on the other element or there may be an intervening element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or there may be an intervening element. The terms "vertical," "horizontal," "left," "right," and similar expressions used in this document are for illustrative purposes only.

[0043] Unless otherwise defined, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention pertains. The terminology used herein in the specification of this invention is for the purpose of describing particular embodiments only and is not intended to limit the invention. The term "and / or" as used herein includes any and all combinations of one or more of the associated listed items.

[0044] Please refer to the appendix carefully. Figure 1 , 2As shown in Figures 5, 6, and 7, in a preferred embodiment of the present invention, a fire suit production device for easy and quick donning includes a base plate 10 and a top plate 11 connected to the top of the base plate 10 by multiple support columns. The base plate 10 is provided with an upper garment positioning device 20. Two glove feeding devices 60 are symmetrically arranged at the bottom of the top plate 11 on both sides of the upper garment positioning device 20. Two metal buckle mounting devices 30 are symmetrically arranged on the top plate 11 on both sides of the upper garment positioning device 20. Multiple first fastener feeding devices 40 and multiple second fastener feeding devices 40 are symmetrically arranged on the top plate 11 on both sides of the metal fastener mounting devices 30. The first fastener feeding device 40 and the second fastener feeding device 50 are both used to feed metal fastener assemblies to the metal fastener mounting device 30; the upper garment positioning device 20 includes an L-shaped support plate 21 symmetrically arranged on the base plate 10, a positioning tube 22 with one end connected to the outer wall of the L-shaped support plate 21, a telescopic tube 23 disposed in the positioning tube 22, a drive cylinder 24 disposed on the L-shaped support plate 21 and used to drive the telescopic tube 23 to move, a plurality of fastener positioning holes 25 passing through the outer wall of the telescopic tube 23 and arranged in a circular array, and a fastener support component 26 disposed in the telescopic tube 23; the glove feeding device 60 includes a pair of Two second linear modules 61 are located at the bottom of the top plate 11, and horizontal plates 62 are connected to the execution ends of the two second linear modules 61 at both ends. A drive motor 63 is located at the top of the horizontal plate 62 and its execution end extends to the lower part of the horizontal plate 62. A first power cylinder 64 is vertically located at the execution end of the drive motor 63. A second power cylinder 65 is horizontally located at the execution end of the first power cylinder 64. A C-shaped frame 66 is located at the execution end of the second power cylinder 65. A positioning ring 67 is located at the end of the C-shaped frame 66. A plurality of finger cylinders 68 are arranged in a ring array on the inner wall of the positioning ring 67. The fastener support component 26 includes a telescopic support component. The pneumatic cylinder 261 inside the tube 23, and the frustum support block 262 located at the actuating end of the pneumatic cylinder 261, the fastener positioning hole 25 includes a circular through hole 251 passing through the outer wall of the telescopic tube 23, and a square through hole 252 embedded at the end of the telescopic tube 23 and communicating with the circular through hole 251. The top of the base plate 10 is symmetrically provided with two sleeve clamping devices 70 with the telescopic tube 23 as the axis. The sleeve clamping device 70 includes a third linear guide rail 71 located on the base plate 10, a pneumatic cylinder 72 located at the actuating end of the third linear guide rail 71, and a C-shaped positioning clamping plate 73 located at the actuating end of the pneumatic cylinder 72.

