A cleaning device for garment processing
By using a partition to separate the inner drum and the guide hole design in the cleaning equipment, the problems of clothes tangling and detergent residue are solved, achieving efficient and uniform cleaning results and improving the quality of the finished product.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GANSU YUNJINSHANG TECHNOLOGY CO LTD
- Filing Date
- 2025-07-28
- Publication Date
- 2026-06-30
AI Technical Summary
In existing garment cleaning equipment, clothes are easily tangled and laundry detergent is unevenly distributed, resulting in residues that affect cleaning efficiency and the appearance of the finished product.
The inner drum is divided into multiple compartments by partitions. Clothes are placed in the compartments and washed by rotating the inner drum. The detergent mixes with the water through the guide hole and then enters the inner drum, avoiding direct contact between the clothes and the detergent and excessive local concentration.
It effectively prevents clothes from tangling and detergent residue, improves washing quality, ensures that each garment is evenly exposed to water and detergent, and reduces wrinkles and damage.
Smart Images

Figure CN224431028U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of garment processing technology, and in particular to a cleaning device for garment processing. Background Technology
[0002] In modern garment processing and finishing techniques, garment cleaning is a crucial step in ensuring finished product quality and improving wearing comfort. Especially in mass production, garment cleaning equipment is widely used to remove impurities, oil stains, dye residues, and improve the feel of fabrics.
[0003] First, the tendency for clothes to tangle is a common problem with current washing equipment. Inside the washing drum, due to the flexible structure and rotation of the clothing, different garments are prone to tangling and knotting. This not only prevents some areas from fully contacting the water and detergent, creating cleaning blind spots, but also reduces overall washing efficiency.
[0004] Secondly, most current washing equipment uses the method of directly pouring laundry detergent into the drum or spraying it onto the surface of the clothes. This method can easily lead to uneven distribution of laundry detergent, with excessively high concentrations in some areas, resulting in obvious detergent residue on the clothes (such as white marks or chemical damage), affecting the appearance of the finished product.
[0005] Therefore, it is necessary to provide a cleaning device for garment processing to solve the problems mentioned in the background art. Utility Model Content
[0006] To address the aforementioned problems, this application provides a garment cleaning device to solve the issues raised in the background art, such as garments becoming tangled during washing and detergent residue easily forming when in direct contact with the garment.
[0007] To achieve the objectives of this application, the following technical solution is provided:
[0008] This application provides a garment cleaning device, comprising: a protective shell and a cleaning mechanism, wherein the cleaning mechanism is installed inside the protective shell; specifically, the cleaning mechanism includes an outer cylindrical unit fixedly disposed within the protective shell, a bearing seat fixedly disposed at the upper center position of the outer cylindrical unit, a support plate fixedly disposed at the upper end of the bearing inner ring of the bearing seat, an inner cylindrical unit fixedly disposed on the support plate, and a motor fixedly disposed within the protective shell, wherein a connecting unit is fixedly disposed at the output end of the motor, and the connecting unit is circumferentially fixedly disposed with the bearing inner ring of the bearing seat. The connecting unit is inserted into the support plate and fixed to the inner cylinder unit by screws. A drain pipe is provided at the lower end of the outer cylinder unit. The inner cylinder unit includes an inner cylinder installed on the support plate and the connecting unit. A through hole is opened in the circumferential direction of the inner cylinder. A sleeve is fixedly installed at the center of the inner cylinder. Multiple partitions are evenly fixed in the circumferential direction of the sleeve. The end of the partition away from the sleeve is fixedly installed to the inner circumferential direction of the inner cylinder. Multiple second through holes are evenly opened on the partition.
[0009] In one possible implementation, a first central hole is axially extended through the center of the sleeve, and multiple slots are uniformly formed around the sleeve within the first central hole. Multiple first threaded holes are uniformly formed at the upper end of the sleeve.
[0010] In one possible implementation, the connecting unit includes a central column fixedly disposed with the inner ring of the bearing housing, and the central column is coaxially fixed with the output end of the motor. A plurality of protrusions corresponding to the slots are fixedly disposed on the circumferential direction of the central column, and a second central hole is opened at the center position of the central column. A plurality of second threaded holes corresponding to the first threaded holes are evenly opened at the upper end of the central column, and a plurality of guide holes are evenly opened on the circumferential direction of the central column located between the upper end of the support plate and the lower end of the inner cylinder. The guide holes are connected to the second central hole.
