Cool-feel fabric wrinkle-resistant treatment device
By combining steam spraying, air pumping by a fan, and adjustment by an electric telescopic rod, the problems of uneven wetting and pressure in the anti-wrinkle treatment device for cool-feeling fabrics were solved, thus improving the anti-wrinkle effect and equipment performance.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ZHEJIANG LIHONG NEW MATERIAL TECH CO LTD
- Filing Date
- 2025-08-07
- Publication Date
- 2026-07-10
Smart Images

Figure CN224478236U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of fabric anti-wrinkle treatment technology, specifically a device for anti-wrinkle treatment of cool-feeling fabrics. Background Technology
[0002] As people's living standards improve, higher demands are placed on the functionality and comfort of clothing fabrics. Cooling fabrics, as a new type of functional fabric, are widely used in summer clothing and home textiles because they can provide a lasting cooling sensation. Cooling fabrics are usually made by adding special cooling materials, such as jade powder and bamboo charcoal, to the fibers, or by using special weaving processes to give the fabric good thermal conductivity, so that it can quickly absorb human body heat and achieve a cooling effect when in use. However, cooling fabrics often face a common problem in the production and use process, namely, poor wrinkle resistance.
[0003] Existing wrinkle-resistant treatment devices for cooling fabrics have the following main shortcomings:
[0004] Existing wrinkle-resistant treatment devices for cooling fabrics use a simple water spraying method, which makes it difficult to evenly and deeply wet the fibers of the cooling fabric, affecting the wrinkle-resistant effect. Furthermore, single heat treatment methods, such as hot pressing or hot air drying, are difficult to pre-treat the fabric evenly, resulting in inconsistent wetting of the fabric fibers and affecting the subsequent wrinkle-resistant effect. Moreover, most devices use rigid pressure plates to apply pressure directly. When the pressure plate comes into contact with cooling fabrics with large differences in flatness during the descent process, it cannot automatically adapt to the surface shape of the fabric, which will cause uneven pressure in some areas of the fabric. Utility Model Content
[0005] To overcome the above-mentioned defects, this utility model provides a device for treating wrinkles on cool-feeling fabrics, which solves the problems in the prior art.
[0006] To achieve the above objectives, this utility model provides the following technical solution: a cooling fabric anti-wrinkle treatment device, including a base, a control panel at the center of the front end face of the base, mounting frames at both sides and the center of the upper end face of the base, a fabric treatment structure at the center of the upper end face of the mounting frame, an anti-wrinkle treatment structure at the center of the lower end face of the mounting frame, and a stretching structure at the center of the interior of the base;
[0007] The fabric processing structure includes a water tank, which is located at the center of the upper end face of the central mounting bracket. Heaters are provided on both sides of the center of the lower inner wall of the water tank. A water inlet solenoid valve is provided at the center of the upper end face of the water tank. Water level detectors are provided at the upper center of the front inner wall and the upper center of the rear inner wall of the water tank.
[0008] As a further embodiment of this utility model: an air intake pump is provided on one side wall of the water tank at the upper end of the two water level detectors, and a fan pump is provided at the center of the air intake frame at the center of the upper end face of the mounting bracket on one side, and a filter screen is provided inside the air intake frame at the upper end of the fan pump.
[0009] As a further embodiment of this utility model: the output ends of the fan pump and the suction pump pass through the upper end face of the mounting bracket on one side, the inner wall of the water tank, and the upper end face of the mounting bracket on the other side, respectively, and are connected to the lower end of the mounting bracket. The ends are all fixedly connected to the output end pipes. Multiple nozzles are arranged in a front-to-back pattern at the lower center of one side wall of the output end pipe and the lower center of the other side wall of the output end pipe on the other side. All of the multiple nozzles are inclined.
[0010] As a further embodiment of this utility model: the anti-wrinkle treatment structure includes an electric telescopic rod, which is located at the center of the lower end face of the central mounting frame. A pressure plate is provided at the center of the lower end face of the electric telescopic rod. Sleeves are provided at the front and rear of the center of the lower end face of the central mounting frame. An inner tube is slidably connected to the center of the two sleeves. A placement platform is provided at the center of the lower inner wall of the base.
[0011] As a further embodiment of this utility model: one end of each of the two inner tubes is fixedly connected to the center of the upper surface of the pressure plate, and elastic blocks are provided at the four opposite corners of the lower surface of the pressure plate. Compression springs are sleeved on the outer sides of the four elastic blocks, and an ironing plate is provided at the center of the lower surface of the four elastic blocks.