[0045] It should be noted that, in this embodiment, during production, the fire suit jacket is placed over the L-shaped bracket plate 21 in the jacket positioning device 20, with the positioning tube 22 extending into the sleeve. The drive cylinder 24 moves the telescopic tube 23 according to the sleeve length to complete the jacket positioning. After the jacket is positioned, the sleeve clamping device 70 clamps and fixes the sleeve to increase its stability. The metal buckle installation device 30 takes a metal concave buckle positioning pin from the first fastener feeding device 40 and installs it from inside the sleeve. The tip of the metal concave buckle positioning pin pierces the sleeve through the fastener positioning hole 25 and extends to the outside of the sleeve. After installation, the metal buckle installation device 30 resets, and the fastener support component 26 supports the metal concave buckle positioning pin to complete its installation. The metal buckle installation device 30 takes a metal concave buckle from the second fastener feeding device 50 and snaps it onto the tip of the metal concave buckle positioning pin to complete its installation. The metal buckle installation device 30 takes a metal protruding buckle from the second fastener feeding device 50 and engages it with a metal concave buckle to complete the installation of the metal protruding buckle. After the metal protruding buckle is installed, the glove feeding device 60 clamps the glove entrance and places the glove entrance outside the sleeve to complete the glove positioning. The metal buckle installation device 30 takes a metal protruding buckle positioning pin from the second fastener feeding device 50 and pierces the glove with the tip of the metal protruding buckle positioning pin to engage the metal protruding buckle to complete the processing. After processing, the metal concave buckle positioning pin and the metal concave buckle form a concave buckle assembly, and the metal protruding buckle and the protruding buckle positioning pin form a protruding buckle assembly. The fire glove is connected to the fire suit sleeve through the concave buckle assembly and the protruding buckle assembly. When firefighters wear the fire suit, their hands can directly enter the fire glove through the sleeve, eliminating the process of putting on the fire glove and saving the time of putting on the fire suit. The buckle design between the fire suit and the fire glove does not affect the normal separation between the fire suit and the fire glove.

[0046] Furthermore, the circular through hole 251 in the fastener positioning hole 25 facilitates fastener positioning, and the square through hole 252 facilitates the installation of the fastener through the square through hole 252 to move out of the circular through hole 251.

[0047] Furthermore, when the fastener support component 26 is working, the actuating end of the pneumatic cylinder 261 drives the frustum support block 262 to move, and the frustum support block 262 moves to the position of the fastener positioning hole 25 to support the fastener.

[0048] Furthermore, when the glove feeding device 60 is working, multiple finger cylinders 68 clamp the outer edge of the glove inlet so that the glove inlet is in an open state. The second linear module 61 can drive the horizontal plate 62 to move horizontally. The transmission motor 63 drives the first power cylinder 64 to rotate. The first power cylinder 64 drives the second power cylinder 65 to rise and fall. The second power cylinder 65 drives the C-shaped frame 66, the positioning ring 67 and the finger cylinders 68 to move horizontally so that the glove is put on the outside of the cuff.

[0049] Furthermore, when the sleeve clamping device 70 is working, the third linear guide rail 71 drives the pneumatic cylinder 72 to move horizontally, and the actuator of the pneumatic cylinder 72 drives the C-shaped positioning clamp 73 to move. The C-shaped positioning clamp 73 abuts against the sleeve to fix the sleeve.

[0050] Please refer to the appendix carefully. Figure 2 , 3 As shown in Figure 8, in another preferred embodiment of the present invention, the metal buckle mounting device 30 includes two first linear modules 31 symmetrically arranged on the base plate 10, a movable plate 32 with its two ends respectively connected to the execution ends of the two first linear modules 31, a drive motor 33 disposed at the bottom of the movable plate 32 and with its execution end extending above the movable plate 32, a telescopic cylinder 34 horizontally disposed at the execution end of the drive motor 33, a base tube 35 disposed at the execution end of the telescopic cylinder 34, a plurality of sliding magnetic blocks 36 passing through the outer wall of the base tube 35 and arranged in a ring array, a retraction drive component 37 disposed inside the base tube 35 for driving the plurality of sliding magnetic blocks 36 to expand or retract simultaneously, an L-shaped extension plate 38 disposed at the top of the sliding magnetic blocks 36, and symmetrically arranged... Two fastener pneumatic clamping components 39 are located at the top and bottom of the L-shaped extension plate 38; the retraction drive component 37 includes an electric cylinder 371 disposed on the outer wall of the base tube 35 and extending its actuating end into the base tube 35, a conical block 372 disposed on the actuating end of the electric cylinder 371 and whose outer wall contacts the sliding magnetic block 36, a moving ring 373 sleeved on the outer wall of the base tube 35, and a connecting frame 374 connected at one end to the conical block 372 and at the other end to the moving ring 373; the fastener pneumatic clamping component 39 includes a positioning plate 391 disposed on the top of the L-shaped extension plate 38, an annular airbag 392 disposed in the positioning plate 391, and an air source pipe 393 disposed on the outer wall of the positioning plate 391 and connected at one end to the annular airbag 392.