[0011] In one possible implementation, both the first threaded hole and the second threaded hole are threadedly connected to the screw.
[0012] In one possible implementation, the tray includes a disc body disposed on the upper end of the bearing seat. A first through hole is formed through the center of the disc body, and a groove is formed at the upper end of the disc body. A plurality of first mounting holes and a plurality of connecting grooves are uniformly formed on the disc body located between the first through hole and the groove. The connecting grooves are corresponding to the guide holes. A plurality of downflow holes are uniformly formed on the disc body located inside the groove, and a plurality of second mounting holes are uniformly formed on the disc body located outside the groove.
[0013] In one possible implementation, the bearing inner ring of the bearing housing is fixedly connected to the disc body via a bolt group and the first mounting hole, the inner cylinder is fixedly connected to the disc body via the bolt group and the second mounting hole, and the central column passes through the first through hole.
[0014] In one possible implementation, a control unit is mounted on the protective housing, the motor is connected to the control unit, and the control unit is connected to a connecting line.
[0015] In one possible implementation, a water inlet pipe is fixedly installed on the protective shell, and valve bodies are installed inside both the water inlet pipe and the drain pipe, and the valve bodies are connected to the control unit.
[0016] The beneficial effects of this utility model are:
[0017] 1. This utility model divides the inner drum into multiple compartments by partitions, and then puts clothes into each compartment. The rotating inner drum is used to wash the clothes, so that the clothes in each compartment have independent space, avoiding direct contact and tangling between the clothes. This not only reduces wrinkles and damage caused by tangling during the washing process, but also ensures that each piece of clothing receives sufficient water flow and detergent.
[0018] 2. This utility model allows laundry detergent to be poured into the second central hole. The detergent flows sequentially along the guide hole, the connecting groove, the tank body, and the downflow hole to the space between the inner and outer drum units. This allows the detergent to mix with the water first, avoiding the problem of excessively high local concentration caused by directly pouring the detergent onto the clothes. It also reduces the possibility of detergent residue and ensures the washing quality of the clothes. Attached Figure Description
[0019] The accompanying drawings are provided to further understand this application and form part of the specification. They are used together with the embodiments of this application to explain this application and do not constitute a limitation thereof.
[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 cleaning mechanism in this utility model;
[0022] Figure 3 This is a schematic diagram of the inner cylinder unit in this utility model;
[0023] Figure 4 This is a cross-sectional structural diagram of the inner cylinder unit in this utility model;
[0024] Figure 5for Figure 4 Enlarged structural diagram at point A;
[0025] Figure 6 for Figure 4 Enlarged structural diagram at point B;
[0026] Figure 7 This is a cross-sectional structural diagram of the outer cylindrical unit in this utility model;
[0027] Figure 8 This is a schematic diagram of the connecting unit in this utility model;
[0028] Figure 9 This is a schematic diagram of the structure of the tray in this utility model;
[0029] Reference numerals: 1. Protective shell; 2. Cleaning mechanism; 3. Control unit; 4. Water inlet pipe; 5. Connecting line; 21. Outer cylinder unit; 22. Bearing seat; 23. Support plate; 24. Inner cylinder unit; 25. Screw; 26. Motor; 27. Connecting unit; 28. Drain pipe; 231. Disc; 232. First through hole; 233. Tank; 234. First mounting hole; 235. Connecting groove; 236. Downflow hole; 237. Second mounting hole; 241. Inner cylinder; 242. Guide hole; 243. Sleeve; 244. Partition plate; 245. Second through hole; 246. First center hole; 247. Slot; 248. First threaded hole; 271. Center post; 272. Protrusion; 273. Second center hole; 274. Second threaded hole; 275. Guide hole. Detailed Implementation
[0030] To make the objectives, technical solutions, and advantages of this application clearer, the technical solutions of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, not all embodiments. Based on the embodiments of this application, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this application.
[0031] The terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature; in the description of this application, unless otherwise stated, "multiple" means three or more.