[0012] As a further embodiment of this utility model: the stretching structure includes a feed inlet and a discharge outlet. The feed inlet is located at the center of one side wall of the base, and the discharge outlet is located at the center of the other side wall of the base. Three bearings are arranged in a triangular pattern at the center of the front inner wall and the center of the rear inner wall of the base. The twelve bearings are arranged in pairs, and a stretching rod is provided between the six pairs of bearings. A motor is provided at the center of the front end face of the base on one side and the center of the front end face on the other side.
[0013] As a further embodiment of this utility model: the two motors pass through the front end face of the base, the front bearing on one side and the front bearing on the other side, respectively, and are connected to the two bearings. The ends are respectively fixedly connected to one end of the tension rod on one side of the center inside the base and the other end of the tension rod on one side of the center inside the base. The two ends of the six motors are rotatably connected to the twelve bearings.
[0014] Compared with the prior art, the beneficial effects of this utility model are as follows:
[0015] 1. This utility model uses a heater to heat water in a tank and convert it into steam. An air pump then adsorbs the steam and delivers it through an output pipe to multiple angled nozzles. This allows for even and comprehensive spraying of steam onto the cooling fabric, initially wetting the fabric fibers and creating favorable physical conditions for subsequent wrinkle-resistant treatment. This allows the fabric to better absorb the energy required for the subsequent wrinkle-resistant treatment, resulting in a more ideal wrinkle-resistant effect. After the wrinkle-resistant treatment, a fan pump draws in external air, filters impurities through a filter, and then blows it evenly onto the fabric through the output pipe via multiple nozzles. This not only further moistens the stretched fabric to a suitable level but also reduces the impact of the equipment on subsequent wrinkle-resistant treatment equipment. The combination of steam and air pretreatment improves the initial state of the fabric and enhances the overall wrinkle-resistant treatment effect of the entire device.
[0016] 2. This utility model uses an electric telescopic rod to lower the pressure plate. The elastic block and compression spring automatically adjust the pressure plate according to the fabric's flatness, ensuring the pressing plate is evenly pressed onto the fabric. This helps eliminate wrinkles caused by uneven localized pressure, optimizing the anti-wrinkle process and resulting in a more uniform anti-wrinkle effect. To ensure the pressure plate descends smoothly and operates effectively, a sliding connection between the inner tube and the sleeve provides guidance and stability, effectively guaranteeing the stable operation of the pressure plate and indirectly improving the anti-wrinkle treatment effect. Simultaneously, it reduces the probability of equipment failure due to unstable factors, improving the overall performance and service life of the equipment. Attached Figure Description
[0017] Figure 1 This is a three-dimensional structural diagram of the present invention;
[0018] Figure 2 This is a three-dimensional orthographic structural diagram of the present invention;
[0019] Figure 3 This is a schematic diagram of the orthographic section of the present invention;
[0020] Figure 4 This is a three-dimensional side sectional view of the present invention.
[0021] In the diagram: 1. Base; 2. Control panel; 3. Mounting frame; 4. Fabric treatment structure; 401. Water tank; 402. Inlet solenoid valve; 403. Heater; 404. Suction pump; 405. Air inlet frame; 406. Filter screen; 407. Fan pump; 408. Output pipe; 409. Nozzle; 410. Water level detector; 5. Anti-wrinkle treatment structure; 501. Electric telescopic rod; 502. Sleeve; 503. Inner tube; 504. Pressure plate; 505. Elastic block; 506. Compression spring; 507. Ironing plate; 508. Placement platform; 6. Tensioning structure; 601. Feed inlet; 602. Discharge outlet; 603. Bearing; 604. Tensioning rod; 605. Motor. Detailed Implementation
[0022] The technical solution of this patent will be further described in detail below with reference to specific embodiments.
