CN115999267A - Filter device capable of automatically cleaning filter layer - Google Patents

Abstract

A filtering device capable of automatically cleaning a filtering layer. The movable frame is arranged above one surface of the filter layer, the other surface of the filter layer is connected below the movable frame, the motor is connected with the cleaning component, the cleaning component is aligned to one surface of the filter layer, and the cleaning component can move along the filter layer. The cleaning component is an impeller or a brush or a belt or a vibrating block or a water tank or a pump. The cleaning component is surrounded by a dust-proof net.

Description

Filter device capable of automatically cleaning filter layer

Technical Field

The present invention relates to a filter device for cleaning a filter layer.

Background

The filtering device of the existing cleaning filtering layer uses a vibrating motor to vibrate the filtering layer, dust shakes the filtering layer, dust in a region far away from the vibrating motor still can be stained on the filtering layer, and the effect of cleaning the filtering layer is poor. In addition, part of dust flies out, and the dust falls into other areas to cause new pollution. The existing filtering device has gaps among the filtering layers, and dust can bypass the filtering layers.

Disclosure of Invention

The invention aims to provide a filtering device capable of automatically cleaning a filtering layer.

The invention adopts the technical scheme that a movable frame is arranged above one surface of a filter layer, the lower part of the movable frame is connected with the other surface of the filter layer, a motor is connected with a cleaning component, the cleaning component is aligned with one surface of the filter layer, and the cleaning component can move along the filter layer.

Further, the technical scheme is that the movable frame is provided with the cleaning component and the motor.

Further, the technical scheme is that two sides of the movable frame are provided with large wheels, and the large wheels are contacted with the filter layer.

Further, the technical scheme is that the movable frame is provided with a movable motor, and the movable motor is connected with the large wheel.

Further, the technical scheme is that the moving part is provided with a cleaning part and a motor, the two ends of the moving part are provided with small wheels, the moving part is provided with a moving motor, the moving motor is connected with the small wheels, the moving part is arranged on the moving frame, and the moving part can move along the moving frame.

Further, the technical scheme is that the cleaning component is an impeller, a brush, a belt, a vibrating block, a water tank or a pump.

Further, the cleaning component is surrounded by a dust blocking net, and the dust blocking net is arc-shaped or flat-plate-shaped or rectangular or polygonal.

Further, the technical scheme is that hooks are arranged on two sides of the filter layer, screws are arranged on the frame, and the screws can be connected with the hooks or hinged with the filter layer.

Further, the technical scheme is that the filter layer is provided with a guide rail.

Further, the technical scheme is that the solar cell is arranged.

The invention has the beneficial effects that the cleaning component automatically cleans the filter layer at any time, and ensures the smoothness of the filter layer. The number of the filtering layers can be more than 100, namely, 1 cm square and 100 holes, so as to filter visual impurities. As used in dust protection of windows, there is no visible dust in the room. Overcomes the defect that the sweeping robot can not sweep dust on the table top or the table surface. If used on the filtering device, the filter layer can be automatically cleaned, so that the trouble of replacing the filter layer is avoided, and the cost is saved. The cleaning component of the invention can select an impeller which rotates at high speed to suck or blow away dust on the filter layer. The cleaning component of the invention can select a brush which contacts the filter layer to sweep dust on the filter layer. The cleaning member of the present invention may be a belt, which may be a roll paper or a cloth, and which contacts the filter layer to wipe dust from the filter layer. The cleaning component of the invention can select the vibration motor to vibrate the filter layers row by row and row by column, and separate dust on the filter layers. The cleaning element of the invention may optionally be a pump to suck or blow dust off the filter layer. The cleaning component of the present invention may be used in water tank to clean dust from the filter layer. The virus or bacteria on the filter layer can also be sterilized by using a sterilizing liquid such as alcohol. The cleaning member of the present invention is of the contact type, of the non-contact type, and of the gas or liquid type. Other cleaning elements may also be selected. The cleaning member of the present invention has a dust-blocking net around it. The dust-proof net has various shapes, such as arc shape, flat plate shape, rectangle or polygon. And dust cleaned by the cleaning component is collected, so that the dust is prevented from being scattered in other areas to cause pollution. While preventing dust from falling on other cleaned filter layers, resulting in ineffective cleaning. And dust can be prevented from being scattered on the cleaning component, and the cleaning component causes secondary pollution to the filter layer. The cleaning member of the present invention may be used in combination according to cleaning of filter layers of different materials. If the brush is combined with the impeller, the brush sweeps away dust on the filter layer, and then the impeller blows away the dust. If the pump is combined with a vibrating block, the vibrating block shakes off dust on the filter layer, and then the pump sucks the dust away. If the brush is combined with the water tank, the water tank sprays liquid first to mix the liquid with dust on the filter layer, and then the brush cleans the filter layer. The cleaning component of the invention can clean the filter layers row by row and column by column, in particular to the vibration filter layers of the vibration block row by column. The efficiency is high, the energy consumption is low, the solar battery or the storage battery or the battery can be used for supplying power, and the trouble of installation caused by supplying power by using alternating current is avoided. The power supply can be connected with the existing boosting module, and the high voltage generated by the boosting module is negatively charged, so that dust, viruses or bacteria are stained on the filter layer, and the cleaning component is convenient to disinfect and clean the dust, viruses or bacteria. The filter layer of the invention can be made of hard or soft materials, and can be opened manually or electrically. The cleaning component is convenient for a user to replace or clean, water or disinfectant is added into the water tank, and the user can conveniently dry clothes.

