Antistatic conductive garment

CN224386825UActive Publication Date: 2026-06-23SHANGHAI HAOBEIJIA TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANGHAI HAOBEIJIA TECHNOLOGY CO LTD
Filing Date
2025-07-10
Publication Date
2026-06-23

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Abstract

This application discloses an antistatic conductive garment, belonging to the field of antistatic clothing technology. The antistatic conductive garment includes a body with conductive fibers woven into it. It also includes a storage structure located on the back of the body for storing the folded garment. The storage structure includes a pocket integrally formed with the body on the back, a long opening at the top of the pocket, and a long zipper for opening and closing the opening. The pocket has a breathable structure for ventilation. This antistatic conductive garment achieves convenient storage and carrying through the combination of the pocket, long opening, and long zipper. The breathable structure promotes air circulation and reduces stuffiness and dampness when antistatic protection is not required, meeting the needs of different scenarios and greatly improving practicality and functionality, providing users with a comfortable and convenient wearing experience.
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Description

Technical Field

[0001] This application relates to the field of antistatic clothing technology, specifically an antistatic conductive garment. Background Technology

[0002] Antistatic conductive clothing is an essential personal protective equipment in electrostatic-sensitive environments such as electronics manufacturing, precision instrument assembly, and semiconductor processing. Its core function is to quickly conduct and release static electricity generated by the human body through conductive fibers woven into the clothing, thus preventing the accumulation of static electricity from causing safety accidents.

[0003] Chinese utility model patent CN202504221U discloses an antistatic garment. It reduces the surface resistance of the garment by incorporating conductive fibers, allowing static electricity generated during friction to be conducted away and dissipated, thus ensuring the garment's antistatic safety. However, to guarantee its antistatic conductivity, this antistatic garment uses special conductive materials and a tightly woven process, which significantly limits its breathability. When workers wear it for extended periods, especially when no electrostatic protection is required, heat and moisture easily accumulate inside, causing stuffiness and dampness, affecting comfort. Furthermore, this antistatic conductive garment has a relatively limited function, focusing solely on antistatic conductivity, making it difficult to meet the diverse needs of users in different scenarios.

[0004] Therefore, this application provides an antistatic conductive garment to solve the above-mentioned problems. Utility Model Content

[0005] This application provides an antistatic conductive garment, which aims to solve the problems mentioned in the background art, such as poor breathability, easy accumulation of heat and moisture after long-term wear, affecting comfort, and limited functionality, which cannot meet the needs of diverse scenarios.

[0006] To achieve the above objectives, this application provides the following technical solution: an antistatic conductive garment, comprising a garment body, wherein conductive fibers are woven into the garment body, and the antistatic conductive garment further comprises a storage structure disposed on the back of the garment body for storing the folded garment body.

[0007] The storage structure includes a pocket located on the back of the garment and integrally formed with the garment, a long opening at the top of the pocket, and a long zipper located at the long opening for opening and closing the long opening.

[0008] The pocket features a breathable structure for ventilation. The combination of the pocket, long opening, and long zipper utilizes the ease of opening and closing of the zipper. When the long opening is open, the folded garment can be placed into the pocket, reducing its volume for easy carrying. Conversely, closing the long opening ensures the garment remains in its normal working order. The breathable structure allows air to circulate within the garment during extended wear when no electrostatic protection is required, carrying away body heat and moisture and reducing stuffiness and dampness. This meets the user's needs in various scenarios, enhancing the garment's practicality and functionality, and creating a more comfortable and convenient wearing experience.

[0009] Preferably, to facilitate the folding of the conductive fibers, the weaving direction of the conductive fibers is parallel to the setting direction of the long zipper. The design that the weaving direction of the conductive fibers is parallel to the setting direction of the long zipper ensures that when the pocket is opened along the long zipper and the garment is folded, the conductive fibers will not be excessively twisted due to the inconsistency between the folding direction and the weaving direction. This parallel relationship allows the conductive fibers to smoothly follow the folding action during the folding process, reducing the physical damage to the conductive fibers caused by folding.