[0023] like Figures 1-4 As shown, the present invention provides the following technical solution:
[0024] Cooling fabric anti-wrinkle treatment device, including:
[0025] A base 1 has a control panel 2 at the center of its front end face. Mounting brackets 3 are located on both sides and at the center of the upper end face of the base 1. A fabric treatment structure 4 is located at the center of the upper end face of the mounting bracket 3. An anti-wrinkle treatment structure 5 is located at the center of the lower end face of the mounting bracket 3. A stretching structure 6 is located at the center of the interior of the base 1. The fabric treatment structure 4 includes a water tank 401, located at the center of the upper end face of the mounting bracket 3. Heaters 403 are located on both sides of the center of the lower inner wall of the water tank 401. A water inlet solenoid valve 402 is located at the center of the upper end face of the water tank 401. Water level detectors 410 are located at the upper center of both the front and rear inner walls of the water tank 401. The two water level detectors 410... An air intake pump 404 is installed on one side wall of the upper water tank 401. A fan pump 407 is installed at the center of the air intake frame 405 at the center of the upper end face of the mounting bracket 3 on one side. A filter screen 406 is installed inside the air intake frame 405 at the upper end of the fan pump 407. The output ends of the fan pump 407 and the air intake pump 404 pass through the upper end face of the mounting bracket 3 on one side, the inner side wall of the water tank 401 and the upper end face of the mounting bracket 3 on the other side respectively, and are connected to the lower end of the mounting bracket 3. The ends are all fixedly connected to the output end pipe 408. Multiple nozzles 409 are arranged in a front-to-back pattern at the lower center of the center of the side wall of the output end pipe 408 on one side and at the lower center of the center of the other side of the output end pipe 408 on the other side. All the nozzles 409 are inclined.
[0026] The water inside the water tank 401 is heated by the heater 403. As the water temperature gradually rises, the water transforms into steam. The suction pump 404 is activated to adsorb the steam inside the water tank 401 and transport it out through a pipeline. The adsorbed steam is delivered to multiple nozzles 409 through the output pipe 408. The multiple nozzles 409 evenly spray the cooling fabric that needs to be treated. The inclined arrangement of these nozzles 409 helps to more comprehensively and evenly cover the fabric with steam. The steam covering the fabric initially moistens the fabric fibers, creating favorable physical conditions for subsequent anti-wrinkle treatment. When the fabric is subjected to... After the anti-wrinkle treatment structure 5 is applied, external air is drawn in by starting the fan pump 407. The drawn-in air first passes through the filter screen 406 inside the air intake frame 405, which filters out impurities, dust, and other pollutants from the air. The purified air is then delivered to multiple nozzles 409 through the output pipe 408. The air is evenly blown onto the fabric through the multiple nozzles 409, making the fabric wet and preliminarily treated. This creates conditions for the subsequent anti-wrinkle treatment, putting the fabric in a more suitable anti-wrinkle state, which helps to improve the overall anti-wrinkle treatment effect and ensures that the cool-feeling fabric can ultimately meet the expected anti-wrinkle quality standards.
[0027] The wrinkle-resistant structure 5 includes an electric telescopic rod 501, which is located at the center of the lower end face of the central mounting bracket 3. A pressure plate 504 is located at the center of the lower end face of the electric telescopic rod 501. Sleeves 502 are located at the front and rear of the center of the lower end face of the central mounting bracket 3. Inner tubes 503 are slidably connected to the center of the inner end face of each sleeve 502. A placement platform 508 is located at the center of the lower inner wall of the base 1. One end of each of the two inner tubes 503 is fixedly connected to the center of the upper end face of the pressure plate 504. Elastic blocks 505 are located at the four opposite corners of the lower end face of the pressure plate 504. Compression springs 506 are sleeved on the outer sides of each of the four elastic blocks 505. An ironing plate 507 is located at the center of the lower end face of the four elastic blocks 505. When wrinkle-resistant treatment is required on the cooling fabric, the electric telescopic rod 501 extends downwards, driving the lower end face... As the pressure plate 504 descends, the inner tubes 503 inside the sleeves 502 located at the front and rear of the lower end face of the mounting frame 3 descend along with the pressure plate 504, serving as a guide and stabilizer to ensure a smooth descent. Elastic blocks 505 are located at the four opposite corners of the lower end face of the pressure plate 504, and compression springs 506 on the outer sides buffer and adjust pressure. When the pressure plate 504 descends to contact the cooling fabric, the elastic blocks 505 and compression springs 506 adjust their elasticity to a certain extent according to the fabric's smoothness, allowing the ironing plate 507 to press evenly onto the cooling fabric. The ironing plate 507 applies pressure and a certain temperature to the stretched cooling fabric, helping to eliminate wrinkles and make the fabric smoother, achieving the purpose of wrinkle-resistant treatment.