Drawings

FIG. 1 is a schematic front view of a filter device;

FIG. 2 is a left side schematic view of FIG. 1;

FIG. 3 is a schematic top view of FIG. 1;

FIG. 4 is an enlarged schematic view of K1 of FIG. 1;

FIG. 5 is an enlarged schematic view of K2 of FIG. 2;

FIG. 6 is an enlarged schematic view of K3 of FIG. 3;

FIG. 7 is a partial schematic front view of the brush of FIG. 1 moved below a filter screen;

FIG. 8 is a partial top view schematic of a mobile carriage mounted large wheel;

FIG. 9 is a schematic top view of a mobile rack-mounted impeller;

FIG. 10 is a schematic top view of a mobile racking brush;

FIG. 11 is an enlarged partial schematic view of K4 of FIG. 9;

FIG. 12 is an enlarged partial schematic view of K5 of FIG. 10;

FIG. 13 is a partial schematic front view of FIG. 9;

FIG. 14 is a partial schematic front view of FIG. 10;

FIG. 15 is a schematic top view of a mobile carriage with straps;

FIG. 16 is a schematic top view of a movable carriage mounted shock block;

FIG. 17 is an enlarged partial schematic view of K6 of FIG. 15;

FIG. 18 is an enlarged partial schematic view of K7 of FIG. 16;

FIG. 19 is a partial top view schematic of a mobile rack-mounted pump;

FIG. 20 is a partial top schematic view of the mobile carriage with the water tank;

FIG. 21 is a partial top view schematic of an impeller movable along a movable frame;

FIG. 22 is a partial top view of a brush movable along a movable frame;

FIG. 23 is a left side schematic view of FIG. 22;

FIG. 24 is a partial top view of the movable member with the shock mass mounted thereto;

FIG. 25 is a partial top view schematic of the mobile member with the belt;

FIG. 26 is a partial top view schematic of the mover with the pump;

FIG. 27 is a partial top view of the mobile member with the water tank;

FIG. 28 is a schematic top view of a portion of a brush with an arcuate and flat dust screen mounted thereon;

FIG. 29 is a schematic view in partial top view of an arcuate dust screen mounted externally of an impeller;

FIG. 30 is a schematic top view of a portion of a shock block with a polygonal dust screen mounted thereon;

FIG. 31 is a schematic top view of a portion of a rectangular dust screen with an outer belt;

FIG. 32 is a schematic view of a portion of a pump with rectangular and flat dust screen;

FIG. 33 is a schematic partial top view of a tank equipped with a planar dust screen;

FIG. 34 is a schematic partial top view of a polygonal dust screen with pump, tank, vibrating mass;

FIG. 35 is a schematic view of a portion of a polygonal dust screen fitted with brushes, a water tank;

FIG. 36 is a partial top view of a filter bed with hooks;

FIG. 37 is a schematic top view of a filter bed with hooks;