[0032] Figures 1-9A garment cleaning device provided in this application includes: a protective shell 1 and a cleaning mechanism 2. The cleaning mechanism 2 is installed inside the protective shell 1. Specifically, the cleaning mechanism 2 includes an outer cylinder unit 21 fixedly installed inside the protective shell 1. A bearing seat 22 is fixedly installed at the upper center of the outer cylinder unit 21. A support plate 23 is fixedly installed at the upper end of the inner ring of the bearing seat 22. An inner cylinder unit 24 is fixedly installed on the support plate 23. A motor 26 is fixedly installed inside the protective shell 1. A connecting unit 27 is fixedly installed at the output end of the motor 26. The connecting unit 27 is circumferentially fixed to the inner ring of the bearing seat 22, and the connecting unit 27 passes through... The connecting unit 27 is fixedly installed in the tray 23 and the inner cylinder unit 24 by screws 25. The lower end of the outer cylinder unit 21 is provided with a drain pipe 28. The inner cylinder unit 24 includes an inner cylinder 241 installed on the tray 23 and the connecting unit 27. The inner cylinder 241 is provided with through holes 242 in the circumferential direction. A sleeve 243 is fixedly installed at the center of the inner cylinder 241. Multiple partitions 244 are evenly fixedly installed in the circumferential direction of the sleeve 243. The end of the partition 244 away from the sleeve 243 is fixedly installed in the inner circumferential direction of the inner cylinder 241. Multiple second through holes 245 are evenly opened on the partition 244.
[0033] Through the above technical solution, the partition 244 can divide the inner drum 241 into multiple compartments. Clothes are then placed into each compartment in turn. After water is supplied to the outer drum unit 21, the water flows into the inner drum 241 through the guide hole 242 and the second through hole 245. After the water supply is completed, the motor 26 is started. The motor 26 drives the connecting unit 27, the tray 23 and the inner drum 241 to rotate synchronously and wash the clothes. This ensures that the clothes in each compartment have independent space, avoiding direct contact and tangling between the clothes. This not only reduces wrinkles and damage caused by tangling during the washing process, but also ensures that each piece of clothing receives sufficient water flow and detergent.
[0034] In one possible implementation, a first central hole 246 is axially extended through the center of the sleeve 243, and a plurality of slots 247 are uniformly provided circumferentially within the first central hole 246 of the sleeve 243, and a plurality of first threaded holes 248 are uniformly provided at the upper end of the sleeve 243.
[0035] In one possible implementation, the connecting unit 27 includes a central column 271 fixedly disposed with the inner ring of the bearing housing 22, and the central column 271 is coaxially fixed with the output end of the motor 26. A plurality of protrusions 272 corresponding to the slot 247 are fixedly disposed on the circumference of the central column 271, and a second central hole 273 is opened at the center position of the central column 271. A plurality of second threaded holes 274 corresponding to the first threaded hole 248 are evenly opened at the upper end of the central column 271, and a plurality of guide holes 275 are evenly opened on the circumference of the central column 271 located between the upper end of the support plate 23 and the lower end of the inner cylinder 241. The guide holes 275 are connected to the second central hole 273.
[0036] Using the above technical solution, after aligning the slot 247 with the protrusion 272, slowly place the inner cylinder 241 on the central column 271. At this time, the first central hole 246 is aligned with the second central hole 273, and the first threaded hole 248 is aligned with the second threaded hole 274.
[0037] In one possible implementation, both the first threaded hole 248 and the second threaded hole 274 are threadedly connected to the screw 25. After aligning the first threaded hole 248 and the second threaded hole 274, the inner cylinder unit 24 and the connecting unit 27 can be fixed by sequentially screwing each screw 25 into the first threaded hole 248 and the second threaded hole 274.
