A cleaning device for waterless printing and dyeing of textile
By introducing a fixed structure of a frame and a fixed platform, along with a rotating brush design, into the textile cleaning device, the problem of fabric shifting during the cleaning process is solved, achieving a stable and efficient cleaning effect.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- JIANGSU XINKAIQI TEXTILE TECH DEV CO LTD
- Filing Date
- 2025-05-08
- Publication Date
- 2026-06-12
AI Technical Summary
In existing cleaning devices for water-saving dyeing and printing of textiles, the control panel is a flat structure and does not fix the fabric, which makes the fabric easy to shift or loosen under the friction of the brush bristles, affecting the cleaning effect.
The design incorporates a frame, top plate, brushing device, spraying assembly, and waste collection assembly. The fabric is secured by the cooperation of the frame and the fixed platform, and the fabric is stably cleaned by the combination of the rotating assembly and the spraying assembly. The wastewater is collected through the waste collection assembly.
It effectively prevents the fabric from shifting position during the washing process, improves the washing effect and efficiency, and ensures the thorough cleaning of textiles.
Smart Images

Figure CN224350925U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of textile printing and dyeing technology, and in particular to a cleaning device for low-water printing and dyeing production of textiles. Background Technology
[0002] Waterless dyeing technology is a dyeing technology designed to reduce water use and environmental pollution. This technology achieves waterless or even waterless dyeing through various methods, primarily including supercritical carbon dioxide dyeing, organic solvent dyeing, and non-aqueous dyeing. After dyeing, unfixed dyes, chemical auxiliaries, and impurities remain on the fabric surface, requiring washing to remove them. However, conventional cleaning equipment cannot perform large-scale cleaning of textiles.
[0003] Existing patent CN221441039U4 describes a cleaning device for low-water dyeing and printing of textiles. A motor drives a cleaning disc and brushes to clean the textiles. A connecting gear, in conjunction with a gear plate, rotates the device. This connecting gear drives a rotating mechanism along the gear plate, allowing the rotating mechanism to clean the textiles over a wide area. The continuous back-and-forth rotation ensures a more thorough cleaning. Simultaneously with the rotation of the connecting gear and gear plate, a second rotating shaft and a second connecting gear assist in the rotation, thus eliminating the need for manual adjustment of the textile's cleaning position.
[0004] However, in the process of using a cleaning device for low-water dyeing and printing of textiles with an existing patent, the operating plate used to place the fabric in the device has a planar structure and does not fix the fabric, which makes the fabric easy to shift or loosen under friction with the brush bristles, thus affecting the cleaning effect on the fabric. Utility Model Content
[0005] The purpose of this invention is to provide a cleaning device for low-water dyeing and printing of textiles, which solves the problem that the operating plate used to place the fabric in the aforementioned device is a planar structure and does not fix the fabric, causing the fabric to easily shift or loosen under friction with the brush bristles, thus affecting the cleaning effect of the fabric.
[0006] To achieve the above objectives, this utility model provides a cleaning device for low-water dyeing and printing of textiles, including a frame and a top plate. The top plate is fixedly installed on the frame. It also includes a brushing device, which comprises a drawer plate, a fixed platform, a clamping frame, a brush plate, a rotating assembly, and a spraying assembly. The frame is provided with a first drawer slot and a second drawer slot. The drawer plate is slidably installed on the second drawer slot and has multiple sets of drainage holes. The fixed platform is fixedly installed on the drawer plate, and the clamping frame engages with the fixed platform. The brush plate is rotatably installed on the top plate via the rotating assembly and has bristles. The spraying assembly is mounted on the frame.
[0007] The rotating assembly includes a rotating disk and a rotating shaft, with the rotating shaft rotatably mounted on the top plate; the rotating disk is fixedly mounted on the rotating shaft and fixedly connected to the brush plate.
[0008] The spray assembly includes a spray plate and a water inlet pipe. The spray plate is fixedly installed on the upright frame. The spray plate has a groove and multiple spray holes in the groove. The rotating shaft also passes through the spray plate. The water inlet pipe is connected to the spray plate.
[0009] The drawer plate is further provided with a mounting block and a drawer bracket. The mounting block is fixedly mounted on the drawer plate, and the drawer bracket is fixedly mounted on the mounting block.
[0010] The scrubbing device also includes a sludge collection component, which includes a sludge collection tank and a drain pipe. The sludge collection tank is fixedly installed on the support frame and located at the end of the support frame away from the top plate. The drain pipe is connected to the sludge collection tank.