FIG. 38 is a schematic top view of a hinged frame on the left side of the filter layer;

FIG. 39 is a partial top view schematic of a filter layer open;

FIG. 40 is a partial top view schematic of a right portion of a filter layer with a left portion of the filter layer hinged;

FIG. 41 is a schematic view of a portion of a filter bed with guide rails mounted therearound;

FIG. 42 is a partial schematic front view of FIG. 41;

FIG. 43 is a partial left side schematic view of the mounted rail and wheel;

FIG. 44 is a partial top view of the right side with the rail and brush installed;

FIG. 45 is a partial top view of the left side of the moving member with the impeller mounted thereon with the guide rail and the moving member;

FIG. 46 is a partial top view of the left side of the mounting rail and belt;

FIG. 47 is a partial top view of the left side with the rail and shock block mounted;

FIG. 48 is a partial top view of the left side with the rail and pump installed;

FIG. 49 is a partial top view of the left side with the rail and tank installed;

FIG. 50 is a partial top view schematic of the assembled rail;

FIG. 51 is an enlarged schematic view of K9 of FIG. 50;

FIG. 52 is a partial schematic front view of FIG. 51;

FIG. 53 is a schematic top view of a foldable partial section with solar cells and filter layers;

Detailed Description

The invention is further illustrated by the following figures and examples in conjunction with the description;

example 1: referring to fig. 1 to 7. The cleaning component (3) is a brush (3B). The movable frame (2) is arranged above one surface of the filter layer (1), the lower side of the movable frame (2) is connected with the other surface of the filter layer (1), the movable frame (2) is provided with a motor (4), the motor (4) is connected with a brush (3B), the brush (3B) is aligned with one surface of the filter layer (1), and the brush (3B) can move along the filter layer (1). Fig. 7 shows the brush (3B) moving below the filter layer (1).

Example 2: refer to fig. 8. The big wheels (5) are arranged below the two sides of the movable frame (2), and the big wheels (5) move along the other side of the filter layer (1). Reference is made to the embodiments described above for the remainder.

Example 3: reference is made to fig. 9, 11 and 13. The cleaning component (3) is an impeller (3A). Two large wheels (5) are respectively arranged on two sides of the movable frame (2), the two large wheels (5) are respectively contacted with two sides of the filter layer (1), and the large wheels (5) move along the filter layer (1). A moving motor (9) is arranged below the two sides of the moving frame (2), and the moving motor (9) is connected with a large wheel (5) on the other side of the filter layer (1). A motor (4) is arranged above the movable frame (2), and the motor (4) is connected with an impeller (3A). The impeller (3A) is aligned with one surface of the filter layer (1), and the impeller (3A) can move along the filter layer (1). Reference is made to the embodiments described above for the remainder.

Example 4: reference is made to fig. 10, 12 and 14. The cleaning component (3) is a brush (3B). The lower parts of the two sides of the movable frame (2) are provided with movable motors (9), and the movable motors (9) are connected with the large wheels (5). A motor (4) is arranged above the movable frame (2), the motor (4) is connected with a brush (3B), the brush (3B) is aligned with and contacts one surface of the filter layer (1), and the brush (3B) can move along the filter layer (1). Reference is made to the embodiments described above for the remainder.

Example 5: refer to fig. 15 and 17. The cleaning member (3) is a belt (3C). The lower parts of the two sides of the movable frame (2) are provided with movable motors (9), and the movable motors (9) are connected with the large wheels (5). The upper end of the spring (15) is connected with the movable frame (2), the lower end of the spring (15) is connected with the motor (4), the motor (4) is connected with the belt (3C), and the belt (3C) is aligned with and contacted with one surface of the filter layer (1). The motor (4) rotates to move the belt (3C). The belt (3C) is movable along the filter layer (1). Reference is made to the embodiments described above for the remainder.

Example 6: reference is made to fig. 16 and 18. The cleaning component (3) is a vibrating block (3D). The upper end of the spring (15) is connected with the movable frame (2), the lower end of the spring (15) is connected with the motor (4), the motor (4) is provided with the vibration block (3D), and the motor (4) and the vibration block (3D) form the vibration motor. The vibration block (3D) is aligned with and contacted with one surface of the filter layer (1), and the vibration block (3D) can move along the filter layer (1). Reference is made to the embodiments described above for the remainder.

