A continuously washable fabric washing device

By designing a fabric cleaning device with cleaning and rinsing components, the problems of low efficiency and poor adaptability of existing equipment have been solved, achieving efficient continuous cleaning and reducing operating costs.

CN224468070UActive Publication Date: 2026-07-07ZHONGSHAN SHICHUN TEXTILE TECHNOLOGY IND CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHONGSHAN SHICHUN TEXTILE TECHNOLOGY IND CO LTD
Filing Date
2025-05-21
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Existing cleaning equipment is inefficient during continuous cleaning operations, failing to meet the demands of high-efficiency production. Furthermore, the equipment has poor adaptability, making it difficult to meet the cleaning requirements of different fabrics, resulting in excessively long cleaning cycles and increased operating costs.

Method used

Design a fabric cleaning device including a cleaning component and a rinsing component. The cleaning component includes a cleaning tank, a receiving box, a spray component, and a guide roller. The rinsing component includes a water collection pipe and a high-pressure rinsing nozzle. The fabric is pre-wetted by the spray component, and the high-pressure nozzle at the lower end of the water collection pipe performs rinsing. Combined with the brushing roller and the pressure roller, continuous cleaning and rinsing are achieved. The squeeze roller group completes the dehydration.

Benefits of technology

It enables efficient and continuous cleaning of fabrics, avoids the extra wetting process in the dry state, improves the cleaning effect and equipment adaptability, and reduces equipment maintenance and operating costs.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model provides a kind of fabric cleaning device of continuous washing, comprising: cleaning subassembly and flushing subassembly, two flushing subassemblies for flushing and washing the upper side part of fabric are installed on the upper side of cleaning subassembly, the cleaning subassembly includes cleaning tank and receiving box, the front end of the cleaning tank is fixed with receiving box for receiving washing water, the flushing subassembly includes water collector, fixed plate and high-pressure flushing spray head, compared with prior art, the utility model has the beneficial effects as follows: by setting cleaning subassembly, spray part can be pre-wetted before fabric reaches brush roller, which can avoid fabric in dry state to enter water and need to go through a wetting process, thereby avoiding the problem of not clean enough, by setting flushing subassembly, the lifting of cooperation brush roller can achieve relatively efficient and clean cleaning effect.
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Description

Technical Field

[0001] This utility model belongs to the field of fabric cleaning technology, and specifically relates to a fabric cleaning device that can continuously clean fabrics. Background Technology

[0002] Most cleaning equipment, when performing continuous cleaning operations, often fails to meet the demands of high-efficiency production, resulting in excessively long fabric cleaning cycles. This problem primarily stems from insufficient optimization of the cleaning process in the equipment design. For example, the recycling of the cleaning solution and the effective contact time of the cleaning brushes are inadequate, making it difficult to remove dirt promptly during the cleaning process. Secondly, poor equipment adaptability is also a drawback. Different fabrics have different cleaning requirements, and many machines can only clean specific fabrics, lacking versatility. This creates a contradiction between the diversity of fabric types and the limited scope of cleaning equipment in actual production.

[0003] Conventional solutions to these problems typically involve increasing maintenance frequency and customizing cleaning equipment. While these methods can improve cleaning efficiency and adaptability to some extent, they also incur additional equipment procurement and maintenance costs, increasing operational burden. Therefore, we aim to design a fabric cleaning device with a novel structure to address this issue. Utility Model Content

[0004] In view of the shortcomings of the existing technology, the purpose of this utility model is to provide a fabric cleaning device that can continuously clean fabrics, thereby solving the problems mentioned in the background art.

[0005] This utility model is achieved through the following technical solution: a fabric cleaning device that can be continuously cleaned, including: a cleaning component and a rinsing component. Two rinsing components for rinsing and cleaning the upper part of the fabric are installed on the upper side of the cleaning component. The cleaning component includes a cleaning tank and a receiving box. The front end of the cleaning tank is fixed with a receiving box for receiving rinsing water.

[0006] The flushing assembly includes a water collection pipe, a fixing plate, and high-pressure flushing nozzles. The left and right ends of the water collection pipe are rotatably mounted above the rear end of the cleaning tank via a fixing plate. Multiple high-pressure flushing nozzles for high-pressure flushing water spraying are fixed at the lower end of the water collection pipe.