[0038] In one possible implementation, the tray 23 includes a disc 231 disposed on the upper end of the bearing seat 22. A first through hole 232 is formed at the center of the disc 231, and a groove 233 is formed at the upper end of the disc 231. A plurality of first mounting holes 234 and a plurality of connecting grooves 235 are evenly formed on the disc 231 between the first through hole 232 and the groove 233. The connecting grooves 235 correspond to the guide holes 275. A plurality of downstream holes 236 are evenly formed on the disc 231 within the groove 233, and a plurality of downstream holes 236 are evenly formed on the outer side of the groove 233. The disc body 231 is evenly provided with multiple second mounting holes 237. That is, after the tray 23 is fixed to the bearing inner ring of the bearing seat 22, the inner cylinder unit 24 is fixed to the tray 23. When the laundry detergent is poured into the second central hole 273, the laundry detergent flows sequentially along the guide hole 275, the connecting groove 235, the groove 233, and the downflow hole 236 to the space between the inner cylinder 241 and the outer cylinder unit 21. After water is injected into the outer cylinder unit 21, the laundry detergent is preferentially mixed with the water flow, which avoids the problem of excessive local concentration caused by directly pouring the laundry detergent onto the clothes, reduces the possibility of laundry detergent residue, and ensures the washing quality of the clothes.
[0039] In one possible implementation, the inner ring of the bearing housing 22 is fixed to the disc body 231 by a bolt group and the first mounting hole 234, the inner cylinder 241 is fixed to the disc body 231 by the bolt group and the second mounting hole 237, and the central column 271 passes through the first through hole 232. That is, the disc body 231 is placed on the bearing housing 22, and then the bearing housing 22 is fixed to the disc body 231 by the bolt group and the first mounting hole 234. Then the inner cylinder 241 is placed on the disc body 231, and the bearing housing 22 is fixed to the disc body 231 by the bolt group and the second mounting hole 237, so that the rotation of the central column 271 can drive the disc body 231 and the inner cylinder 241 to rotate as a whole.
[0040] In one possible implementation, a control unit 3 is mounted on the protective housing 1, the motor 26 is connected to the control unit 3, and the control unit 3 is connected to the connecting line 5. After the connecting line 5 is connected to the power supply, the control unit 3 and the motor 26 are powered on, and the start and stop of the motor 26 can be controlled by the control unit 3.
[0041] In one possible implementation, a water inlet pipe 4 is fixedly installed on the protective shell 1. A valve body is installed in both the water inlet pipe 4 and the drain pipe 28, and the valve body is connected to the control unit 3. The control unit 3 can control the opening and closing of the valve bodies in the water inlet pipe 4 and the drain pipe 28.
[0042] Working principle:
[0043] After the partition 244 divides the inner drum 241 into multiple compartments, clothes are placed into each compartment in sequence, and laundry detergent is poured into the second central hole 273. The laundry detergent flows sequentially along the guide hole 275, the connecting groove 235, the groove body 233, and the downflow hole 236 to the space between the inner drum 241 and the outer drum unit 21. Then, the connecting wire 5 is connected to the power supply, and the control unit 3 opens the valve of the water inlet pipe 4, supplying water to the outer drum unit 21 and the inner drum 241. After the water supply is completed, the valve of the water inlet pipe 4 is closed, and the start motor 26 is controlled. The motor 26 drives the shaft support plate 23 and the inner drum 241 to rotate through the central column 271 and wash the clothes. After the washing is completed, the motor 26 is turned off, the valve in the drain pipe 28 is opened to drain the sewage, and then the valve in the drain pipe 28 is closed again. Then the washing machine is turned on again. Open the valve of the water inlet pipe 4 to supply clean water into the outer cylinder unit 21 and the inner cylinder 241. After the water supply is completed, close the valve of the water inlet pipe 4 and control the start motor 26. The motor 26 drives the shaft support plate 23 and the inner cylinder 241 to rotate through the central column 271 and perform a second cleaning of the clothes. After the cleaning is completed, close the motor 26, open the valve in the drain pipe 28 to drain the sewage, and then close the valve in the drain pipe 28. Repeat the water injection and cleaning process at least two to three times. After the cleaning is completed, close the motor 26, open the valve in the drain pipe 28 to drain the sewage, and start the motor 26 again. The motor 26 drives the shaft support plate 23 and the inner cylinder 241 to rotate through the central column 271 and spin-dry the clothes. The water flows out along the drain pipe 28. Then, take the clothes out of each compartment and air dry them.
[0044] The above embodiments are only used to illustrate the technical solutions of this application, and are not intended to limit it. This application is not limited to the exact structures described above and illustrated in the accompanying drawings, and it should not be considered that the specific implementation of this application is limited to these descriptions. For those skilled in the art, various changes and modifications made without departing from the concept of this application should be considered to fall within the protection scope of this application.