[0051] It should be noted that, in this embodiment, when the metal buckle installation device 30 is working, the first linear module 31 drives the moving plate 32 to move horizontally, the drive motor 33 drives the telescopic cylinder 34 to rotate, and the telescopic cylinder 34 drives the base tube 35 to move, so as to achieve position adjustment, so that the metal buckle installation device 30 can take the buckle from the first fastener feeding device 40 and the second fastener feeding device 50, or perform fastener installation.

[0052] When taking fasteners, the fastener pneumatic clamping component 39 at the top of the L-shaped extension plate 38 can take fasteners from the first fastener feeding device 40, and the fastener pneumatic clamping component 39 at the bottom of the L-shaped extension plate 38 can take fasteners from the second fastener feeding device 50. The fastener pneumatic clamping component 39 is responsible for clamping the fasteners.

[0053] During fastener installation, the metal concave buckle positioning pin is installed through the fastener pneumatic clamping component 39 at the top of the L-shaped extension plate 38. The metal concave buckle, metal protruding buckle, and metal protruding buckle positioning pin are all installed through the fastener pneumatic clamping component 39 at the bottom of the L-shaped extension plate 38. The retraction and expansion drive component 37 drives multiple sliding magnetic blocks 36 to expand outward to realize the installation of the metal concave buckle positioning pin. The retraction and expansion drive component 37 drives multiple sliding magnetic blocks 36 to retract inward to realize the installation of the metal concave buckle, metal protruding buckle, and metal protruding buckle positioning pin.

[0054] Furthermore, when the retraction drive component 37 is working, the actuator end of the electric cylinder 371 extends to drive the conical block 372 to move, the conical block 372 pushes multiple sliding magnetic blocks 36 to expand outward, the actuator end of the electric cylinder 371 retracts to drive the moving ring 373 to move, and the moving ring 373 drives multiple sliding magnetic blocks 36 to retract.

[0055] Furthermore, when the fastener pneumatic clamping component 39 is working, the air source system connected to the air source pipe 393 is turned on, and the air source system inputs gas into the air source pipe 393. The pressurized gas expands the annular air bladder 392, and the annular air bladder 392 clamps the fastener.

[0056] Please refer to the appendix carefully. Figure 2 , 4 As shown in Figure 5, in another preferred embodiment of the present invention, the first fastener feeding device 40 includes a vertical plate 41 disposed on the base plate 10, inclined plates 42 symmetrically disposed on both sides of the vertical plate 41, a first fastener slide rail 43 disposed at the ends of the vertical plate 41 and the inclined plates 42, a first conveyor belt 44 disposed within the first fastener slide rail 43, a first feeding ring 45 disposed at the end of the first fastener slide rail 43 and communicating with the first fastener slide rail 43, a first n-shaped frame 46 disposed at the top of the first feeding ring 45, a first micro cylinder 47 disposed at the top of the first n-shaped frame 46 and whose actuating end extends to the lower part of the first n-shaped frame 46, and a fastener feeding device 40 disposed within the base plate 10. The first rubber disc 48 at the actuating end of the first micro cylinder 47, and the second fastener feeding device 50 include an annular frame 51 disposed on the base plate 10, a plurality of second fastener slide rails 52 arranged in annular array within the annular frame 51, a second conveyor belt 53 disposed within the second fastener slide rails 52, a second feeding ring 54 disposed at the end of the second fastener slide rails 52 and communicating with the second fastener slide rails 52, a second n-shaped frame 55 disposed at the bottom of the second feeding ring 54, a second micro cylinder 56 disposed at the bottom of the second n-shaped frame 55 and whose actuating end extends to the upper part of the second n-shaped frame 55, and a second rubber disc 57 disposed at the actuating end of the second micro cylinder 56.

[0057] It should be noted that, in this embodiment, both the first fastener feeding device 40 and the second fastener feeding device 50 can be set in a certain number according to production needs. When the first fastener feeding device 40 is working, the fastener is placed in the first fastener slide rail 43. The first fastener slide rail 43 can serve as the slide rail for the fastener. The first conveyor belt 44 drives the fastener to move. When the fastener moves to the position of the first feeding ring 45, the actuator of the first micro cylinder 47 drives the first rubber disc 48 to move. The first rubber disc 48 moves the fastener into the fastener pneumatic clamping component 39. The working mode of the second fastener feeding device 50 is the same as that of the first fastener feeding device 40.