[0028] The tensioning structure 6 includes an inlet 601 and an outlet 602. The inlet 601 is located at the center of one side wall of the base 1, and the outlet 602 is located at the center of the other side wall of the base 1. Three bearings 603 are arranged in a triangular pattern at the center of the front inner wall and the center of the rear inner wall of the base 1 on both sides. The twelve bearings 603 are arranged in pairs. Tensioning rods 604 are arranged between the six pairs of bearings 603. Motors 605 are installed at the center of the front face of the base 1 on one side and the center of the front face on the other side. The two motors 605 pass through the front face of the base 1, the front face of the bearing 603 on one side and the front face of the bearing 603 on the other side, respectively, and are connected to the inside of the two bearings 603. The ends of the six motors 605 are respectively fixedly connected to one end of the tensioning rod 604 at the center of the base 1 on one side and the other end of the tensioning rod 604 at the center of the base 1 on one side. The two ends of the six motors 605 are rotatably connected to the inside of the twelve bearings 603.
[0029] The cooling fabric requiring anti-wrinkle treatment is fed into the inlet 601, and the processed fabric is output from the outlet 602, realizing a material circulation system for the entire device. The motors 605, located at one side of the front face center and the other side of the front face center, drive the bearings 603 at the front and other sides of the front inner wall center to rotate. These bearings, in turn, drive the tension rods 604 to rotate around the bearings 603. Because there are multiple tension rods 604, they work together to stretch the cooling fabric between the inlet 601 and the outlet 602. During stretching, the fabric is flattened, which facilitates pre-treatment by the fabric processing structure 4 and better anti-wrinkle treatment by the anti-wrinkle treatment structure 5. Stretching helps the fabric fibers to align more neatly, reducing wrinkles caused by internal stress. It also makes it easier to distribute pressure and heat evenly during anti-wrinkle treatment, improving the anti-wrinkle effect.
[0030] The working principle of this utility model is as follows: The cooling fabric requiring anti-wrinkle treatment is placed at the inlet 601. Then, motors 605 located at one side of the front face center and the other side of the front face center are started. These motors drive bearings 603 located at one side of the front inner wall center and the other side of the front inner wall center to rotate. These bearings, along with corresponding tension rods 604, rotate around the bearings 603. Because there are six sets of tension rods 604, they work together to stretch the cooling fabric from the inlet 601 towards the outlet 602. During this stretching process, the fabric is gradually flattened, and the internal fibers tend to be neatly arranged, reducing wrinkles caused by internal stress. This creates a good foundation for subsequent fabric processing and also facilitates a more even distribution of pressure and heat on the fabric during the subsequent anti-wrinkle treatment. This process continues until the fabric reaches a suitable pre-treatment position to await processing by the fabric processing structure 4.
[0031] When wrinkle-resistant treatment is required, the water inside the water tank 401 is heated by activating the heater 403. As the water temperature gradually rises, the water is converted into steam. The water level detector 410 monitors the water level in the water tank 401 in real time to ensure the normal operation of the heater 403 and the safe operation of the entire system. When the water level is abnormal, the water inlet solenoid valve 402 can adjust the water level. After steam is generated, the suction pump 404 is activated to adsorb the steam inside the water tank 401 and deliver it through the pipeline to the output pipe 408 to multiple inclined nozzles 409. These nozzles 409 spray the steam evenly onto the cool-feeling fabric that is in a stretched state and located in the corresponding position, initially wetting it and providing favorable moisture conditions for subsequent wrinkle-resistant treatment, making the fabric fibers easier to deform.
[0032] After the fabric has undergone pretreatment, when the fabric reaches the placement platform 508, the electric telescopic rod 501 extends downwards, causing the pressure plate 504 at the center of the lower end face to descend. During the descent of the pressure plate 504, the inner tubes 503 inside the sleeves 502 at the front and rear of the center of the lower end face of the mounting frame 3 descend along with the pressure plate 504, guiding and stabilizing its descent and ensuring a smooth descent above the cooling fabric. When the pressure plate 504 descends to contact the cooling fabric, the elastic block 505 and the compression spring 506 will elastically adjust according to the actual situation such as the flatness of the fabric. This adjustment ensures that the ironing plate 507 presses evenly on the stretched cooling fabric. The ironing plate 507 applies pressure and a certain temperature to it, and the pressure and heat help to effectively eliminate wrinkles in the fabric, making the fabric smoother and completing the main task of anti-wrinkle treatment.
[0033] After the fabric undergoes anti-wrinkle treatment, the blower pump 407 is activated, and external air is drawn into the air intake frame 405. The filter screen 406 inside the air intake frame 405 filters out impurities and dust and other pollutants in the air. The purified air is also delivered to multiple nozzles 409 through the output pipe 408 and blown evenly onto the fabric. This process further moistens the fabric, further improving the treatment effect and ensuring that better anti-wrinkle quality standards are achieved. Finally, the treated cool-feeling fabric is output through the discharge port 602.
