A centrifugal dewaterer
By designing components such as a protective outer tank and a rotating device, the centrifugal dewatering machine solves the problem of inconvenient loading and unloading of fabrics in existing technologies, enabling simultaneous operation of multiple fabrics and improving work efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- QINGDAO FURUNDA TEXTILE
- Filing Date
- 2025-05-23
- Publication Date
- 2026-06-05
AI Technical Summary
Existing centrifugal dewatering machines require workers to manually place and remove fabrics, which is inconvenient and results in low work efficiency.
A centrifugal dewatering machine was designed, comprising a protective outer tank, a rotating device, a dewatering inner tank, a telescopic cylinder, a support device, and a drainage pipe. The rotating device and the support device enable the simultaneous loading and unloading of multiple fabrics, reducing manual preparation time.
This allows for the simultaneous loading and unloading of multiple fabrics, reducing preparation time for staff and improving operational efficiency.
Smart Images

Figure CN224327485U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to a centrifugal dewatering machine, belonging to the technical field of centrifugal dewatering equipment for fabric dewatering. Background Technology
[0002] Existing centrifugal dewatering machines require workers to spend a lot of time putting the fabric into the machine, and other containers are needed to hold the fabric when taking it out. In addition, a lot of preparation work is required before and after dewatering, which is inconvenient for workers to operate and reduces work efficiency. Utility Model Content
[0003] The objective of this invention is to allow workers to simultaneously load several rolls of fabric into a dewatering machine and remove them simultaneously after dewatering. This reduces preparation time for workers before and after dewatering, facilitates operation, and improves work efficiency. The technical solution is as follows:
[0004] A centrifugal dehydrator includes a protective outer tank 1, a rotating device 2, a dehydration inner liner 3, telescopic cylinders 4, a supporting device 5, supporting legs 6, and a drainage pipe 7. The protective outer tank 1 is characterized in that: a rotating device 2 is rotatably inserted into the center of the lower inner surface of the protective outer tank 1; the inner liner 3 is inserted into the center of the upper inner surface of the rotating device 2; several telescopic cylinders 4 are evenly distributed around the upper perimeter of the inner side surface of the protective outer tank 1; and a supporting device 5 is connected to the center of the telescopic end of the inner side surface of each telescopic cylinder 4. The lower inner surface of the protective outer tank 1... Several supporting legs 6 are evenly distributed around the perimeter of the outer surface of the protective outer tank 1. A drainage pipe 7 is inserted into the lower edge of the outer surface of the protective outer tank 1. The rotating device 2 includes a motor 2-1, a turntable 2-2, ball bearings 2-3, and a square shaft 2-4. The turntable 2-2 is connected to the center of the rotating end above the motor 2-1. Several ball bearings 2-3 are evenly distributed and inserted into the lower surface of the turntable 2-2. The square shaft 2-4 is connected to the center of the upper surface of the turntable 2-2. The motor 2-1 is connected to the center of the lower surface of the protective outer tank 1. A turntable 2-2 is disposed on the lower inner surface of the protective outer tank 1. The ball 2-3 is in contact with the lower surface of the protective outer tank 1. The dehydration inner liner 3 includes a mesh barrel 3-1, a square groove 3-2, a retaining ring 3-3, and a handle 3-4. The square groove 3-2 is provided at the center of the lower surface of the mesh barrel 3-1. The retaining ring 3-3 is inserted into the upper part of the outer surface of the mesh barrel 3-1. The handles 3-4 are symmetrically connected to the left and right edges of the upper surface of the mesh barrel 3-1. The retaining ring 3-3 has a groove in the middle of the outer surface of its outer side. The square shaft 2-4 is inserted into the square groove. Within 3-2, the support device 5 includes a support block 5-1, a slider 5-2, a spring piece 5-3, and a roller 5-4. Sliders 5-2 are symmetrically inserted into the middle of the outer sides of the upper and lower surfaces of the support block 5-1. A spring piece 5-3 is connected between the right side surface of each slider 5-2 and the inside of the support block 5-1. A roller 5-4 is rotatably connected between the middle of the inner surfaces of two sliders 5-2. The right side surface of the support block 5-1 is connected to the telescopic end of the telescopic cylinder 4. The left side of the support block 5-1 is inserted into the retaining ring 3-3.