[0007] In a preferred embodiment, the cleaning assembly further includes a drive module, a spray component, and a baffle. A spray component is fixed to the front of the upper end of the cleaning tank, and multiple water spray nozzles are fixed to the middle of the lower end of the spray component for pre-wetting the fabric. The spray component can pre-wet the fabric that is about to be continuously cleaned, which provides convenience for the subsequent cleaning of the fabric, eliminating the need for a further wetting process.

[0008] In a preferred embodiment, a drive module for providing power is installed on the right rear end of the cleaning tank, and a baffle for partitioning is provided in the middle of the interior of the cleaning tank.

[0009] In a preferred embodiment, the front end of the cleaning tank is separated by a baffle to form a storage tank two, and the rear end of the cleaning tank is separated by a baffle to form a storage tank one. The upper end of the baffle extends from front to back to form a through groove for connecting the storage tank two and the storage tank one.

[0010] In a preferred embodiment, the cleaning assembly further includes a water receiving plate, and the rear end of the cleaning tank is welded with a water receiving plate for receiving water. The cleaning assembly provides convenience for continuous cleaning of fabrics.

[0011] In a preferred embodiment, a guide roller 1 for guiding the fabric is rotatably mounted on the front side inside the washing tank, and a guide roller 2 is rotatably mounted on the front side inside the washing tank.

[0012] In a preferred embodiment, a brush roller for cleaning the lower part of the fabric is rotatably installed on the lower middle side of the cleaning tank, and a pressing roller for pressing the fabric down into the water is installed inside the rear end of the cleaning tank. The water receiving plate is set at a 30-degree angle, and a fine roller is rotatably installed at its front end for guiding the fabric.

[0013] In a preferred embodiment, a set of squeezing rollers for squeezing and dehydrating the fabric is provided on the upper rear side of the washing tank, and a guide roller is rotatably installed on the upper rear side of the water receiving plate.

[0014] In a preferred embodiment, the flushing assembly further includes an elastic abutment rod and a mounting bracket. The left and right ends of the mounting bracket are respectively fixedly connected to a fixed plate. An elastic abutment rod fitted with a spring is movably installed on the left and right sides of the lower end of the mounting bracket. The front end of the elastic abutment rod is fixedly connected to the rear end of the water collection pipe.

[0015] After adopting the above technical solution, the beneficial effects of this utility model are as follows: By setting up the cleaning components, in actual use, the fabric passes through guide roller 1 and guide roller 2 to reach the upper side of the brushing roller (the fabric can be directly rolled up for cleaning, thereby achieving the purpose of continuous cleaning), and the fabric located on the upper side of the brushing roller is placed at the lower end of the rinsing component. After brushing and rinsing, the fabric is immersed in the water below the surface for rinsing under the action of the lower pressure roller, and then guided to the squeezing roller group by the fine roller. Under the squeezing action of the squeezing roller group, the cleaning and dehydration are completed, and finally, under the action of guide roller 3, it moves into the subsequent drying equipment (in actual use, the drive module provides rotation power to guide roller 2, brushing roller and lower pressure roller through the transmission belt). The spray component can pre-wet the fabric before it reaches the brushing roller, which can avoid the fabric from needing to go through a wetting process when it enters the water in a dry state, thereby avoiding the problem of incomplete cleaning.

[0016] By setting up the rinsing components, in actual use, multiple high-pressure rinsing nozzles at the lower end of the water collection pipe can rinse the upper part of the fabric at the brush roller position. Combined with the lifting of the brush roller, a relatively efficient and clean cleaning effect can be achieved. The water collection pipe can swing back and forth with a relatively large range through the elastic abutment rod, so that multiple high-pressure rinsing nozzles can swing and rinse, reducing the reaction force on the mounting frame while also improving the rinsing effect. Attached Figure Description

[0017] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0018] Figure 1 This is a schematic diagram of the overall structure of a fabric cleaning device that can be continuously washed according to the present invention.

[0019] Figure 2 This is a schematic diagram of the cleaning component structure of a fabric cleaning device that can be continuously cleaned according to this utility model.

[0020] Figure 3 This is a schematic diagram of the internal structure of the cleaning component of a fabric cleaning device that can be continuously cleaned according to this utility model.

[0021] Figure 4 This is a schematic diagram of the rinsing component structure of a fabric cleaning device capable of continuous washing according to the present invention.

[0022] Figure 5This is a schematic diagram of the cross-sectional structure of the cleaning component of a fabric cleaning device that can be continuously cleaned according to this utility model.