[0011] This utility model discloses a washing device for low-water dyeing and printing of textiles. The device involves lifting a frame upwards and laying the dyed fabric flat on a fixed platform. The frame is then returned to its original position, securing the fabric to the platform. A drawer is used to pull a plate out of the second drawer slot and slide it into the first drawer slot, bringing the fabric into contact with the brush bristles. A water inlet pipe is connected to an external water source, allowing washing water to enter the spray plate and flow through the spray holes onto the fabric surface. Simultaneously, an external motor drives a rotating shaft, which in turn drives a rotating disk. This disk, in turn, causes four sets of brushes to rotate circumferentially, allowing the brush bristles to brush the fabric. Wastewater generated during the brushing process flows through the drain holes on the drawer plate into a collection tank, and is discharged through a drain pipe. The combination of the fixed platform and the frame prevents the fabric from shifting position during the brushing process. Attached Figure Description
[0012] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the accompanying drawings used in the description of the embodiments or the prior art will be briefly introduced below.
[0013] Figure 1 This is a schematic diagram of the overall structure of a cleaning device for low-water dyeing and printing of textiles according to this utility model.
[0014] Figure 2 This is a schematic diagram of the structure of the spray assembly of this utility model.
[0015] In the diagram: 101-Upright frame, 102-Top plate, 103-Drawer plate, 104-Fixed platform, 105-Frame, 106-Brush plate, 107-Brush bristles, 108-First drawer slot, 109-Second drawer slot, 110-Leakage hole, 111-Rotating disc, 112-Rotating shaft, 113-Spray plate, 114-Water inlet pipe, 115-Groove, 116-Spray hole, 117-Mounting block, 118-Drawer frame, 119-Sewage collection tank, 120-Sewage pipe. Detailed Implementation
[0016] The embodiments of the present invention are described in detail below. Examples of the embodiments are shown in the accompanying drawings. The embodiments described below with reference to the accompanying drawings are exemplary and intended to explain the present invention, but should not be construed as limiting the present invention.
[0017] The embodiment of this application is as follows:
[0018] Please see Figure 1-2 , Figure 1 This is a schematic diagram of the overall structure of a cleaning device for low-water dyeing and printing of textiles according to this utility model. Figure 2 This is a schematic diagram of the structure of the spray assembly of this utility model.
[0019] This utility model provides a cleaning device for low-water dyeing and printing of textiles: it includes a stand 101 and a top plate 102, and also includes a brushing device. The brushing device includes a drawer 103, a fixed platform 104, a frame 105, a brush 106, a rotating assembly, and a spraying assembly. The rotating assembly includes a rotating disk 111 and a rotating shaft 112. The spraying assembly includes a spray plate 113 and a water inlet pipe 114. The drawer 103 is also provided with a mounting block 117 and a drawer 118. The brushing device also includes a dirt collection assembly, which includes a dirt collection tank 119 and a drain pipe 120. The above solution solves the problem that in the above-mentioned device, the operating plate used to place the fabric is a planar structure and does not fix the fabric, which makes the fabric easy to shift or loosen under friction with the brush bristles, thus affecting the cleaning effect of the fabric.
[0020] In this embodiment, the cooperation between the fixed platform 104 and the card frame 105 prevents the fabric from shifting position during the washing process.
[0021] The support frame 101 is provided with a first drawer 108 and a second drawer 109. A drawer plate 103 is slidably mounted on the second drawer 109. The drawer plate 103 has multiple sets of drainage holes 110. A fixing platform 104 is fixedly mounted on the drawer plate 103. A locking frame 105 engages with the fixing platform 104. A brush plate 106 is rotatably mounted on the top plate 102 via the rotating assembly. The brush plate 106 has brush bristles 107. The spray assembly is mounted on the support frame 101. The first drawer 108 is located above the second drawer 109. The drawer plate 103 is a flat plate structure. The fixing platform 104 is welded to the drawer plate 103. The inner cross-section of the card frame 105 is slightly larger than the cross-section of the fixed platform 104. There are four sets of brush plates 106. By laying the fabric flat on the fixed platform 104, the card frame 105 is locked on the outside of the fixed platform 104, so that the fabric is fixed on the fixed platform 104. The draw plate 103 is moved from the second draw slot 109 to the first draw slot 108, so that the fabric comes into contact with the brush bristles 107. The fabric is sprayed by the spray assembly, and the brush bristles 107 on the brush plate 106 are driven by the rotating assembly to brush the fabric. Thus, the cooperation of the fixed platform 104 and the card frame 105 avoids the fabric from shifting position during the brushing process.
[0022] Secondly, the rotating shaft 112 is rotatably mounted on the top plate 102; the rotating disk 111 is fixedly mounted on the rotating shaft 112 and fixedly connected to the brush plate 106. The rotating shaft 112 is driven by an external motor, and the rotating disk 111 is welded to the bottom end of the rotating shaft 112. Four sets of brush plates 106 are arranged in a ring around the outer periphery of the rotating disk 111. The external motor drives the rotating shaft 112 to rotate, which in turn drives the rotating disk 111 to rotate, thereby causing the rotating disk 111 to drive the brush plate 106 to rotate circumferentially.