[0010] Preferably, to achieve breathability, the breathable structure includes a breathable mesh disposed on the side of the pocket near the back of the garment and integrally formed with the garment body; the breathable mesh is designed with numerous mesh openings, which form channels for air circulation. When worn for extended periods and without the need for electrostatic protection, air can exchange between the inside and outside environments of the garment through the mesh openings. This allows heat and moisture generated by the body to be expelled from the garment with the airflow, while fresh air from the outside can enter the garment, thereby reducing the stuffiness and dampness caused by non-breathable clothing and making the user feel more comfortable during prolonged wear.

[0011] Preferably, to facilitate the use of the breathable mesh, the breathable structure further includes a U-shaped opening on the side of the pocket away from the breathable mesh, a U-shaped fabric fixedly connected to one side of the U-shaped opening, and a U-shaped zipper fixedly disposed between the U-shaped opening and the U-shaped fabric for sealing or opening the U-shaped opening with the U-shaped fabric. The combined design of the U-shaped opening, U-shaped fabric, and U-shaped zipper allows for ventilation. When ventilation is needed, opening the U-shaped zipper separates the U-shaped fabric from the U-shaped opening, allowing air to enter the garment through the U-shaped opening and the breathable mesh. When ventilation is not needed or the garment's airtightness is required, closing the U-shaped zipper seals the U-shaped opening with the U-shaped fabric, preventing airflow. This allows the user to flexibly adjust the garment's breathability according to the actual working environment and their own needs, ensuring good breathability when needed and maintaining airtightness when not needed, thus improving the garment's practicality and adaptability.

[0012] Preferably, to ensure a seal at the long zipper and the loop zipper when the garment is worn, a sealing strip is fixedly provided on the inner side of the pocket corresponding to the long zipper and the inner side of the loop zipper. The sealing strip is designed so that, due to its flexibility and sealing properties, it can fit tightly against both sides of the zipper when it is closed, filling any tiny gaps that may exist when the zipper is closed, thus preventing external static electricity interference and ensuring a relatively stable static electricity protection environment inside the garment.

[0013] Preferably, to facilitate carrying the storage pocket by hand and securing the open welt when for ventilation, a handle is fixedly connected inside the pocket on the side away from the elongated opening. This handle is used for carrying the garment when it is stored or for securing the open welt. The handle is designed to provide a stable point of force when it is fixed in place. This makes it easy to carry the garment when it is stored and secures the welt to ensure breathability, thus improving the portability and practicality of the garment and bringing convenience to the user.

[0014] Preferably, in order to simultaneously meet the diverse usage needs of the pocket after being carried and the open loop fabric when fixed for ventilation, the handle is an elastic band. The handle uses an elastic band, which, with its good elasticity, can adaptively adjust according to different grip strengths and fixing requirements. When carrying, the elastic band can be easily stretched, making it convenient for the user to hold and carry. When fixing the loop fabric, the loop fabric is stuffed into the elastic band, and the elastic band will automatically contract and bind the loop fabric with its own elasticity, improving the convenience of use.

[0015] This antistatic conductive garment features a combination of pockets, a long opening, and a long zipper. The long zipper allows for easy opening and closing, and when the opening is open, the folded garment can be placed into the pocket, reducing its size and making it easy to carry and use. At the same time, when the opening is closed, the garment can be kept in normal working order.

[0016] This antistatic conductive clothing, with its breathable structure, allows air to circulate within the garment during extended wear when no electrostatic protection is required. This removes heat and moisture generated by the body, reducing stuffiness and dampness, thus meeting the needs of users in different scenarios. This enhances the practicality and functionality of the clothing and creates a more comfortable and convenient wearing experience for users.

[0017] The handle of this antistatic conductive garment uses an elastic band. Utilizing its excellent elasticity, it can adaptively adjust to different grip strengths and fixation requirements. When carrying, the elastic band can be easily stretched for easy gripping and carrying. When fixing the webbing, the webbing is stuffed into the elastic band, and the elastic band will automatically contract and bind the webbing with its own elasticity, improving ease of use. Attached Figure Description

[0018] Figure 1 A schematic diagram of the structure of an antistatic conductive garment Figure 1 ;

[0019] Figure 2 A schematic diagram of the structure in an antistatic conductive garment. Figure 2 ;

[0020] Figure 3 This is a schematic diagram of a storage structure in an antistatic conductive garment.

