ATP textile thread processing device

CN224494582UActive Publication Date: 2026-07-14HANGZHOU QINGDA MEIJIE INDOOR POLLUTION DETECTION & TREATMENT CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HANGZHOU QINGDA MEIJIE INDOOR POLLUTION DETECTION & TREATMENT CO LTD
Filing Date
2025-10-28
Publication Date
2026-07-14

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Abstract

The utility model discloses an ATP textile thread processing device belongs to the technical field of fabric processing equipment, including main body frame, the bottom fixed support base of main body frame, the main body frame includes the dyeing box, and the top surface both ends of dyeing box are distributed and have the traction station, the top surface fixedly has the traction wheel in the traction station, the inside of dyeing box is provided with the dyeing cavity. This ATP textile thread processing device is provided with the dyeing cavity through the inside of dyeing box and fills the active dyestuff and ATP as the added basic material, can cooperate the traction wheel of both ends and the traction roll in the dyeing cavity and provides the traction force for the textile thread when spinning, makes its textile thread steady and enters the stable dyeing in the dyeing cavity, and the stirring roll and the outer wall ring of traction roll cloth's paddle rotate with the transmission synchronous homodirectional rotation, can also mix the active dyestuff and ATP material evenly in the cavity inside while the stable traction of textile thread, promotes the dyeing evenness and quality of textile thread.
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Description

Technical Field

[0001] This utility model relates to the field of fabric processing equipment technology, specifically to an ATP textile yarn processing device. Background Technology

[0002] ATP fabric is a special functional fabric treated with wash-resistant technology. ATP, or adenosine triphosphate, is a high-energy phosphate compound that directly provides energy in living organisms. It consists of adenosine (adenine + ribose) and three phosphate groups connected by high-energy phosphate bonds. When the terminal phosphate bond is hydrolyzed, it releases about 30.5 kJ / mol of energy, driving cell metabolism, muscle contraction, and other life activities. It is known as the energy currency of cells. When hydrolyzed into ADP (adenosine diphosphate), it releases energy for use in physiological activities. It is mainly used in ATP-enhanced fabrics for rapid recovery after exercise and in sportswear made from them. In the production of ATP fabric, it needs to be processed and woven into shape using ATP textile yarn.

[0003] ATP textile yarn is the main material for the preparation of ATP fabrics. In the production process, ATP is combined with reactive dyes, and the cotton fabric is dyed through its hydrophilicity, while giving it flame retardant and antibacterial properties. Currently, some dyeing methods mainly involve placing textile yarn segments into the dyeing equipment through a conveying structure, so that the textile yarn material comes into contact with ATP and reactive dyes to achieve the dyeing process.

[0004] In the aforementioned dyeing process of ATP textile yarn, the dye needs to be in full contact with the ATP material to penetrate the textile yarn evenly. However, traditional dyeing equipment, such as drum dyeing machines, does not have a mixing structure for the dye and ATP material. This results in poor uniformity of the dye and ATP material in contact with the subsequent textile yarn segments after they enter the equipment, leading to problems such as uneven color and insufficient empowerment of the subsequent textile fabric, which affects the quality. Therefore, we propose an ATP textile yarn processing device. Utility Model Content

[0005] The summary section of this application is intended to provide a brief overview of the concepts, which will be described in detail in the detailed description section below. This summary section is not intended to identify key or essential features of the claimed technical solutions, nor is it intended to limit the scope of the claimed technical solutions.

[0006] The purpose of this invention is to provide an ATP textile yarn processing device to solve the problems mentioned in the background art.

[0007] To achieve the above objectives, this utility model provides the following technical solution: an ATP textile yarn processing device, comprising a main frame, a supporting base fixed at the bottom of the main frame, a dyeing box, and traction platforms distributed at both ends of the top surface of the dyeing box, a traction wheel fixed in the center of the top surface of the traction platform, a dyeing chamber opened inside the dyeing box, an agitator roller horizontally connected to the center of the dyeing chamber, a transmission box connected to one end of the agitator roller, a connecting shaft connected inside the transmission box, a drive motor connected to one end of the connecting shaft, transmission shafts distributed on both sides of the bottom of the transmission box, and the transmission shafts connected to the connecting shafts via transmission belts, a traction roller connected to one end of the transmission shaft, and a baffle plate arranged around the outer wall of the agitator roller and the traction roller.

