Environment-friendly filter separator with large treatment capacity

Through the design of the drive and cleaning components, all-round filtration and cleaning of the filter element are achieved, solving the problem of easy clogging of the filter element and improving the processing capacity and environmental friendliness of the filter separator.

CN224331652UActive Publication Date: 2026-06-09JIANGSU ZHONGCHI TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JIANGSU ZHONGCHI TECHNOLOGY CO LTD
Filing Date
2025-06-30
Publication Date
2026-06-09

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  • Figure CN224331652U_ABST
    Figure CN224331652U_ABST
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Abstract

The utility model discloses an environmental protection type big processing capacity filter separator relates to sewage separator technical field, including the casing, be provided with the water inlet pipe on the outer wall of casing, the inside fixed mounting of casing has the mounting seat through the support, the bottom of mounting seat is installed and goes out the water pipe, the filter core is rotatably installed in the mounting seat, the outer wall of filter core upper end is installed for driving its rotation angle of adjustment drive assembly, the inside hollow groove of filter core is provided with, the inside cleaning assembly of hollow groove is installed. Through drive assembly can drive filter core to take the center of mounting seat as the center and rotate, can adjust the angle of filter core according to the direction of water inlet pipe sewage, can make filter core every angle all can close distance access the sewage of water inlet pipe to full play the function of filter core, improve the service life of filter core, improve the environmental protection of equipment.
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Description

Technical Field

[0001] This utility model relates to the field of wastewater separators, and in particular to an environmentally friendly, high-capacity filter separator. Background Technology

[0002] For environmental protection purposes, wastewater needs to undergo pre-treatment before being discharged into waterways. Separating solids and liquids from wastewater is one step in the wastewater treatment process.

[0003] In the prior art, the filter separator with patent publication number CN211620213U has a filter rotating cylinder internally mounted. A sewage pipe is inserted through the top of the filter separator, and chemical addition pipes are inserted into both sides of the sewage pipe. An ozone generator is fixedly installed at the upper left end of the filter separator, and an ultrasonic generator is fixedly installed on the outer wall of the left end of the filter separator. In use, ultrasonic waves and ozone are used in combination for sewage treatment, with ultrasonic degradation, sterilization, and ozone disinfection working together on the sewage. In addition, the water quality outside the filter rotating cylinder can be tested periodically through the sampling port, thereby achieving more comprehensive filtration and separation of sewage. This achieves the purpose of a filter separator with a simple structure that can effectively remove impurities of various forms.

[0004] In the above technical solution, filter cartridges are needed to clean substances in wastewater during filtration. However, the wastewater entering through the wastewater inlet preferentially contacts the outer surface of the filter cartridge that is closest to it for filtration. This causes the filter cartridge to be prone to clogging in that part, while the parts far from the wastewater inlet cannot fully perform their filtration function, affecting the filtration effect of the equipment. To address this, we propose an environmentally friendly high-capacity filter separator. Utility Model Content

[0005] To address the shortcomings of existing technologies, this utility model provides an environmentally friendly, high-capacity filter separator. It solves the problem that in filtration, filter cartridges are needed to clean substances from wastewater. However, wastewater entering through the wastewater inlet preferentially contacts the outer surface of the filter cartridge closest to it for filtration. This leads to blockage in that part of the filter cartridge, while the parts farther from the wastewater inlet cannot fully perform their filtration function, thus affecting the filtration effect of the equipment.

[0006] To achieve the above objectives, this utility model is implemented through the following technical solution: an environmentally friendly high-capacity filter separator, comprising a housing, an inlet pipe provided on the outer wall of the housing, an mounting base fixedly installed inside the housing by a bracket, an outlet pipe installed at the bottom of the mounting base, a filter element rotatably installed inside the mounting base, a drive component for driving its rotation and adjusting its angle installed on the upper outer wall of the filter element, a hollow groove provided inside the filter element, and a cleaning component installed inside the hollow groove.

[0007] As a further technical solution of this utility model, the driving component includes an annular frame fixedly sleeved on the outer wall of the upper end of the filter element, a toothed ring is installed on the outer wall of the annular frame, and a gear is meshed with one side of the toothed ring.

[0008] As a further technical solution of this utility model, the gear is disposed outside the housing, a drive motor is disposed on the lower side of the gear, the drive motor is fixedly mounted on the outer wall of the housing, and the output end of the drive motor is fixedly connected to the gear.

[0009] As a further technical solution of this utility model, the cleaning component includes a strip-shaped component, which is disposed inside the hollow trough. The top of the strip-shaped component is fixedly installed inside the housing. One side surface of the strip-shaped component is set as an arc-shaped surface, which fits against the inner wall of the hollow trough. The arc-shaped surface is provided with a water outlet.

[0010] As a further technical solution of this utility model, the outlet is internally connected to a connecting pipe, and the upper end of the connecting pipe is connected to the water supply component.