[0058] Furthermore, both the first fastener slide rail 43 and the second fastener slide rail 52 can be designed according to the size and shape of the fastener to meet the sliding requirements of the fastener.

[0059] Based on the above embodiments, a method for producing a fire suit production device that facilitates quick donning will also be provided, comprising the following steps:

[0060] Step 1: Positioning the upper garment. Place the fire suit upper garment over the L-shaped bracket plate 21 in the upper garment positioning device 20. The positioning tube 22 extends into the sleeve. The drive cylinder 24 drives the telescopic tube 23 to move according to the sleeve length to complete the positioning of the upper garment.

[0061] Step 2: Installation of the metal buckle positioning pin on the sleeve. The metal buckle installation device 30 takes the metal buckle positioning pin from the first fastener feeding device 40 and installs it from inside the sleeve. The tip of the metal buckle positioning pin pierces the sleeve and extends to the outside of the sleeve. After installation, the metal buckle installation device 30 is reset. The fastener support component 26 supports the metal buckle positioning pin to complete the installation of the metal buckle positioning pin.

[0062] Step 3: Installation of the metal buckle on the sleeve. The metal buckle installation device 30 takes the metal buckle from the second buckle feeding device 50 and snaps the metal buckle into the tip of the metal buckle positioning pin to complete the installation of the metal buckle.

[0063] Step 4: Installation of the metal buckle on the glove. The metal buckle installation device 30 takes the metal buckle from the second fastener feeding device 50 and engages the metal buckle with the metal recess to complete the installation of the metal buckle.

[0064] Step 5: Glove positioning. The glove feeding device 60 clamps the glove inlet and places the glove inlet outside the sleeve to complete the glove positioning.

[0065] Step six: Installation of the glove metal buckle positioning pin. The metal buckle installation device 30 takes the metal buckle positioning pin from the second fastener feeding device 50 and pierces the glove with the tip of the metal buckle positioning pin to engage the metal buckle, thus completing the processing.

[0066] The specific process of this invention is as follows:

[0067] In this invention, all pneumatic components are triggered by a controller.

[0068] During production, the fire suit jacket is placed over the L-shaped bracket plate 21 in the jacket positioning device 20. The positioning tube 22 extends into the sleeve. The drive cylinder 24 moves the telescopic tube 23 according to the sleeve length to complete the jacket positioning. After the jacket is positioned, the sleeve clamping device 70 clamps and fixes the sleeve to increase its stability. The metal buckle installation device 30 takes a metal concave buckle positioning pin from the first fastener feeding device 40 and installs it from inside the sleeve. The tip of the metal concave buckle positioning pin pierces the sleeve through the fastener positioning hole 25 and extends to the outside of the sleeve. After installation, the metal buckle installation device 30 resets, and the fastener support component 26 supports the metal concave buckle positioning pin to complete the installation. The metal buckle installation device 30 takes a metal concave buckle from the second fastener feeding device 50 and snaps the metal concave buckle onto the tip of the metal concave buckle positioning pin to complete the installation of the metal concave buckle. The feeding device 50 picks up a metal protrusion and engages it with a metal concave buckle to complete the installation of the metal protrusion. After the metal protrusion is installed, the glove feeding device 60 clamps the glove entrance and places it over the outside of the sleeve to complete the glove positioning. The metal buckle installation device 30 picks up a metal protrusion positioning pin from the second fastener feeding device 50 and pierces the glove with the tip of the metal protrusion positioning pin to engage the metal protrusion, thus completing the processing. After processing, the metal concave buckle positioning pin and the metal concave buckle form a concave buckle assembly, and the metal protrusion and the protrusion positioning pin form a protrusion buckle assembly. The fire glove is connected to the sleeve of the fire suit through the concave buckle assembly and the protrusion buckle assembly. When firefighters wear the fire suit, their hands can directly enter the fire glove through the sleeve, eliminating the process of putting on the fire glove and saving time. The buckle design between the fire suit and the fire glove does not affect the normal separation between the fire suit and the fire glove.