[0023] Furthermore, the spray plate 113 is fixedly installed on the upright frame 101. The spray plate 113 is provided with a groove 115, and multiple sets of spray holes 116 are provided in the groove 115. The rotating shaft 112 also passes through the spray plate 113. The water inlet pipe 114 is connected to the spray plate 113. The spray plate 113 is welded to the upright frame 101. The water inlet pipe 114 is located on the right side of the spray plate 113. By connecting the water inlet pipe 114 to an external water source, the washing water enters the spray plate 113 and flows out from the spray holes 116 on the spray plate 113, thereby spraying the fabric.
[0024] Furthermore, the mounting block 117 is fixedly mounted on the drawer plate 103; the drawer bracket 118 is fixedly mounted on the mounting block 117. The mounting block 117 is fixed to the drawer plate 103 by screws. The drawer bracket 118 has a U-shaped structure. Through the cooperation of the mounting block 117 and the drawer bracket 118, the drawer plate 103 can be pulled out.
[0025] Finally, the sludge collection tank 119 is fixedly installed on the support frame 101 and located at the end of the support frame 101 away from the top plate 102; the sewage pipe 120 is connected to the sludge collection tank 119, the sludge collection tank 119 has a square structure, and the sewage pipe 120 is equipped with a control valve. The sludge collection tank 119 facilitates the collection of sewage generated during the cleaning process, while the sewage pipe 120 can discharge the sewage in a concentrated manner.
[0026] In this embodiment, during use, the card frame 105 is lifted upwards, and the dyed fabric is laid flat on the fixing platform 104. Then, the card frame 105 is returned, fixing the fabric to the fixing platform 104. The drawer plate 103 is pulled out from the second draw slot 109 via the drawer 118, and then slid into the first draw slot 108. At this point, the fabric is in contact with the brush bristles 107. The water inlet pipe 114 is connected to an external water source, allowing washing water to enter the spray plate 113 and flow from the spray plate 113 onto the surface. The spray flows into the fabric surface through the spray holes 116, and at the same time, the rotating shaft 112 is driven to rotate by an external motor. The rotating shaft 112 drives the rotating disk 111 to rotate, and the rotating disk 111 drives the four sets of brush plates 106 to rotate circumferentially, so that the bristles 107 brush the fabric. The wastewater generated during the brushing process flows through the drain hole 110 on the drawer plate 103 into the sludge collection tank 119. The sewage pipe 120 discharges the wastewater. Thus, through the cooperation of the fixed platform 104 and the frame 105, the position of the fabric is prevented from shifting during the brushing process.
[0027] The above-disclosed embodiments are merely one or more preferred embodiments of this application and should not be construed as limiting the scope of this application. Those skilled in the art can understand that all or part of the processes for implementing the above embodiments and equivalent changes made in accordance with the claims of this application still fall within the scope of this application.
Claims
1. A cleaning device for low-water dyeing and printing of textiles, comprising a frame and a top plate, wherein the top plate is fixedly installed on the frame, characterized in that, It also includes a scrubbing device; The scrubbing device includes a drawer plate, a fixed platform, a frame, a brush plate, a rotating assembly, and a spray assembly. The upright frame is provided with a first drawer slot and a second drawer slot. The drawer plate is slidably installed on the second drawer slot and has multiple sets of drainage holes. The fixed platform is fixedly installed on the drawer plate, and the frame engages with the fixed platform. The brush plate is rotatably installed on the top plate via the rotating assembly and has brush bristles. The spray assembly is mounted on the upright frame.
2. The cleaning device for low-water dyeing and printing of textiles as described in claim 1, characterized in that, The rotating assembly includes a rotating disk and a rotating shaft, with the rotating shaft rotatably mounted on the top plate; the rotating disk is fixedly mounted on the rotating shaft and fixedly connected to the brush plate.
3. The cleaning device for low-water dyeing and printing of textiles as described in claim 2, characterized in that, The spray assembly includes a spray plate and a water inlet pipe. The spray plate is fixedly installed on the upright. The spray plate has a groove and multiple spray holes in the groove. The rotating shaft also passes through the spray plate. The water inlet pipe is connected to the spray plate.
4. The cleaning device for low-water dyeing and printing of textiles as described in claim 1, characterized in that, The drawer plate is also provided with a mounting block and a drawer bracket. The mounting block is fixedly mounted on the drawer plate, and the drawer bracket is fixedly mounted on the mounting block.
5. The cleaning device for low-water dyeing and printing of textiles as described in claim 1, characterized in that, The scrubbing device also includes a sludge collection component, which includes a sludge collection tank and a drain pipe. The sludge collection tank is fixedly installed on the support frame and located at the end of the support frame away from the top plate. The drain pipe is connected to the sludge collection tank.