[0023] In the diagram, 100-cleaning component, 110-drive module, 120-receiving box, 130-spraying component, 140-baffle, 150-storage tank one, 160-storage tank two, 170-water receiving plate, 180-cleaning tank, 181-guide roller one, 182-guide roller two, 183-brushing roller, 184-pressure roller, 185-squeezing roller group, 186-guide roller three;

[0024] 200-Flush assembly, 210-Water collection pipe, 220-Flexible abutment rod, 230-Mounting bracket, 240-Fixing plate, 250-High-pressure flushing nozzle. Detailed Implementation

[0025] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0026] Please see Figures 1 to 5 This utility model provides a technical solution: a fabric cleaning device that can be continuously washed, including: a cleaning component 100 and a rinsing component 200. Two rinsing components 200 for rinsing and cleaning the upper part of the fabric are installed on the upper side of the cleaning component 100. The cleaning component 100 includes a cleaning tank 180 and a receiving box 120. The front end of the cleaning tank 180 is fixed with a receiving box 120 for receiving rinsing water.

[0027] The flushing assembly 200 includes a water collection pipe 210, a fixing plate 240, and a high-pressure flushing nozzle 250. The left and right ends of the water collection pipe 210 are rotatably mounted above the rear end of the cleaning tank 180 via a fixing plate 240. Multiple high-pressure flushing nozzles 250 for high-pressure flushing water spraying are fixed at the lower end of the water collection pipe 210.

[0028] Please see Figures 1 to 3 as well as Figure 5 The cleaning assembly 100 also includes a drive module 110, a spray component 130, and a baffle 140. The spray component 130 is fixed to the front side of the upper end of the cleaning tank 180, and multiple water spray nozzles are fixed to the middle of the lower end of the spray component 130 for pre-wetting the fabric. The setting of the spray component 130 can pre-wet the fabric that is about to be continuously cleaned, which provides convenience for the subsequent cleaning of the fabric, eliminating the need for further wetting.

[0029] A drive module 110 for providing power is installed on the right rear end of the cleaning tank 180, and a baffle 140 for partitioning is provided in the middle of the interior of the cleaning tank 180.

[0030] The front end of the cleaning tank 180 is separated by a baffle 140 to form a second storage tank 160, and the rear end of the cleaning tank 180 is separated by a baffle 140 to form a first storage tank 150. The upper end of the baffle 140 runs from front to back to form a through groove to connect the second storage tank 160 and the first storage tank 150.

[0031] The cleaning assembly 100 also includes a water receiving plate 170. The water receiving plate 170 for receiving water is welded to the rear end of the cleaning tank 180. The cleaning assembly 100 provides convenience for continuous cleaning of fabrics.

[0032] A guide roller 181 for guiding the fabric is rotatably installed on the front side inside the washing tank 180, and a guide roller 182 is rotatably installed on the front side inside the washing tank 180.

[0033] A brush roller 183 for cleaning the lower part of the fabric is rotatably installed on the lower side of the middle of the cleaning tank 180. A pressure roller 184 for pressing the fabric into the water is installed inside the rear end of the cleaning tank 180. The water receiving plate 170 is set at a 30-degree angle, and a fine roller is rotatably installed at its front end for guiding the fabric.

[0034] The upper rear end of the washing tank 180 is equipped with a squeezing roller group 185 for squeezing and dewatering the fabric, and a guide roller 186 is rotatably installed on the rear upper end of the water receiving plate 170.

[0035] As the first embodiment of this utility model, by setting up the washing component 100, in actual use, the fabric passes through the first guide roller 181 and the second guide roller 182 to reach the upper side of the brushing roller 183 (the fabric can be directly rolled up for washing, thereby achieving the purpose of continuous washing). The fabric located on the upper side of the brushing roller 183 is placed at the lower end of the rinsing component 200. After brushing and rinsing, the fabric is immersed in the water below the surface for rinsing under the action of the lower pressure roller 184. Then, it is guided by the fine roller to the squeezing roller group. Under the squeezing action of the squeezing roller group, the washing and dehydration are completed. Finally, under the action of the third guide roller 186, it moves to the subsequent drying equipment (in actual use, the drive module 110 provides rotational power to the second guide roller 182, the brushing roller 183 and the lower pressure roller 184 through the transmission belt). The spray component 130 can pre-wet the fabric before it reaches the brushing roller 183. This can avoid the fabric from needing to go through a wetting process when it enters the water in a dry state, thereby avoiding the problem of incomplete cleaning.