Example 7: refer to fig. 19. The cleaning member (3) is a pump (3F). The motor (4) is arranged on the movable frame (2), the motor (4) is connected with the pump (3F), the pump (3F) is connected with the pipe (3G), and the port (3H) is aligned with one surface of the filter layer (1). The pump (3F) is movable along the filter layer (1), the pump (3F) being permeable to a gas or a liquid. Reference is made to the embodiments described above for the remainder.

Example 8: refer to fig. 20. The cleaning part (3) is a water tank (3E). The motor (4) is installed at the movable frame (2), and the motor (4) is connected with the water tank (3E), and the water tank (3E) has a mouth (3H), and the one side of filtering layer (1) is aimed at to mouth (3H), and the water tank (3E) can follow filtering layer (1). Reference is made to the embodiments described above for the remainder.

Example 9: refer to fig. 21. The cleaning component (3) is an impeller (3A). The moving part (11) is provided with an impeller (3A) and a motor (4), and the motor (4) is connected with the impeller (3A). The upper surface and the lower surface of two ends of the moving part (11) are provided with small wheels (10), the moving part (11) is provided with a moving motor (9), the moving motor (9) is connected with the small wheels (10), the moving part (11) is arranged on the moving frame (2), the small wheels (10) are contacted with the upper edge and the lower edge of the moving frame (2), and the moving part (11) can move along the moving frame (2). The impeller (3A) is aligned with one surface of the filter layer (1), and the impeller (3A) can clean the filter layer (1) row by row and column by column. Reference is made to the embodiments described above for the remainder.

Example 10: refer to fig. 22 and 23. The cleaning component (3) is a brush (3B). The moving part (11) is provided with a brush (3B) and a motor (4), and the motor (4) is connected with the brush (3B). The small wheels (10) are arranged on the two ends of the moving part (11), the small wheels (10) are contacted with the upper side of the moving frame (2), and the hairbrush (3B) is aligned with and contacted with one side of the filter layer (1). The brush (3B) can move along the moving frame (2). Reference is made to the embodiments described above for the remainder.

Example 11: refer to fig. 24. The cleaning component (3) is a vibrating block (3D). The movable part (11) is provided with a vibrating block (3D) and a motor (4), the upper end of the spring (15) is connected with the movable part (11), the lower end of the spring (15) is connected with the motor (4), and the motor (4) is connected with the vibrating block (3D). The vibration block (3D) is aligned with and contacted with one surface of the filter layer (1), and the vibration block (3D) can move along the movable frame (2). Reference is made to the embodiments described above for the remainder.

Example 12: refer to fig. 25. The cleaning member (3) is a belt (3C). The moving part (11) is provided with a belt (3C) and a motor (4), the left Bian Danhuang (15) is connected with the moving part (11) and the motor (4), and the motor (4) is connected with the belt (3C). The right spring (15) connects the moving member (11) with the belt (3C). Two sides of two ends of the moving piece (11) are provided with small wheels (10), the small wheels (10) at two sides are contacted with the side edges of the moving frame (2), the belt (3C) is aligned with and contacted with the filter layer (1), and the belt (3C) can move along the moving frame (2). Reference is made to the embodiments described above for the remainder.

Example 13: refer to fig. 26. The cleaning member (3) is a pump (3F). The moving part (11) is provided with a pump (3F) and a motor (4), the motor (4) is connected with the pump (3F), and the pump (3F) is connected with the pipe (3G). The tube (3G) is aligned with the filter layer (1), and the pump (3F) is movable along the movable frame (2). Reference is made to the embodiments described above for the remainder.

Example 14: refer to fig. 27. The cleaning part (3) is a water tank (3E). The moving part (11) is provided with a water tank (3E) and a motor (4). The motor (4) is connected with the water tank (3E) and the moving part (11), the lower part of the water tank (3E) is connected with the valve (16), and the water tank (3E) is aligned with the filter layer (1). A plurality of small wheels (10) are arranged at two ends of the moving part (11), the small wheels (10) are contacted with four sides of the moving frame (2), and the water tank (3E) can move along the moving frame (2). Reference is made to the embodiments described above for the remainder.