[0021] Figure 4 This is a schematic diagram of the breathable structure in an antistatic conductive garment.

[0022] In the picture:

[0023] 1. Clothing;

[0024] 2. Storage structure; 21. Pocket; 22. Long opening; 23. Long zipper;

[0025] 3. Breathable structure; 31. Breathable mesh; 32. Herringbone opening; 33. Herringbone fabric; 34. Herringbone zipper;

[0026] 4. Handles; 41. Elastic band. Detailed Implementation

[0027] The technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, and not all embodiments. Based on the embodiments of this application, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this application.

[0028] Example 1

[0029] This embodiment provides an antistatic conductive garment, such as... Figures 1-4As shown, the antistatic conductive garment includes a garment body 1, with conductive fibers woven inside. The antistatic conductive garment also includes a storage structure 2 located on the back of the garment body 1 for storing the folded garment body 1. The storage structure 2 includes a pocket 21 located on the back of the garment body 1 and integrally formed with the garment body 1, a long opening 22 at the top of the pocket 21, and a long zipper 23 located at the long opening 22 for opening and closing the long opening 22. The pocket 21 is provided with a breathable structure 3 for ventilation.

[0030] When in use, the garment body 1 is the main part of the entire garment, woven with conductive fibers. These fibers, through their excellent conductivity, can effectively conduct static electricity generated by the human body away, thus preventing static electricity buildup on the body and clothing, providing anti-static conductivity and ensuring the user's safety and comfort in specific working environments. When not in use, the long zipper 23 is pulled to open the long opening 22, and the pocket 21 is folded from the inside out through the long opening 22. The remaining parts of the folded garment body 1 are then stored in the pocket 21 through the long opening 22. Finally, the long zipper 23 is pulled to close the long opening 22, sealing the pocket 21 and preventing the garment body 1 from falling out, facilitating storage and carrying. When worn for extended periods without the need for static protection, the ventilation structure 3 is opened to allow fresh air to enter the garment. This allows heat and moisture generated by the body to escape, reducing stuffiness and dampness caused by non-breathable clothing and improving wearing comfort.

[0031] In order to facilitate the folding of conductive fibers, the weaving direction of the conductive fibers is parallel to the setting direction of the long zipper 23. The design that the weaving direction of the conductive fibers is parallel to the setting direction of the long zipper 23 ensures that when the pocket 21 is opened along the long zipper 23 and the garment 1 is folded, the conductive fibers will not be excessively twisted due to the inconsistency between the folding direction and the weaving direction. This parallel relationship allows the conductive fibers to smoothly follow the folding action during the folding process, reducing the physical damage to the conductive fibers caused by folding.

[0032] Specifically, the breathable structure 3 includes a breathable mesh 31 that is provided on the side of the pocket 21 near the back of the garment 1 and integrally formed with the garment 1; the breathable structure 3 also includes a loop opening 32 provided on the side of the pocket 21 away from the breathable mesh 31, a loop fabric 33 fixedly connected to one side of the loop opening 32, and a loop zipper 34 fixedly provided between the loop opening 32 and the loop fabric 33 for sealing or opening the loop opening 32 with the loop fabric 33.

[0033] When worn for extended periods without the need for electrostatic protection, unzip the loop 34 to separate the loop fabric 33 from the loop opening 32. The loop opening 32 provides a channel for airflow, allowing external air to freely exchange between the inside and outside of the garment through the loop opening 32 and the mesh of the breathable net 31, thus meeting ventilation requirements and reducing stuffiness and dampness caused by non-breathable clothing, improving wearing comfort. When the loop zipper 34 is closed, the loop fabric 33 fits tightly against the loop opening 32, completely sealing it and preventing airflow through the loop opening 32 and the breathable net 31. This creates a relatively enclosed space inside the garment, ensuring electrostatic protection performance.