[0034] Furthermore, the control method of this utility model is controlled by a controller. The control circuit of the controller can be implemented by simple programming by those skilled in the art. The power supply is also common knowledge in the art. Since this utility model is used to protect mechanical devices, the control method and circuit connection will not be explained in detail.
[0035] The preferred embodiments of the present invention have been described in detail above. However, the present invention is not limited to the above embodiments. Within the scope of knowledge possessed by those skilled in the art, various changes can be made without departing from the spirit of the present invention.
Claims
1. A device for treating wrinkles on cooling fabrics, characterized in that: Includes a base (1), a control panel (2) is provided at the center of the front end face of the base (1), mounting brackets (3) are provided at both sides and at the center of the upper end face of the base (1), a fabric treatment structure (4) is provided at the center of the upper end face of the mounting bracket (3), an anti-wrinkle treatment structure (5) is provided at the center of the lower end face of the mounting bracket (3), and a tension structure (6) is provided at the center of the interior of the base (1); The fabric processing structure (4) includes a water tank (401), which is located at the center of the upper end face of the central mounting bracket (3). Heaters (403) are provided on both sides of the center of the lower inner wall of the water tank (401). A water inlet solenoid valve (402) is provided at the center of the upper end face of the water tank (401). Water level detectors (410) are provided at the upper center of the front inner wall and the upper center of the rear inner wall of the water tank (401).
2. The cooling fabric anti-wrinkle treatment device according to claim 1, characterized in that: An air intake pump (404) is provided on one side wall of the upper water tank (401) of the two water level detectors (410). A fan pump (407) is provided at the center of the air intake frame (405) at the center of the upper end face of the mounting bracket (3) on one side. A filter screen (406) is provided inside the air intake frame (405) at the upper end of the fan pump (407).
3. The cooling fabric anti-wrinkle treatment device according to claim 2, characterized in that: The output ends of the fan pump (407) and the suction pump (404) pass through the upper end face of the mounting bracket (3) on one side, the inner wall of the water tank (401) and the upper end face of the mounting bracket (3) on the other side, respectively, and are connected to the lower end of the mounting bracket (3). The ends are all fixedly connected to the output end pipe (408). Multiple nozzles (409) are arranged in a front-to-back manner at the lower center of the side wall of the output end pipe (408) on one side and at the lower center of the other side wall of the output end pipe (408) on the other side. All the nozzles (409) are inclined.
4. The cooling fabric anti-wrinkle treatment device according to claim 1, characterized in that: The anti-wrinkle treatment structure (5) includes an electric telescopic rod (501), which is located at the center of the lower end face of the central mounting bracket (3). A pressure plate (504) is provided at the center of the lower end face of the electric telescopic rod (501). Sleeves (502) are provided at the front and rear of the center of the lower end face of the central mounting bracket (3). Inner tubes (503) are slidably connected at the center of the two sleeves (502). A placement platform (508) is provided at the center of the lower inner wall of the base (1).
5. The cooling fabric anti-wrinkle treatment device according to claim 4, characterized in that: One end of each of the two inner tubes (503) is fixedly connected to the center of the upper end face of the pressure plate (504). Each of the four opposite corners of the lower end face of the pressure plate (504) is provided with an elastic block (505). Each of the four elastic blocks (505) is fitted with a compression spring (506) on its outer side. An ironing plate (507) is provided at the center of the lower end face of the four elastic blocks (505).
6. The cooling fabric anti-wrinkle treatment device according to claim 1, characterized in that: The tensioning structure (6) includes a feed inlet (601) and a discharge outlet (602). The feed inlet (601) is located at the center of one side wall of the base (1), and the discharge outlet (602) is located at the center of the other side wall of the base (1). Three bearings (603) are arranged in a triangular pattern at the center of the front inner wall and the center of the rear inner wall of the base (1) on both sides. The twelve bearings (603) are arranged in pairs. Tensioning rods (604) are provided between the six pairs of bearings (603). Motors (605) are provided at the center of the front end face of the base (1) on one side and the center of the front end face on the other side.
7. The cooling fabric anti-wrinkle treatment device according to claim 6, characterized in that: The two motors (605) pass through the front end face of the base (1), the front bearing (603) on one side and the front bearing (603) on the other side, respectively, and are connected to the inside of the two bearings (603). The ends are respectively fixedly connected to one end of the tension rod (604) on one side of the center inside the base (1) and one end of the tension rod (604) on the other side of the center inside the base (1). The two ends of the six motors (605) are rotatably connected to the inside of the twelve bearings (603).