Example 15: refer to fig. 28. The dust-proof net (6) is arc-shaped (6A) and flat-plate-shaped (6B). The brush (3B) is externally provided with an arc-shaped (6A) and a flat plate-shaped (6B) dust-blocking net (6) which surrounds the brush. Reference is made to the embodiments described above for the remainder.

Example 16: refer to fig. 29. The dust-blocking net (6) is arc-shaped (6A). The impeller (3A) is externally provided with an arc-shaped dust blocking net (6A) which surrounds the impeller. Reference is made to the embodiments described above for the remainder.

Example 17: refer to fig. 30. The dust-blocking net (6) is polygonal (6D). The outside of the vibration block (3D) is provided with a polygonal (6D) dust blocking net (6) which surrounds the vibration block. Reference is made to the embodiments described above for the remainder.

Example 18: refer to fig. 31. The dust-proof net (6) is rectangular (6C). The belt (3C) is externally provided with a rectangular (6C) dust-proof net (6) surrounding. Reference is made to the embodiments described above for the remainder.

Example 19: refer to fig. 32. The dust-proof net (6) is a flat plate (6B) and a rectangle (6C). The outlet of the pump (3F) is surrounded by a plate-shaped (6B) and a rectangular (6C) dust-proof net (6). Reference is made to the embodiments described above for the remainder.

Example 20: refer to fig. 33. The dust-proof net (6) is in a plate shape (6B). A valve (16) is arranged below the water tank (3E). The water tank (3E) is covered by a flat plate (6B). Reference is made to the embodiments described above for the remainder.

Example 21: refer to fig. 34. And a connecting pipe (3G) below the valve (16) is provided with a pump (3F), a vibrating block (3D) and a polygonal (6D) dust-blocking net. Reference is made to the embodiments described above for the remainder.

Example 22: refer to fig. 35. A port (3H) is arranged below the water tank (3E). Is provided with a brush (3B), a water tank (3E) and a polygonal (6D) dust-proof net. Reference is made to the embodiments described above for the remainder.

The impeller (3A), the hairbrush (3B), the belt (3C), the vibration block (3D), the water tank (3E) and the pump (3F) can be combined according to actual needs.

Example 23: refer to fig. 36. Hooks (12) are arranged on two sides of the filter layer (1), screws (14) are arranged on the frame (13), and the hooks (12) are connected with the screws (14). Reference is made to the embodiments described above for the remainder.

Example 24: refer to fig. 37. The right side of the frame (13) is connected with the hook (12) on the right side of the filter layer (1) by a screw (14) near the middle. Reference is made to the embodiments described above for the remainder.

Example 25: refer to fig. 38. The upper section of the spring (15) is connected with the movable frame (2), the lower section of the spring (15) is connected with the small plate (17), the small plate (17) is connected with the large wheel (5), and the screw (14) on the left side of the frame (13) is hinged with the left side of the filter layer (1). Reference is made to the embodiments described above for the remainder.

Example 26: refer to fig. 39. The filter layer (1) is opened. Reference is made to the embodiments described above for the remainder.

Example 27: refer to fig. 40. The left part (1B) of the filter layer is hinged with the right part (1C) of the filter layer. Reference is made to the embodiments described above for the remainder.

Example 28: refer to fig. 41 and 42. The cleaning member (3) is a brush (3B). Guide rail (8) is equipped with by filtering layer (1), removes frame (2) dress on guide rail (8), removes frame (2) and is equipped with motor (4), and brush (3B) are connected to motor (4), and one side of filtering layer (1) is aimed at in brush (3B), and brush (3B) can follow filtering layer (1). Reference is made to the embodiments described above for the remainder.

Example 29: refer to fig. 43. A guide rail (8) is arranged beside the filter layer (1). Two sides of the movable frame (2) are provided with large wheels (5), and the large wheels (5) are contacted with the guide rail (8). Reference is made to the embodiments described above for the remainder.

Example 30: refer to fig. 44. A guide rail (8) is arranged below the edge of the filter layer (1). The movable frame (2) spans the filter layer (1), and the cleaning component (3) is a brush (3B). Reference is made to the embodiments described above for the remainder.