[0008] Furthermore, the traction table is fixedly connected to both ends of the top surface of the dyeing box, and ATP textile threads are connected between the traction wheels.

[0009] Furthermore, one end of the agitator roller is connected to the drive motor via a connecting shaft to form a rotating structure, and the transmission shaft and the connecting shaft are rotatably engaged with the transmission box.

[0010] Furthermore, the connecting shaft forms a transmission structure with the transmission shaft via a transmission belt, and one end of the transmission shaft is fixedly connected to one end of the traction roller.

[0011] Furthermore, the baffles are fixed around the outer walls of the agitator roller and the traction roller, and are symmetrically distributed at both ends of the center of the traction roller.

[0012] Furthermore, the support base includes a base plate, and support frames are fixed at both ends of the top surface of the base plate. Support rods are fixed at both ends of the bottom surface of the base plate, and pads are fixed at the bottom ends of the support rods. A pipe is fixed at the center of the bottom surface of the base plate, and a dyeing chamber is connected to the top end of the pipe.

[0013] Furthermore, the pipe is connected to the dyeing chamber, and the pipe and the base plate are fixed to the bottom of the dyeing chamber by a support frame.

[0014] Compared with the prior art, the beneficial effects of this utility model are:

[0015] This ATP textile yarn processing device uses a dyeing chamber inside the dyeing box and fills it with reactive dyes and ATP as the base materials. During the textile process, it can work with the traction wheels at both ends and the traction rollers in the dyeing chamber to provide traction force for the textile yarn, so that the textile yarn can enter the dyeing chamber stably and be dyed stably. Meanwhile, the agitator roller and the baffle plate on the outer wall of the traction roller rotate synchronously and in the same direction with the transmission, which can not only stably pull the textile yarn, but also uniformly mix the reactive dyes and ATP materials inside the chamber, thereby improving the dyeing uniformity and quality of the textile yarn.

[0016] This ATP textile processing device has a base plate fixed to the bottom of its dyeing box by a support frame, and the base plate is fixedly connected to the pad plate with support rods around its perimeter. During use, it can provide bottom support and stability for the entire device, while the central bottom-connected pipe can facilitate the subsequent discharge of dye, making it convenient for subsequent use and internal cleaning. Attached Figure Description

[0017] Figure 1 This is a three-dimensional structural diagram of the main frame of this utility model;

[0018] Figure 2 This is a three-dimensional structural diagram of the stirring roller of this utility model;

[0019] Figure 3 This is a three-dimensional structural diagram of the transmission box of this utility model;

[0020] Figure 4 This is a three-dimensional structural diagram of the support base of this utility model.

[0021] In the diagram: 1. Main frame; 101. Dyeing box; 102. Traction table; 103. Traction wheel; 104. Dyeing chamber; 105. Agitating roller; 106. Transmission box; 107. Connecting shaft; 108. Drive motor; 109. Transmission shaft; 110. Transmission belt; 111. Traction roller; 112. Pulley; 2. Support base; 201. Base plate; 202. Support frame; 203. Support rod; 204. Pad; 205. Pipe arrangement. Detailed Implementation

[0022] Embodiments of this disclosure will now be described in more detail with reference to the accompanying drawings. While some embodiments of this disclosure are shown in the drawings, it should be understood that this disclosure can be implemented in various forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided to provide a more thorough and complete understanding of this disclosure. It should be understood that the accompanying drawings and embodiments of this disclosure are for illustrative purposes only and are not intended to limit the scope of protection of this disclosure.

[0023] It should also be noted that, for ease of description, only the parts relevant to the utility model are shown in the accompanying drawings. Unless otherwise specified, the embodiments and features described in this disclosure can be combined with each other.