[0005] The beneficial effects of this utility model are: workers can load several pieces of cloth into the dewatering machine at the same time, and after dewatering, they can take several pieces of cloth out of the dewatering machine at the same time. This reduces the preparation time for workers before and after dewatering, makes it more convenient for workers to operate and use the machine, and improves work efficiency. Attached Figure Description
[0006] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0007] Figure 2 This is a schematic diagram of the rotating device 2 of this utility model;
[0008] Figure 3This is a schematic diagram of the dehydration inner liner 3 of this utility model;
[0009] Figure 4 This is a schematic diagram of the support device 5 of this utility model. Detailed Implementation
[0010] Reference Figure 1 Figure 2 Figure 3 Figure 4 A centrifugal dehydrator includes a protective outer tank 1, a rotating device 2, a dehydration inner tank 3, telescopic cylinders 4, a supporting device 5, supporting legs 6, and a drainage pipe 7. The feature is that the rotating device 2 is rotatably inserted into the center of the lower inner surface of the protective outer tank 1, and the dehydration inner tank 3 is inserted into the center of the upper inner surface of the rotating device 2. Several telescopic cylinders 4 are evenly distributed around the upper periphery of the inner side surface of the protective outer tank 1, and a supporting device 5 is connected to the center of the telescopic end of the inner side surface of each telescopic cylinder 4. The lower inner surface of the protective outer tank 1... Several supporting legs 6 are evenly distributed around the perimeter of the outer surface. A drainage pipe 7 is inserted into the lower edge of the outer surface of the protective outer tank 1. The rotating device 2 includes a motor 2-1, a turntable 2-2, ball bearings 2-3, and a square shaft 2-4. The turntable 2-2 is connected to the center of the rotating end above the motor 2-1. Several ball bearings 2-3 are evenly distributed and inserted into the lower surface of the turntable 2-2. The square shaft 2-4 is connected to the center of the upper surface of the turntable 2-2. The motor 2-1 is connected to the center of the lower surface of the protective outer tank 1. The turntable 2-2 is disposed on the lower inner surface of the protective outer tank 1. The ball 2-3 is in contact with the lower surface of the protective outer tank 1. The dehydration inner liner 3 includes a mesh barrel 3-1, a square groove 3-2, a retaining ring 3-3, and a handle 3-4. The square groove 3-2 is provided at the center of the lower surface of the mesh barrel 3-1. The retaining ring 3-3 is inserted into the upper part of the outer surface of the mesh barrel 3-1. The handles 3-4 are symmetrically connected to the left and right edges of the upper surface of the mesh barrel 3-1. The retaining ring 3-3 has a groove in the middle of the outer surface of its outer side. The square shaft 2-4 is inserted into the square groove. Within 3-2, the support device 5 includes a support block 5-1, a slider 5-2, a spring piece 5-3, and a roller 5-4. Sliders 5-2 are symmetrically inserted into the middle of the outer sides of the upper and lower surfaces of the support block 5-1. A spring piece 5-3 is connected between the right side surface of each slider 5-2 and the inside of the support block 5-1. A roller 5-4 is rotatably connected between the middle of the inner surfaces of two sliders 5-2. The right side surface of the support block 5-1 is connected to the telescopic end of the telescopic cylinder 4. The left side of the support block 5-1 is inserted into the retaining ring 3-3.
