Efficient cloth washing device
By introducing rinsing components and filter plates to filter dirt in the fabric washing device, combined with the design of rotating frame and guide rollers, the problem of water tank pollution is solved, and efficient fabric cleaning and water resource recycling are achieved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- NANTONG XINJINJIANG PRINTING & DYEING CO LTD
- Filing Date
- 2025-08-20
- Publication Date
- 2026-06-26
AI Technical Summary
In existing fabric washing equipment, the spray pipes directly flush dirt into the washing tank, causing serious pollution of the water tank and requiring frequent water changes, which affects the washing quality.
Design an efficient fabric washing device that uses rinsing components and filter plates to filter and isolate dirt, combines a rotating frame and guide rollers for pre-washing and deep cleaning, and recovers water through a draining component to reduce pollution in the washing pool.
It achieves efficient pre-cleaning and deep cleaning of fabrics, reduces pollution in the washing pool, lowers the frequency of water replacement, and improves cleaning efficiency and effectiveness.
Smart Images

Figure CN224412092U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of fabric cleaning technology, and in particular to a high-efficiency fabric washing device. Background Technology
[0002] The textile washing industry is an important sector that mainly involves cleaning and treating various types of textiles, such as clothing, bedding, and home textiles.
[0003] Currently, Chinese patent CN222961746U, published on June 10, 2025, discloses a fabric washing device, including a washing tank containing washing water, multiple first guide rollers, two feed rollers, and two discharge rollers. A fixed arm is located on the upper side of the washing tank, near the discharge rollers, and a second guide roller is rotatably connected to the fixed arm. A third guide roller is rotatably connected inside the washing tank, below the second guide rollers. The fabric being transported between the third and second guide rollers is in a vertical transport state. Spray pipes are installed on the inner wall of the washing tank, on both the left and right sides of the fabric below the second guide rollers. Multiple nozzles, evenly spaced along the extension direction of the spray pipes, are located on the lower side of the spray pipes, spraying onto the fabric at the point where the fabric leaves the water surface. By using spray water to wash away the oil layer on the water surface around the fabric, the possibility of the fabric coming into contact with the oil layer on the water surface when transported upwards from below the water surface is reduced.
[0004] The above method uses a spray pipe to directly wash all the dirt on the fabric surface into the washing tank, resulting in a dirty interior and requiring frequent water changes to ensure the quality of subsequent washing. Utility Model Content
[0005] The purpose of this invention is to provide a high-efficiency fabric washing device that can pre-clean the fabric of dirt, recycle water into the washing tank, filter and isolate the surface dirt through the filter plate to reduce the impact on the inside of the washing tank, and make the washing in the washing tank more thorough and efficient.
[0006] The above-mentioned technical objective of this utility model is achieved through the following technical solution:
[0007] A high-efficiency fabric washing device is characterized by comprising a washing tank containing fabric, with ramps at both the inlet and outlet ends of the washing tank, a rinsing assembly at the inlet end, and a draining assembly at the outlet end. Filter plates are arranged parallel to each other above the ramps at both the inlet and outlet ends of the washing tank. The rinsing and draining assemblies are positioned above the corresponding filter plates and are attached to the upper and lower surfaces of the fabric. Multiple sets of guide rollers are arranged in the washing tank at equal intervals and staggered vertically. A rotating frame is provided between adjacent guide rollers in the upper and lower layers. Multiple sets of rotating rollers are arranged symmetrically on the rotating frame, and these multiple sets of rotating rollers are in contact with and attached to both sides of the fabric.
[0008] Preferably, the inlet end of the washing tank is provided with two layers of filter plates, which are arranged in a V-shape. Two sets of clamping rollers are provided at the beginning and end of each layer of filter plates, and a reversing roller is provided between the two layers of filter plates. The fabric passes through the space between the two sets of clamping rollers and the reversing roller in sequence along the V-shape. The two layers of filter plates are located below the corresponding fabric.
[0009] Preferably, the rinsing assembly includes multiple sets of rinsing nozzles, with at least two sets of rinsing nozzles corresponding to each filter plate. The rinsing nozzles are all horizontally arranged and obliquely impact both sides of the fabric.
[0010] Preferably, a set of movable rollers is fixedly installed above the washing pool at the end of the rinsing component and the beginning of the draining component.
[0011] Preferably, a baffle is provided below each group of filter plates.
[0012] Preferably, the rotating frame is arranged laterally within the washing tank, and each set of rotating frames is connected to a drive motor outside the washing tank, with the rotating frames on the same layer rotating synchronously.
[0013] Preferably, the draining assembly includes two sets of draining seats, and two sets of draining rollers are respectively arranged vertically between the two sets of draining seats, with the two sets of draining rollers clamped and arranged on the upper and lower surfaces of the fabric.