[0034] In addition, to ensure the sealing of the long zipper 23 and the loop zipper 34 when the garment 1 is worn, sealing strips are fixedly installed on the inner side of the pocket 21 corresponding to the long zipper 23 and the inner side of the loop zipper 34. The sealing strips are designed so that, due to their flexibility and sealing properties, when the long zipper 23 or the loop zipper 34 is closed, the sealing strips can fit tightly against both sides of the zipper, filling the tiny gaps that exist when the long zipper 23 or the loop zipper 34 is closed, so as to prevent external static electricity interference and ensure that a relatively stable static electricity protection environment is formed inside the garment.

[0035] Example 2

[0036] Unlike Example 1, as Figure 3 and Figure 4 As shown, in order to facilitate carrying the storage pocket 21 by hand and to fix the open loop fabric 33 when it is open for ventilation, a handle 4 is fixedly connected inside the side of the pocket 21 away from the long strip opening 22 for carrying the garment 1 by hand or for fixing the loop fabric 33 when it is open. The handle 4 is an elastic band 41.

[0037] When the folded garment 1 needs to be stored in the pocket 21 for carrying, the elastic band 41 is elastic. The user can grasp the elastic band 41 and apply force; the elastic band 41 will stretch and deform accordingly based on the amount of force applied. This adaptive stretching characteristic allows the user to easily pass their hand through or grasp the elastic band 41 to lift the entire pocket 21 containing the garment 1. When ventilation is needed and the U-shaped zipper 34 is opened to separate the U-shaped fabric 33 from the U-shaped opening 32, the user can wrap the U-shaped fabric 33 around the elastic band 41. The elastic band 41, with its elastic properties, exerts a binding force on the herringbone fabric 33, securing it firmly to the elastic band 41. This prevents the fabric from shifting or obstructing the breathable mesh 31 and the herringbone opening 32, ensuring that air can flow smoothly through the breathable mesh 31 and the herringbone opening 32 inside and outside the garment, achieving excellent breathability. This fixing method is simple and easy to operate, requiring no additional tools or complicated steps. Users can quickly fix or unfix the herringbone fabric 33, improving efficiency and experience when adjusting the breathability of clothing.

[0038] The above description is merely a preferred embodiment of this application, but the scope of protection of this application is not limited thereto. Any equivalent substitutions or modifications made by those skilled in the art within the scope of the technology disclosed in this application, based on the technical solution and concept of this application, should be included within the scope of protection of this application.

Claims

1. An antistatic conductive garment, comprising a garment body (1), wherein conductive fibers are woven into the garment body (1), characterized in that: The antistatic conductive garment also includes a storage structure (2) disposed on the back of the garment body (1) for storing the folded garment body (1); The storage structure (2) includes a pocket (21) located on the back of the garment (1) and integrally formed with the garment (1), a long opening (22) opened at the top of the pocket (21), and a long zipper (23) located at the long opening (22) for opening and closing the long opening (22). The pocket (21) is provided with a breathable structure (3) for ventilation.

2. The antistatic conductive garment according to claim 1, characterized in that: The braiding direction of the conductive fiber is parallel to the setting direction of the long zipper (23).

3. The antistatic conductive garment according to claim 1, characterized in that: The breathable structure (3) includes a breathable mesh (31) disposed on the side of the pocket (21) near the back of the garment (1) and integrally formed with the garment (1).

4. The antistatic conductive garment according to claim 3, characterized in that: The breathable structure (3) further includes a loop opening (32) disposed on the side of the pocket (21) away from the breathable mesh (31), a loop fabric (33) fixedly connected to one side of the loop opening (32), and a loop zipper (34) fixedly disposed between the loop opening (32) and the loop fabric (33) for sealing or opening the loop opening (32) with the loop fabric (33).

5. The antistatic conductive garment according to claim 4, characterized in that: The pocket (21) is fixedly provided with sealing strips on the inner side of the long strip zipper (23) and the inner side of the spiral zipper (34).

6. The antistatic conductive garment according to claim 4, characterized in that: The pocket (21) is fixedly connected to a handle (4) on the side away from the long opening (22) for carrying the garment (1) when it is stored or for fixing the tapered cloth (33) when it is opened.

7. The antistatic conductive garment according to claim 6, characterized in that: The handle (4) is an elastic band (41).