[0069] The circular through hole 251 in the fastener positioning hole 25 facilitates fastener positioning, while the square through hole 252 facilitates the installation of the fastener through the square through hole 252 and out of the circular through hole 251.

[0070] When the fastener support component 26 is working, the actuating end of the pneumatic cylinder 261 drives the frustum support block 262 to move. The frustum support block 262 moves to the position of the fastener positioning hole 25 to support the fastener.

[0071] When the glove feeding device 60 is working, multiple finger cylinders 68 clamp the outer edge of the glove inlet so that the glove inlet is in an open state. The second linear module 61 can drive the horizontal plate 62 to move horizontally. The transmission motor 63 drives the first power cylinder 64 to rotate. The first power cylinder 64 drives the second power cylinder 65 to rise and fall. The second power cylinder 65 drives the C-shaped frame 66, the positioning ring 67 and the finger cylinders 68 to move horizontally so that the glove is put on the outside of the cuff.

[0072] When the sleeve clamping device 70 is working, the third linear guide rail 71 drives the pneumatic cylinder 72 to move horizontally, and the actuator of the pneumatic cylinder 72 drives the C-shaped positioning clamp 73 to move. The C-shaped positioning clamp 73 abuts against the sleeve to fix the sleeve.

[0073] When the metal buckle installation device 30 is working, the first linear module 31 drives the moving plate 32 to move horizontally, the drive motor 33 drives the telescopic cylinder 34 to rotate, and the telescopic cylinder 34 drives the base tube 35 to move to achieve position adjustment so that the metal buckle installation device 30 can take the buckle from the first fastener feeding device 40 and the second fastener feeding device 50, or perform fastener installation.

[0074] When taking fasteners, the fastener pneumatic clamping component 39 at the top of the L-shaped extension plate 38 can take fasteners from the first fastener feeding device 40, and the fastener pneumatic clamping component 39 at the bottom of the L-shaped extension plate 38 can take fasteners from the second fastener feeding device 50. The fastener pneumatic clamping component 39 is responsible for clamping the fasteners.

[0075] During fastener installation, the metal concave buckle positioning pin is installed through the fastener pneumatic clamping component 39 at the top of the L-shaped extension plate 38. The metal concave buckle, metal protruding buckle, and metal protruding buckle positioning pin are all installed through the fastener pneumatic clamping component 39 at the bottom of the L-shaped extension plate 38. The retraction and expansion drive component 37 drives multiple sliding magnetic blocks 36 to expand outward to realize the installation of the metal concave buckle positioning pin. The retraction and expansion drive component 37 drives multiple sliding magnetic blocks 36 to retract inward to realize the installation of the metal concave buckle, metal protruding buckle, and metal protruding buckle positioning pin.

[0076] When the retraction drive component 37 is working, the actuator end of the electric cylinder 371 extends and drives the conical block 372 to move. The conical block 372 pushes multiple sliding magnetic blocks 36 to expand outward. The actuator end of the electric cylinder 371 retracts and drives the moving ring 373 to move. The moving ring 373 drives multiple sliding magnetic blocks 36 to retract.

[0077] When the fastener pneumatic clamping component 39 is working, the air source system connected to the air source pipe 393 is turned on, and the air source system inputs gas into the air source pipe 393. The pressurized gas expands the annular air bladder 392, and the annular air bladder 392 clamps the fastener.

[0078] Both the first fastener feeding device 40 and the second fastener feeding device 50 can be set in a certain number according to production needs. When the first fastener feeding device 40 is working, the fastener is placed in the first fastener slide rail 43. The first fastener slide rail 43 can be used as a slide rail for the fastener. The first conveyor belt 44 drives the fastener to move. When the fastener moves to the position of the first feeding ring 45, the actuator of the first micro cylinder 47 drives the first rubber disc 48 to move. The first rubber disc 48 moves the fastener into the fastener pneumatic clamping component 39. The working mode of the second fastener feeding device 50 is the same as that of the first fastener feeding device 40.