[0014] Preferably, the bottom of the two sets of drain seats is fixedly installed above the filter plate. The two sets of drain seats have vertically opened movable grooves inside. Two sets of screws are rotatably installed in the movable grooves. The two sets of screws are connected and fixed in the middle. The two sets of screws are symmetrically arranged and their threads are opposite to each other. Both ends of the two sets of drain rollers are threadedly connected to the screws in the two sets of drain seats. The two sets of drain rollers are synchronously centered and moved through the screws. A drive motor is installed at the top of the two sets of drain seats. The drive motor is connected to the screws through a drive.
[0015] Preferably, the outlet end of the washing pool is also provided with two sets of clamping rollers on the upper and lower sides of the fabric at the rear end of the water assembly.
[0016] In summary, this utility model has the following beneficial effects:
[0017] 1. This utility model achieves pre-cleaning of both sides of the fabric through a rinsing component, and filters and isolates the surface dirt through a filter plate to prevent it from directly entering the washing tank and causing pollution, thereby reducing the number of times the water in the washing tank needs to be replaced.
[0018] 2. This utility model achieves physical cleaning of the fabric by rotating and beating it through multiple sets of rotating frames, and achieves deeper cleaning through multiple sets of guide rollers, resulting in higher cleaning effect and efficiency.
[0019] 3. This utility model can clamp the fabric and squeeze out the water through the draining component, while dirt is still filtered and isolated by the filter plate, and water flows back to the washing pool through the slope. Attached Figure Description
[0020] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0021] Figure 2 This is a schematic diagram of the structure of the drainage component of this utility model. Detailed Implementation
[0022] The specific embodiments of this utility model will be further described below with reference to the accompanying drawings. These embodiments do not constitute a limitation on this utility model.
[0023] like Figure 1 The present invention discloses a high-efficiency fabric washing device, comprising a washing tank 1, a fabric 2 disposed in the washing tank 1, and slopes provided at both the inlet end 3 and the outlet end 4 of the washing tank 1. A rinsing component is provided at the inlet end 3 of the washing tank 1, and a draining component is provided at the outlet end 4 of the washing tank 1. Filter plates 5 are arranged parallel to each other above the slopes at both the inlet end 3 and the outlet end 4 of the washing tank 1. The rinsing component and the draining component are both disposed above the corresponding filter plates 5 and are attached to the upper and lower surfaces of the fabric 2. Multiple sets of guide rollers 6 are arranged at equal intervals and staggered vertically in the washing tank 1. A rotating frame 7 is provided between adjacent guide rollers 6 in the upper and lower layers. Multiple sets of rotating rollers 8 are arranged symmetrically in rotation on the rotating frame 7. The multiple sets of rotating rollers 8 are in contact with and attached to the two side surfaces of the fabric 2.
[0024] The inlet end 3 of the washing pool 1 is provided with two layers of filter plates 5, which are arranged in a V-shape. Two sets of clamping rollers 9 are provided at the beginning and end of the two layers of filter plates 5. A reversing roller 10 is provided between the two layers of filter plates 5. The fabric 2 passes through the space between the two sets of clamping rollers 9 and the reversing roller 10 in sequence along the V-shape. The two layers of filter plates 5 are located below the corresponding fabric 2.
[0025] The rinsing assembly includes multiple sets of rinsing nozzles 11. Each filter plate 5 is equipped with at least two sets of rinsing nozzles 11. The rinsing nozzles 11 are all horizontally arranged and impact the two sides of the fabric 2 at an angle, resulting in a better rinsing effect.
[0026] A set of movable rollers 12 are fixedly installed above the washing pool 1 at the end of the rinsing component and the beginning of the draining component to realize the reversal of the fabric 2.
[0027] Each filter plate 5 is equipped with a baffle 13 below it. The baffle 13 can block the dirt filtered above the filter plate 5, prevent it from falling into the washing pool 1, and is cleaned regularly.
[0028] The rotating frame 7 is horizontally rotatable inside the washing tank 1. Each set of rotating frames 7 is connected to a drive motor outside the washing tank 1, and the rotating frames 7 on the same layer rotate synchronously.
[0029] like Figure 2 As shown, the drain assembly includes two sets of drain seats 14, and two sets of drain rollers 15 are respectively arranged between the two sets of drain seats 14 along the upper and lower sides. The two sets of drain rollers 15 are clamped and arranged on the upper and lower sides of the fabric 2.