[0011] As a further technical solution of this utility model, the bottom of the casing is provided as a conical end, and the bottom of the conical end is connected to a drain pipe, and a drain valve is installed inside the drain pipe.

[0012] This utility model provides an environmentally friendly, high-capacity filter separator, which has the following advantages compared with the prior art:

[0013] 1. This design is an environmentally friendly high-capacity filter separator. Through the drive component, the filter element can be driven to rotate around the center of the mounting base. The angle of the filter element can be adjusted according to the direction of the sewage entering the inlet pipe, so that the filter element can get close to the sewage in the inlet pipe at each angle, thereby giving full play to the function of the filter element, improving the service life of the filter element, and enhancing the environmental friendliness of the equipment.

[0014] 2. This design presents an environmentally friendly, high-capacity filter separator. The outlet and the hollow tank form a relatively enclosed space. Water pressure is increased by the water supply component to the connecting pipe and the outlet, thereby increasing the water pressure within the enclosed space. This water pressure flushes the portion covered by the outlet, pushing out the impurities filtered by that part of the filter element, thus completing the decontamination work. In conjunction with the rotating filter element, it enables comprehensive cleaning of the filter element, making it suitable for large-scale wastewater treatment. This avoids clogging, allows for repeated cleaning and full utilization of the filter element, further reducing filter element consumption and improving the environmental performance of the equipment. Attached Figure Description

[0015] Figure 1This is a schematic diagram of the overall structure of an environmentally friendly, high-capacity filter separator.

[0016] Figure 2 This is a schematic diagram of the casing of an environmentally friendly, high-capacity filter separator.

[0017] Figure 3 This is a schematic diagram of the internal structure of an environmentally friendly, high-capacity filter separator.

[0018] Figure 4 for Figure 3 Enlarged structural diagram at point a;

[0019] Figure 5 This is a schematic diagram of the structure of a strip-shaped component in an environmentally friendly, high-capacity filter separator.

[0020] In the diagram: 1. Housing; 11. Conical end; 12. Drain pipe; 13. Drain valve; 2. Inlet pipe; 3. Mounting base; 4. Outlet pipe; 5. Filter element; 51. Hollow groove; 6. Drive assembly; 61. Ring frame; 62. Gear ring; 63. Gear; 64. Drive motor; 7. Cleaning assembly; 71. Strip; 72. Connecting pipe; 73. Arc-shaped surface; 74. Outlet. Detailed Implementation

[0021] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present utility model without creative effort are within the protection scope of the present utility model.

[0022] Please see Figure 1-5This utility model provides an environmentally friendly, high-capacity filter separator, including a housing 1. An inlet pipe 2 is provided on the outer wall of the housing 1. An mounting base 3 is fixedly installed inside the housing 1 via a bracket. An outlet pipe 4 is installed at the bottom of the mounting base 3. A filter element 5 is rotatably installed inside the mounting base 3. A drive assembly 6 for adjusting the rotation angle of the filter element 5 is installed on the upper outer wall of the filter element 5. A hollow groove 51 is provided inside the filter element 5. A cleaning assembly 7 is installed inside the hollow groove 51. During filtration, wastewater enters through the inlet pipe 2, and the wastewater flows through the outer wall of the filter element 5 into the hollow groove 51. The wastewater flows internally, while impurities in the wastewater are filtered out by the filter element 5. The filtered wastewater enters the outlet pipe 4 of the mounting base 3 through the bottom of the hollow groove 51, thus completing the wastewater filtration. During use, the filter element 5 can be driven to rotate around the center of the mounting base 3 by the drive component 6. The angle of the filter element 5 can be adjusted according to the direction of the wastewater entering through the inlet pipe 2, so that the filter element 5 can get close to the wastewater in the inlet pipe 2 at each angle, thereby giving full play to the function of the filter element 5, improving the service life of the filter element 5, and enhancing the environmental friendliness of the equipment.

[0023] like Figure 3 and Figure 4 As shown, in this embodiment, the drive assembly 6 includes an annular frame 61 fixedly sleeved on the outer wall of the upper end of the filter element 5. A gear ring 62 is installed on the outer wall of the annular frame 61. A gear 63 is meshed with one side of the gear ring 62. The gear 63 is located outside the housing 1. A drive motor 64 is located on the lower side of the gear 63. The drive motor 64 is fixedly installed on the outer wall of the housing 1. The output end of the drive motor 64 is fixedly connected to the gear 63. In use, the drive motor 64 can drive the gear 63 to rotate the gear ring 62, so that the gear ring 62 drives the annular frame 61 and the filter element 5 to rotate synchronously, thereby adjusting the angle of the filter element 5.