[0079] Both the first fastener slide rail 43 and the second fastener slide rail 52 can be designed according to the size and shape of the fastener to meet the sliding requirements of the fastener.

[0080] The present invention has been described by way of example in conjunction with the accompanying drawings. Obviously, the specific implementation of the present invention is not limited to the above-described manner. Any non-substantial improvement made by adopting the inventive concept and technical solution of the present invention, or the direct application of the inventive concept and technical solution of the present invention to other occasions without modification, shall be within the protection scope of the present invention.

Claims

1. A production apparatus for fire suits that are easy to wear quickly, comprising a base plate (10) and a top plate (11) whose bottom is connected to the top of the base plate (10) by a plurality of support columns, characterized in that, The base plate (10) is provided with a garment positioning device (20). Two glove feeding devices (60) are symmetrically provided at the bottom of the top plate (11) and on both sides of the garment positioning device (20). Two metal buckle mounting devices (30) are symmetrically provided on the top plate (11) and on both sides of the garment positioning device (20). Multiple first fastener feeding devices (40) and multiple second fastener feeding devices (50) are symmetrically provided on the top plate (11) and on both sides of the metal buckle mounting device (30). The first fastener feeding devices (40) and the second fastener feeding devices (50) are both used to feed the metal buckle assembly to the metal buckle mounting device (30). The garment positioning device (20) includes an L-shaped support plate (21) symmetrically arranged on the base plate (10), a positioning tube (22) with one end connected to the outer wall of the L-shaped support plate (21), a telescopic tube (23) arranged inside the positioning tube (22), a drive cylinder (24) arranged on the L-shaped support plate (21) for driving the telescopic tube (23) to move, a plurality of fastener positioning holes (25) passing through the outer wall of the telescopic tube (23) and arranged in a ring array, and a fastener support component (26) arranged inside the telescopic tube (23). The metal buckle mounting device (30) includes two first linear modules (31) symmetrically arranged on the base plate (10), a movable plate (32) connected to the execution ends of the two first linear modules (31) at both ends, a drive motor (33) located at the bottom of the movable plate (32) and whose execution end extends above the movable plate (32), a telescopic cylinder (34) horizontally located at the execution end of the drive motor (33), a base tube (35) located at the execution end of the telescopic cylinder (34), a plurality of sliding magnetic blocks (36) passing through the outer wall of the base tube (35) and arranged in a ring array, and a plurality of sliding magnetic blocks (36) located inside the base tube (35) for driving the plurality of sliding magnetic blocks. The moving magnetic block (36) simultaneously expands or retracts, and there is an L-shaped extension plate (38) on the top of the sliding magnetic block (36), and two fastener pneumatic clamping components (39) symmetrically arranged on the top and bottom of the L-shaped extension plate (38). The base plate (10) is symmetrically provided with two sleeve clamping devices (70) with telescopic tube (23) as the axis. The sleeve clamping device (70) includes a third linear guide rail (71) on the base plate (10), a pneumatic cylinder (72) at the execution end of the third linear guide rail (71), and a C-shaped positioning clamping plate (73) at the execution end of the pneumatic cylinder (72).

2. The fire suit production device according to claim 1, characterized in that, The glove feeding device (60) includes two second linear modules (61) symmetrically arranged at the bottom of the top plate (11), a horizontal plate (62) connected to the execution ends of the two second linear modules (61) at both ends, a transmission motor (63) arranged at the top of the horizontal plate (62) and whose execution end extends to the lower part of the horizontal plate (62), a first power cylinder (64) vertically arranged at the execution end of the transmission motor (63), a second power cylinder (65) horizontally arranged at the execution end of the first power cylinder (64), a C-shaped frame (66) arranged at the execution end of the second power cylinder (65), a positioning ring (67) arranged at the end of the C-shaped frame (66), and a plurality of finger cylinders (68) arranged in a ring array on the inner wall of the positioning ring (67).