[0024] It should be noted that the concepts of "first" and "second" mentioned in this disclosure are used only to distinguish different devices, modules, or units, and are not used to limit the order of functions performed by these devices, modules, or units or their interdependencies.

[0025] It should be noted that the terms "a" and "a plurality of" used in this disclosure are illustrative rather than restrictive, and those skilled in the art should understand that, unless otherwise expressly indicated in the context, they should be understood as "one or more".

[0026] This disclosure will now be described in detail with reference to the accompanying drawings and embodiments.

[0027] This utility model provides, for example Figures 1-4 The ATP textile yarn processing device shown includes a main frame 1, a support base 2 fixed at the bottom of the main frame 1, a dyeing box 101, and traction tables 102 distributed at both ends of the top surface of the dyeing box 101. A traction wheel 103 is fixed in the center of the top surface of the traction table 102. A dyeing chamber 104 is opened inside the dyeing box 101. An agitator roller 105 is horizontally connected to the center of the dyeing chamber 104. A transmission box 106 is connected to one end of the agitator roller 105. A connecting shaft 107 is connected to the inside of the transmission box 106. A drive motor 108 is connected to one end of the connecting shaft 107. Transmission shafts 109 are distributed on both sides of the bottom of the transmission box 106. The transmission shafts 109 are connected to the connecting shafts 107 through a transmission belt 110. A traction roller 111 is connected to one end of the transmission shaft 109. A baffle plate 112 is arranged around the outer wall of the agitator roller 105 and the traction roller 111.

[0028] To ensure the dyeing stability and uniformity of contact with ATP materials during the processing of ATP textile yarns using this ATP yarn processing device, such as... Figures 1-3 As shown, this ATP textile yarn processing device uses a dyeing chamber 104 inside the dyeing box 101 and reactive dyes and ATP as the base materials. During textile processing, the traction rollers 103 at both ends and the traction rollers 111 inside the dyeing chamber 104 provide traction force to the textile yarn, allowing it to stably enter the dyeing chamber 104 for stable dyeing. The stirring roller 105 and the baffle plate 112 on the outer wall of the traction roller 111 rotate synchronously and in the same direction with the transmission, which not only stably tractions the textile yarn but also uniformly mixes the reactive dyes and ATP materials inside the chamber, improving the dyeing uniformity and quality of the textile yarn. While the traction roller 111 and the stirring roller 105 accelerate the mixing of the dye inside, they also frequently agitate the dye liquid, causing it to frequently come into contact with the input textile yarn, thereby improving the dyeing efficiency.

[0029] like Figure 4 As shown, the support base 2 includes a base plate 201, and support frames 202 are fixed at both ends of the top surface of the base plate 201. Support rods 203 are fixed at both ends of the bottom surface of the base plate 201, and pads 204 are fixed at the bottom ends of the support rods 203. A pipe 205 is fixed at the center of the bottom surface of the base plate 201, and the top end of the pipe 205 is connected to the dyeing chamber 104.

[0030] To maintain the structural stability of the overall device during the textile production process and to facilitate subsequent handling, such as Figure 4 As shown, the ATP textile yarn processing device has a base plate 201 fixed at the bottom of its dyeing box 101 by a support frame 202, and the base plate 201 is fixedly connected to the pad plate 204 with support rods 203 around its perimeter. During use, it can provide bottom support and stability for the entire device, while the central bottom-connected drain pipe 205 can facilitate the subsequent discharge of dye, making it convenient for subsequent use and internal cleaning.