[0030] Two sets of drain seats 14 are fixedly installed on the bottom of the filter plate 5. The two sets of drain seats 14 have vertically opened movable grooves 16 inside. Two sets of screws 17 are rotatably installed in the movable grooves 16. The two sets of screws 17 are connected and fixed in the middle. The two sets of screws 17 are symmetrically arranged and their threads are opposite to each other. Both ends of the two sets of drain rollers 15 are threadedly connected to the screws 17 in the two sets of drain seats 14. The two sets of drain rollers 15 are synchronously centered and moved through the screws 17. The top of the two sets of drain seats 14 is equipped with a drive motor 18, which is connected to the screws 17.
[0031] Two sets of clamping rollers 9 are also provided at the outlet end 4 of the washing pool 1, at the rear end of the water assembly, on both the upper and lower sides of the fabric 2.
[0032] This invention uses a rinsing assembly to pre-clean both sides of the fabric 2 and filters out surface dirt through a filter plate 5, preventing it from directly entering the washing tank 1 and causing pollution, thereby reducing the number of times the water in the washing tank 1 needs to be replaced.
[0033] This invention uses multiple sets of rotating frames 7 to rotate and beat the fabric 2, thereby achieving physical cleaning of the fabric 2. Multiple sets of guide rollers 6 are used to achieve deeper cleaning, resulting in higher cleaning effect and efficiency.
[0034] This invention uses a draining component to clamp the fabric 2 and squeeze out the water, while dirt is still filtered and isolated by the filter plate 5, and the water flows back to the washing pool 1 through the slope.
[0035] The above description is merely a preferred embodiment of the present utility model and is not intended to limit the present utility model. Those skilled in the art can make various modifications or equivalent substitutions to the present utility model within its substance and protection scope, and such modifications or equivalent substitutions should also be considered to fall within the protection scope of the present utility model's technical solution.
Claims
1. A high-efficiency fabric washing device, characterized in that, The device includes a washing tank containing fabric. Both the inlet and outlet ends of the washing tank are equipped with ramps. A rinsing assembly is located at the inlet end, and a draining assembly is located at the outlet end. Filter plates are parallel to each other above the ramps at both the inlet and outlet ends. The rinsing and draining assemblies are positioned above the corresponding filter plates and are attached to the upper and lower surfaces of the fabric. Multiple sets of guide rollers are arranged at equal intervals and staggered vertically within the washing tank. A rotating frame is provided between adjacent guide rollers in the upper and lower layers. Multiple sets of rotating rollers are arranged symmetrically on the rotating frame, and these rotating rollers are in contact with and attached to both sides of the fabric.
2. The efficient fabric washing device according to claim 1, characterized in that: The inlet end of the washing pool is provided with two layers of filter plates, which are arranged in a V-shape. Two sets of clamping rollers are provided at the beginning and end of the two layers of filter plates. A reversing roller is provided between the two layers of filter plates. The fabric passes through the space between the two sets of clamping rollers and the reversing roller in sequence along the V-shape. The two layers of filter plates are located below the corresponding fabric.
3. The efficient fabric washing device according to claim 2, characterized in that: The rinsing assembly includes multiple sets of rinsing nozzles. Each filter plate is provided with at least two sets of rinsing nozzles. The rinsing nozzles are all horizontally arranged and impact both sides of the fabric at an angle.
4. The efficient fabric washing device according to claim 1, characterized in that: A set of movable rollers is fixedly installed above the washing pool at the end of the rinsing component and the beginning of the draining component.
5. The efficient fabric washing device according to claim 1, characterized in that: Each set of filter plates has a baffle installed below it.
6. The efficient fabric washing device according to claim 1, characterized in that: The rotating frame is horizontally rotatable inside the washing tank. Each set of rotating frames is connected to a drive motor outside the washing tank, and the rotating frames on the same layer rotate synchronously.
7. The efficient fabric washing device according to claim 1, characterized in that: The drain assembly includes two sets of drain seats, and two sets of drain rollers are respectively arranged vertically between the two sets of drain seats. The two sets of drain rollers are clamped and arranged on the upper and lower surfaces of the fabric.
8. The efficient fabric washing device according to claim 7, characterized in that: The two sets of drain seats are fixedly installed on the bottom of the filter plate. The two sets of drain seats have vertically opened movable grooves inside. Two sets of screws are rotatably installed in the movable grooves. The two sets of screws are connected and fixed in the middle. The two sets of screws are symmetrically arranged and their threads are opposite to each other. Both ends of the two sets of drain rollers are threadedly connected to the screws in the two sets of drain seats. The two sets of drain rollers are synchronously centered and moved through the screws. A drive motor is installed on the top of the two sets of drain seats. The drive motor is connected to the screws through a drive.
9. A high-efficiency fabric washing device according to claim 7, characterized in that: The outlet end of the washing tank is also equipped with two sets of clamping rollers on the upper and lower sides of the fabric at the rear end of the water assembly.