3. The fire suit production device according to claim 1, characterized in that, The first fastener feeding device (40) includes a vertical plate (41) disposed on the base plate (10), an inclined plate (42) symmetrically disposed on both sides of the vertical plate (41), a first fastener slide rail (43) disposed at the ends of the vertical plate (41) and the inclined plate (42), a first conveyor belt (44) disposed in the first fastener slide rail (43), a first feeding ring (45) disposed at the end of the first fastener slide rail (43) and communicating with the first fastener slide rail (43), a first n-shaped frame (46) disposed at the top of the first feeding ring (45), a first miniature cylinder (47) disposed at the top of the first n-shaped frame (46) and whose execution end extends to the lower part of the first n-shaped frame (46), and a first rubber disc (48) disposed at the execution end of the first miniature cylinder (47).

4. The fire suit production device according to claim 1, characterized in that, The second fastener feeding device (50) includes an annular frame (51) disposed on the base plate (10), a plurality of second fastener slide rails (52) arranged in an annular array within the annular frame (51), a second conveyor belt (53) disposed within the second fastener slide rails (52), a second feeding ring (54) disposed at the end of the second fastener slide rails (52) and communicating with the second fastener slide rails (52), a second n-shaped frame (55) disposed at the bottom of the second feeding ring (54), a second micro cylinder (56) disposed at the bottom of the second n-shaped frame (55) and whose actuating end extends to the upper part of the second n-shaped frame (55), and a second rubber disc (57) disposed at the actuating end of the second micro cylinder (56).

5. The fire suit production device according to claim 1, characterized in that, The fastener support component (26) includes a pneumatic cylinder (261) disposed in the telescopic tube (23) and a frustum support block (262) disposed at the actuating end of the pneumatic cylinder (261).

6. The fire suit production device according to claim 1, characterized in that, The fastener positioning hole (25) includes a circular through hole (251) passing through the outer wall of the telescopic tube (23) and a square through hole (252) embedded in the end of the telescopic tube (23) and communicating with the circular through hole (251).

7. The fire suit production device according to claim 1, characterized in that, The retraction drive component (37) includes an electric cylinder (371) disposed on the outer wall of the base tube (35) and whose actuating end extends into the base tube (35), a conical block (372) disposed on the actuating end of the electric cylinder (371) and whose outer wall contacts the sliding magnetic block (36), a moving ring (373) sleeved on the outer wall of the base tube (35), and a connecting frame (374) with one end connected to the conical block (372) and the other end connected to the moving ring (373).

8. The fire suit production device according to claim 1, characterized in that, The fastener pneumatic clamping component (39) includes a positioning plate (391) located on the top of the L-shaped extension plate (38), an annular airbag (392) located in the positioning plate (391), and an air source pipe (393) located on the outer wall of the positioning plate (391) and connected at one end to the annular airbag (392).

9. A method for producing a fire suit production apparatus that facilitates quick donning according to any one of claims 1-8, characterized in that, Includes the following steps: Step 1: Positioning the upper garment. Place the fire suit upper garment over the L-shaped bracket plate (21) in the upper garment positioning device (20). The positioning tube (22) extends into the sleeve. The drive cylinder (24) moves the telescopic tube (23) according to the sleeve length to complete the positioning of the upper garment. Step 2: Installation of the metal buckle positioning pin on the sleeve. The metal buckle installation device (30) takes the metal buckle positioning pin from the first fastener feeding device (40) and installs it from inside the sleeve. The tip of the metal buckle positioning pin pierces the sleeve and extends to the outside of the sleeve. After installation, the metal buckle installation device (30) resets and the fastener support component (26) supports the metal buckle positioning pin to complete the installation of the metal buckle positioning pin. Step 3: Installation of metal buckles on sleeves. The metal buckle installation device (30) takes the metal buckle from the second buckle feeding device (50) and snaps the metal buckle into the tip of the metal buckle positioning pin to complete the installation of the metal buckle. Step 4: Installation of the metal buckle on the glove. The metal buckle installation device (30) takes the metal buckle from the second fastener feeding device (50) and engages the metal buckle with the metal recess to complete the installation of the metal buckle. Step 5: Glove positioning. The glove feeding device (60) clamps the glove inlet and places the glove inlet outside the sleeve to complete the glove positioning. Step 6: Installation of the glove metal buckle positioning pin. The metal buckle installation device (30) takes the metal buckle positioning pin from the second fastener feeding device (50) and pierces the glove with the tip of the metal buckle positioning pin to engage the metal buckle, thus completing the processing.