Example 31: refer to fig. 45. Guide rails (8) are arranged at the edges of the filter layer (1) up and down. The cleaning member (3) is an impeller (3A). The movable part (11) is arranged on the movable frame (2), small wheels (10) and a movable motor (9) are arranged at two ends of the movable part (11), the movable motor (9) is connected with the small wheels (10), the movable part (11) is provided with an impeller (3A), and the movable part (11) can move along the movable frame (2). Reference is made to the embodiments described above for the remainder.

Example 32: refer to fig. 46. The side of the filter layer (1) is provided with a guide rail (8). The cleaning member (3) is a belt (3C). Reference is made to the embodiments described above for the remainder.

Example 33: refer to fig. 47. The edges of the filter layer (1) are covered with guide rails (8). The cleaning part (3) is a vibrating block (3D). Reference is made to the embodiments described above for the remainder.

Example 34: refer to fig. 48. A guide rail (8) is arranged beside the filter layer (1). The cleaning member (3) is a pump (3F). Reference is made to the embodiments described above for the remainder.

Example 35: refer to fig. 49. A guide rail (8) is arranged beside the filter layer (1). The cleaning member (3) is a water tank (3E). Reference is made to the embodiments described above for the remainder.

The dust-blocking net (6) may be further installed in the above-described embodiments 28 to 35, which may be referred to.

Example 36: reference is made to fig. 50, 51, 52 and 53. The track (8) is arranged beside the filter layer (1), the protruding part (1A) of the filter layer (1) penetrates through the track (8), and the filter layer (1) can be folded along the guide rail (8). Reference is made to the embodiments described above for the remainder.

Example 37: refer to fig. 53. The filter device is equipped with a solar cell (7). The solar battery (7) is connected with the existing electronic boosting module and the existing power supply circuit, and high-voltage electricity generated by the electronic boosting module is connected to the filter layer (1). The power circuit is connected with the motor (4) and the mobile motor (9). Reference is made to the embodiments described above for the remainder.

The filter device may also house or hold a battery or cell.

The existing electronic boosting module enables the filter screen to be provided with high-voltage static electricity, and improves the dust and bacteria and virus dipping capability.

Claims (10)

1. A filtering device capable of automatically cleaning a filtering layer is characterized in that a movable frame (2) is arranged above one surface of the filtering layer (1), the other surface of the filtering layer (1) is connected to the lower side of the movable frame (2), a motor (4) is connected with a cleaning component (3), the cleaning component (3) is aligned to one surface of the filtering layer (1), and the cleaning component (3) can move along the filtering layer (1).

2. A filter device according to claim 1, characterized in that the mobile frame (2) is equipped with a cleaning member (3) and a motor (4).

3. A filter device according to claim 2, characterized in that the travelling frame (2) is provided with large wheels (5) on both sides, the large wheels (5) contacting the filter layer (1).

4. A filter device according to claim 3, characterized in that the mobile frame (2) is provided with a mobile motor (9), the mobile motor (9) being connected to the large wheel (5).

5. The filter device according to claim 1, characterized in that the moving member (11) is provided with the cleaning member (3) and the motor (4), the two ends of the moving member (11) are provided with the small wheels (10), the moving member (11) is provided with the moving motor (9), the moving motor (9) is connected with the small wheels (10), the moving member (11) is arranged on the moving frame (2), and the moving member (11) can move along the moving frame (2).

6. The filter device according to claim 1, characterized in that the cleaning means (3) are impellers (3A) or brushes (3B) or belts (3C) or vibrating masses (3D) or water tanks (3E) or pumps (3F).

7. A filter device according to claim 1, characterized in that the cleaning member (3) is surrounded by a dust-blocking net (6), the dust-blocking net (6) being arc-shaped (6A) or flat-plate-shaped (6B) or rectangular (6C) or polygonal (6D).

8. The filter device according to claim 1, characterized in that hooks (12) are provided on both sides of the filter layer (1), the frame (13) is provided with screws (14), and the screws (14) can be connected to the hooks (12) or the hinged filter layer (1).

9. A filter device according to claim 1, characterized in that the filter layer (1) is provided with guide rails (8).

10. A filter device according to claim 1, characterized by being provided with a solar cell (7).

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