[0036] Please see Figure 1 , Figure 4The flushing assembly 200 also includes an elastic abutment rod 220 and a mounting bracket 230. The left and right ends of the mounting bracket 230 are respectively fixedly connected to a fixing plate 240. An elastic abutment rod 220 fitted with a spring is movably installed on the left and right sides of the lower end of the mounting bracket 230. The front end of the elastic abutment rod 220 is fixedly connected to the rear end of the water collection pipe 210.

[0037] As a second embodiment of this utility model, based on the first embodiment described above, by setting up the rinsing assembly 200, in actual use, multiple high-pressure rinsing nozzles 250 at the lower end of the water collection pipe 210 can rinse the upper part of the fabric at the position of the washing roller 183. With the support of the washing roller 183, a more efficient and clean cleaning effect can be achieved. The water collection pipe 210 can achieve a relatively large range of back and forth swing through the elastic abutment rod 220, so that multiple high-pressure rinsing nozzles 250 can swing and rinse, reducing the reaction force on the mounting frame 230 while also improving the rinsing effect.

[0038] The above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.

Claims

1. A fabric cleaning device capable of continuous washing, comprising: A cleaning assembly (100) and a rinsing assembly (200) are characterized in that two rinsing assemblies (200) for rinsing and cleaning the upper part of the fabric are installed on the upper side of the cleaning assembly (100), and the cleaning assembly (100) includes a cleaning tank (180) and a receiving box (120), and the front end of the cleaning tank (180) is fixed with a receiving box (120) for receiving rinsing water. The flushing assembly (200) includes a water collection pipe (210), a fixing plate (240), and a high-pressure flushing nozzle (250). The left and right ends of the water collection pipe (210) are rotatably mounted above the rear end of the cleaning tank (180) via a fixing plate (240). Multiple high-pressure flushing nozzles (250) for high-pressure flushing water spraying are fixed at the lower end of the water collection pipe (210).

2. The fabric cleaning device capable of continuous washing as described in claim 1, characterized in that: The cleaning assembly (100) also includes a drive module (110), a spray component (130), and a baffle (140). The spray component (130) is fixed on the front side of the upper end of the cleaning tank (180), and multiple water spray nozzles are fixed in the middle of the lower end of the spray component (130) for pre-wetting the fabric.

3. The fabric cleaning device capable of continuous washing as described in claim 1, characterized in that: A drive module (110) for providing power is installed on the right rear end of the cleaning tank (180), and a baffle (140) for partitioning is provided in the middle of the interior of the cleaning tank (180).

4. The fabric cleaning device capable of continuous washing as described in claim 3, characterized in that: The front end of the cleaning tank (180) is separated by a baffle (140) to form a storage tank two (160), and the rear end of the cleaning tank (180) is separated by a baffle (140) to form a storage tank one (150). The upper end of the baffle (140) extends from front to back to form a through groove to connect the storage tank two (160) and the storage tank one (150).

5. The fabric cleaning device capable of continuous washing as described in claim 1, characterized in that: The cleaning assembly (100) also includes a water receiving plate (170), and the rear end of the cleaning tank (180) is welded with a water receiving plate (170) for receiving water.

6. The fabric cleaning device capable of continuous washing as described in claim 1, characterized in that: The front side of the cleaning tank (180) is rotatably equipped with a guide roller (181) for guiding the fabric, and the front side of the cleaning tank (180) is rotatably equipped with a guide roller (182).

7. The fabric cleaning device capable of continuous washing as described in claim 5, characterized in that: The washing tank (180) has a brush roller (183) rotatably installed on the lower middle side for washing the lower part of the fabric. The washing tank (180) has a pressing roller (184) installed inside the rear end for pressing the fabric down into the water. The water receiving plate (170) is set at a 30-degree angle, and a fine roller is rotatably installed at its front end for guiding the fabric.

8. The fabric cleaning device capable of continuous washing as described in claim 7, characterized in that: The upper rear end of the washing tank (180) is provided with a squeezing roller group (185) for squeezing and dehydrating the fabric, and the upper rear end of the water receiving plate (170) is rotatably mounted with a guide roller three (186).

9. The fabric cleaning device capable of continuous washing as described in claim 1, characterized in that: The flushing assembly (200) also includes an elastic abutment rod (220) and a mounting bracket (230), the left and right ends of which are respectively fixedly connected to a fixing plate (240); On the lower left and right sides of the mounting bracket (230), there are elastic abutment rods (220) fitted with springs respectively. The front end of the elastic abutment rod (220) is fixedly connected to the rear end of the water collection pipe (210).