[0024] like Figure 3 , Figure 4 and Figure 5As shown, in this embodiment, the cleaning component 7 includes a strip 71, which is disposed inside the hollow trough 51. The top of the strip 71 is fixedly installed inside the housing 1. One side surface of the strip 71 is set as an arc surface 73, which fits against the inner wall of the hollow trough 51. The arc surface 73 is provided with a water outlet 74, and a connecting pipe 72 is connected inside the water outlet 74. The upper end of the connecting pipe 72 is connected to the water supply component. In use, the water outlet 74 of the strip 71 is vertically arranged, with the upper end of the water outlet 74 extending to the upper end of the hollow trough 51 and the lower end of the water outlet 74 extending to the lower end of the hollow trough 51. Thus, the arc surface 73 and the hollow trough 51 are aligned. When the inner wall of the tank 51 is in contact with the outlet 74, a relatively closed space is formed between the outlet 74 and the hollow tank 51. Water pressure is increased by the water supply component to the connecting pipe 72 and the outlet 74, thereby increasing the water pressure inside the relatively closed space. The water pressure washes the part covered by the outlet 74, thus pushing out the impurities filtered by the filter element 5 in that part, completing the cleaning work of that part. In conjunction with the rotating filter element 5, the filter element 5 can be thoroughly cleaned, making it suitable for large-scale sewage treatment, avoiding clogging, and allowing the filter element 5 to be cleaned and fully utilized repeatedly, further reducing filter element consumption and improving the environmental performance of the equipment.

[0025] like Figure 3 As shown, in this embodiment, the bottom of the housing 1 is configured as a conical end 11, and the bottom of the conical end 11 is connected to a drain pipe 12. A drain valve 13 is installed inside the drain pipe 12. The conical end 11 can guide sewage and impurities during the cleaning process of the filter element 5, so that the drain pipe 12 can perform centralized sewage discharge. The drain valve 13 can open the drain pipe 12 to perform sewage discharge.

[0026] The working principle of this utility model is as follows:

[0027] During filtration, wastewater enters through the inlet pipe 2 and flows into the hollow tank 51 through the outer wall of the filter element 5. Impurities in the wastewater are filtered out by the filter element 5 and then enter the outlet pipe 4 of the mounting base 3 through the bottom of the hollow tank 51, thus completing the wastewater filtration process.

[0028] During use, the filter element 5 can be driven to rotate around the center of the mounting base 3 by the drive component 6. The angle of the filter element 5 can be adjusted according to the direction of sewage entering the inlet pipe 2, so that the filter element 5 can get close to the sewage in the inlet pipe 2 at each angle, thereby giving full play to the function of the filter element 5, improving the service life of the filter element 5, and enhancing the environmental friendliness of the equipment.

[0029] The above description is merely a preferred embodiment of this utility model. It should be noted that those skilled in the art can make various improvements and modifications without departing from the principles of this utility model, and these improvements and modifications should also be considered within the scope of protection of this utility model. Structures, devices, and operating methods not specifically described or explained in this utility model are implemented according to conventional methods in the art, unless otherwise specified or limited.

Claims

1. An environmentally friendly, high-capacity filter separator, characterized in that, Includes a housing (1), on the outer wall of the housing (1) is a water inlet pipe (2), inside the housing (1) is a mounting base (3) fixedly installed by a bracket, at the bottom of the mounting base (3) is a water outlet pipe (4), inside the mounting base (3) is a filter element (5) rotatably installed, on the upper outer wall of the filter element (5) is a drive assembly (6) for driving its rotation and adjusting the angle, inside the filter element (5) is a hollow groove (51), inside the hollow groove (51) is a cleaning assembly (7); The cleaning component (7) includes a strip (71) which is disposed inside the hollow trough (51). The top of the strip (71) is fixedly installed inside the housing (1). One side surface of the strip (71) is set as an arc surface (73) which fits against the inner wall of the hollow trough (51). The arc surface (73) is provided with a water outlet (74).

2. The environmentally friendly high-capacity filter separator according to claim 1, characterized in that, The drive assembly (6) includes an annular frame (61) fixedly sleeved on the outer wall of the upper end of the filter element (5), and a toothed ring (62) is installed on the outer wall of the annular frame (61), and a gear (63) is meshed on one side of the toothed ring (62).

3. The environmentally friendly high-capacity filter separator according to claim 2, characterized in that, The gear (63) is located outside the housing (1). A drive motor (64) is located on the lower side of the gear (63). The drive motor (64) is fixedly installed on the outer wall of the housing (1). The output end of the drive motor (64) is fixedly connected to the gear (63).

4. The environmentally friendly high-capacity filter separator according to claim 3, characterized in that, The outlet (74) is internally connected to a connecting pipe (72), and the upper end of the connecting pipe (72) is connected to the water supply component.

5. The environmentally friendly high-capacity filter separator according to claim 1, characterized in that, The bottom of the housing (1) is provided as a conical end (11), and the bottom of the conical end (11) is connected to a drain pipe (12), and a drain valve (13) is installed inside the drain pipe (12).