[0031] In summary, when using this ATP textile yarn processing device, the user first guides the textile yarn to be dyed into the traction roller 111 inside the dyeing chamber 104 via the traction wheel 103, and then pulls it out from the traction wheel 103 at the other end, completing the arrangement of the textile yarn. Then, the required reactive dye and ATP material are placed inside the dyeing chamber 104. Subsequently, external traction force drives the textile yarn for transmission, while the drive motor 108 drives the shaft-connected connecting shaft 107 and the agitating roller 105 for synchronous transmission. Within the dyeing chamber 104, the reactive dye and ATP material are mixed and processed. The P material is mixed, and the connecting shaft 107 can also be driven by the transmission belt 110 and the transmission shaft 109, so that the transmission shaft 109 drives the traction roller 111 to rotate, providing further traction force for the textile thread. At the same time, the agitator roller 105 and the baffle plate 112 on the outer wall of the traction roller 111 can also mix the reactive dye and ATP material while rotating synchronously, and frequently contact the dye with the textile thread material, so that the dye comes into contact with the textile thread for dyeing. Then the textile thread is formed after dyeing and is pulled out by the traction wheel 103 at one end to complete the dyeing process.

[0032] The above description is merely a selection of preferred embodiments of this disclosure and an explanation of the technical principles employed. Those skilled in the art should understand that the scope of the utility model involved in the embodiments of this disclosure is not limited to the technical solutions formed by specific combinations of the above-described technical features, but should also cover other technical solutions formed by arbitrary combinations of the above-described technical features or their equivalents without departing from the above-described inventive concept. For example, technical solutions formed by substituting the above features with (but not limited to) technical features with similar functions disclosed in the embodiments of this disclosure.

Claims

1. An ATP textile yarn processing device, comprising a main frame (1), characterized in that, The bottom of the main frame (1) is fixed with a support base (2). The main frame (1) includes a dyeing box (101), and traction platforms (102) are distributed at both ends of the top surface of the dyeing box (101). A traction wheel (103) is fixed in the center of the top surface of the traction platform (102). A dyeing cavity (104) is opened inside the dyeing box (101). A stirring roller (105) is horizontally connected to the center of the cavity of the dyeing cavity (104). A transmission box (103) is connected to one end of the stirring roller (105). 06), and the transmission box (106) is internally connected to a connecting shaft (107), one end of the connecting shaft (107) is connected to a drive motor (108), the transmission box (106) is internally distributed with transmission shafts (109) on both sides of the bottom, and the transmission shafts (109) are connected to the connecting shafts (107) through a transmission belt (110), one end of the transmission shaft (109) is connected to a traction roller (111), and the outer walls of the stirring roller (105) and the traction roller (111) are surrounded by a baffle plate (112).

2. The ATP textile yarn processing apparatus according to claim 1, characterized in that, The traction table (102) is fixedly connected to the top two ends of the dyeing box (101), and ATP textile threads are connected between the traction wheels (103).

3. The ATP textile yarn processing apparatus according to claim 1, characterized in that, One end of the agitator roller (105) is connected to the drive motor (108) via a connecting shaft (107) to form a rotating structure, and the transmission shaft (109) and the connecting shaft (107) are rotatably engaged with the transmission box (106).

4. The ATP textile yarn processing apparatus according to claim 1, characterized in that, The connecting shaft (107) forms a transmission structure with the transmission shaft (109) via the transmission belt (110), and one end of the transmission shaft (109) is fixedly connected to one end of the traction roller (111).

5. The ATP textile yarn processing apparatus according to claim 1, characterized in that, The lever (112) is fixed around the outer wall of the stirring roller (105) and the traction roller (111), and the lever (112) is symmetrically distributed at both ends of the center of the traction roller (111).

6. The ATP textile yarn processing apparatus according to claim 1, characterized in that, The support base (2) includes a base plate (201), and support frames (202) are fixed at both ends of the top surface of the base plate (201). Support rods (203) are fixed at both ends of the bottom surface of the base plate (201), and pads (204) are fixed at the bottom ends of the support rods (203). A pipe (205) is fixed at the center of the bottom surface of the base plate (201), and a dyeing chamber (104) is connected to the top end of the pipe (205).

7. The ATP textile yarn processing apparatus according to claim 6, characterized in that, The pipe (205) is connected to the dyeing chamber (104), and the pipe (205) and the base plate (201) are fixed to the bottom of the dyeing chamber (104) by the support frame (202).