[0011] In use, the worker first places several pieces of fabric into the mesh bucket 3-1 on the inner dehydration tank 3. Then, the worker holds the handle 3-4 and places the mesh bucket 3-1 into the outer protective tank 1, positioning it on the upper surface of the turntable 2-2 on the rotating device 2. Simultaneously, the square shaft 2-4 is inserted into the square groove 3-2. Then, the telescopic cylinder 4 is activated to insert the support block 5-1 on the support device 5 into the retaining ring 3-3, while simultaneously making the roller 5-4 contact the inner side surface of the retaining ring 3-3. Finally, the worker starts the motor 2-1, causing the rotating end of the motor 2-1 to drive the turntable. 2-2 rotates, while the ball 2-3 rolls inside the turntable 2-2. At the same time, the ball 2-3 maintains the friction between the turntable 2-2 and the lower surface of the protective outer tank 1. Simultaneously, the square shaft 2-4 and the square groove 3-2 work together to drive the mesh barrel 3-1 to rotate. While the mesh barrel 3-1 is rotating, the fabric is dehydrated. After dehydration, the worker opens the valve on the drain pipe 7 to drain the water. Then, the worker retracts the telescopic end on the telescopic cylinder 4 and separates the support block 5-1 from the retaining ring 3-3. Finally, the worker holds the handle 3-4 and removes the mesh barrel 3-1.
[0012] When the net barrel 3-1 rotates, the elastic force of the spring piece 5-3 can buffer the eccentric force when the net barrel 3-1 rotates.
[0013] Furthermore, it should be understood that although this specification describes embodiments, not every embodiment contains only one independent technical solution. This narrative style is merely for clarity. Those skilled in the art should consider the specification as a whole, and the technical solutions in each embodiment can also be appropriately combined to form other embodiments that can be understood by those skilled in the art.
Claims
1. A centrifugal dehydrator, comprising a protective outer tank (1), a rotating device (2), a dehydration inner tank (3), a telescopic cylinder (4), a supporting device (5), supporting legs (6), and a drainage pipe (7), characterized in that: A rotating device (2) is rotatably inserted at the center of the lower inner surface of the protective outer tank (1). A dehydration inner liner (3) is inserted at the center of the upper surface of the rotating device (2). Several telescopic cylinders (4) are evenly distributed around the upper side surface of the protective outer tank (1). A support device (5) is connected at the center of the telescopic end of the inner side surface of each telescopic cylinder (4). Several support legs (6) are evenly distributed around the lower edge of the protective outer tank (1). A drainage pipe (7) is inserted at the lower edge of the outer surface of the protective outer tank (1).
2. A centrifugal dehydrator according to claim 1, characterized in that: The rotating device (2) includes a motor (2-1), a turntable (2-2), rolling balls (2-3), and a square shaft (2-4). The turntable (2-2) is connected to the center of the rotating end above the motor (2-1). Several rolling balls (2-3) are evenly distributed and inserted on the lower surface of the turntable (2-2). The square shaft (2-4) is connected to the center of the upper surface of the turntable (2-2). The motor (2-1) is connected to the center of the lower surface of the protective outer can (1). The turntable (2-2) is located on the lower surface inside the protective outer can (1). The rolling balls (2-3) are in contact with the lower surface of the protective outer can (1).
3. A centrifugal dehydrator according to claim 2, characterized in that: The dehydration inner liner (3) includes a mesh barrel (3-1), a square groove (3-2), a retaining ring (3-3), and a handle (3-4). The lower surface of the mesh barrel (3-1) has a square groove (3-2) at its center. A retaining ring (3-3) is inserted into the upper part of the outer surface of the mesh barrel (3-1). The handles (3-4) are symmetrically connected to the left and right edges of the upper surface of the mesh barrel (3-1). A groove is provided in the middle of the outer surface of the retaining ring (3-3). The square shaft (2-4) is inserted into the square groove (3-2).
4. A centrifugal dehydrator according to claim 3, characterized in that: The support device (5) includes a support block (5-1), a slider (5-2), a spring piece (5-3), and a roller (5-4). Sliders (5-2) are symmetrically inserted at the middle of the outer side of the upper and lower surfaces of the support block (5-1). A spring piece (5-3) is connected between the right side surface of each slider (5-2) and the inside of the support block (5-1). A roller (5-4) is rotatably connected at the middle of the inner side surfaces of two sliders (5-2). The right side surface of the support block (5-1) is connected to the telescopic end of the telescopic cylinder (4). The left side of the support block (5-1) is inserted into the retaining ring (3-3).