Claims
1. A cleaning apparatus for garment processing, comprising: A protective shell (1) and a cleaning mechanism (2) are characterized in that a cleaning mechanism (2) is installed inside the protective shell (1); specifically, the cleaning mechanism (2) includes an outer cylindrical unit (21) fixedly installed inside the protective shell (1), a bearing seat (22) is fixedly installed at the upper center of the outer cylindrical unit (21), a support plate (23) is fixedly installed at the upper end of the bearing inner ring of the bearing seat (22), an inner cylindrical unit (24) is fixedly installed on the support plate (23), and a motor (26) is fixedly installed inside the protective shell (1), a connecting unit (27) is fixedly installed at the output end of the motor (26), the circumferential direction of the connecting unit (27) is fixedly installed with the bearing inner ring of the bearing seat (22), and the connecting unit (27) passes through the support plate (23). The connecting unit (27) is fixedly installed to the inner cylinder unit (24) by screws (25), and the lower end of the outer cylinder unit (21) is provided with a drain pipe (28); the inner cylinder unit (24) includes an inner cylinder (241) installed on the support plate (23) and the connecting unit (27), and the inner cylinder (241) is provided with through holes (242) in the circumferential direction, and a sleeve (243) is fixedly installed at the center of the inner cylinder (241), and multiple partitions (244) are evenly fixedly installed in the circumferential direction of the sleeve (243), and the end of the partition (244) away from the sleeve (243) is fixedly installed in the inner circumferential direction of the inner cylinder (241), and multiple second through holes (245) are evenly opened on the partition (244).
2. The cleaning apparatus for clothes processing according to claim 1, wherein The sleeve (243) has a first central hole (246) extending axially through its center position, and the sleeve (243) located in the first central hole (246) has a plurality of slots (247) evenly distributed around its circumference, and the upper end of the sleeve (243) has a plurality of first threaded holes (248) evenly distributed.
3. The cleaning apparatus for clothes processing according to claim 2, wherein The connecting unit (27) includes a central column (271) fixedly disposed with the inner ring of the bearing housing (22), and the central column (271) is coaxially fixed with the output end of the motor (26). A plurality of protrusions (272) corresponding to the slot (247) are fixedly disposed on the circumference of the central column (271), and a second central hole (273) is opened at the center position of the central column (271). A plurality of second threaded holes (274) corresponding to the first threaded hole (248) are evenly opened at the upper end of the central column (271), and a plurality of guide holes (275) are evenly opened on the circumference of the central column (271) located between the upper end of the support plate (23) and the lower end of the inner cylinder (241), and the guide holes (275) are connected to the second central hole (273).
4. The garment cleaning equipment according to claim 3, characterized in that, Both the first threaded hole (248) and the second threaded hole (274) are threadedly connected to the screw (25).
5. The garment cleaning equipment according to claim 3, characterized in that, The tray (23) includes a disc (231) disposed on the upper end of the bearing seat (22). A first through hole (232) is provided through the center of the disc (231), and a groove (233) is provided at the upper end of the disc (231). A plurality of first mounting holes (234) and a plurality of connecting grooves (235) are uniformly provided on the disc (231) located between the first through hole (232) and the groove (233). The connecting grooves (235) are correspondingly provided with the guide holes (275). A plurality of downflow holes (236) are uniformly provided on the disc (231) located inside the groove (233), and a plurality of second mounting holes (237) are uniformly provided on the disc (231) located outside the groove (233).
6. The garment cleaning equipment according to claim 5, characterized in that, The bearing inner ring of the bearing housing (22) is fixedly connected to the disc body (231) by bolts and the first mounting hole (234). The inner cylinder (241) is fixedly connected to the disc body (231) by bolts and the second mounting hole (237). The central column (271) passes through the first through hole (232).
7. The garment cleaning equipment according to claim 1, characterized in that, A control unit (3) is installed on the protective shell (1), the motor (26) is connected to the control unit (3), and the control unit (3) is connected to the connecting line (5).
8. A garment cleaning device according to claim 7, characterized in that, A water inlet pipe (4) is fixedly installed on the protective shell (1). A valve body is installed in both the water inlet pipe (4) and the drain pipe (28), and the valve body is connected to the control unit (3).