CN217367609U - Filter device with circularly lifting filter screen plate - Google Patents

Abstract

A filtering device with a circularly lifting filter screen plate. The two sides of the filtering device are provided with outer rails, the outer arc rails at the upper end and the lower end of each outer rail are connected with outer straight rails, the outer arc rails are arranged outside the outer straight rails, one end of the filter screen plate is provided with an outer shaft, the outer shaft is provided with an outer wheel, the outer wheel moves along the outer rails, and the cleaning component is aligned to the filter screen plate. The impeller, the vibrating motor, the brush, the cleaning belt and the water tank of the cleaning part can be combined at will, and the effect of cleaning the filter screen plate is good. When the filter screen plate is changed from ascending to descending, the filter screen plate can horizontally move. The filter screen plate has high strength, and the filter screen plate does not deform when the flow velocity of the impurity filtering fluid is high.

Description

Filter device with circularly lifting filter screen plate

Technical Field

The utility model relates to a filter equipment of filter screen circulated movement.

Background

The filter device with the filter screen capable of circularly moving is characterized in that the filter screen can circularly move around the wheels at the upper end and the lower end. The filter screen is softer and is easily deformed when the fluid strength (such as typhoon) is high. And the outer edge of the filter screen is contacted with the impurity fluid, and the inner edge of the filter screen is not contacted with the impurity fluid, namely only the outer edge filters the impurity fluid. If the dust-proof window is used, two filter screens formed by the outer edge and the inner edge influence the sight of people in the house outside the window.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a filter equipment that filter plate circulation goes up and down.

The technical scheme of the utility model be that both sides are equipped with the outer rail, the outer straight rail of outer arc rail connection at both ends about the outer rail, the outer arc rail is outside outer straight rail, and the one end of filter plate is equipped with outer axle, and outer axle is equipped with the foreign steamer, and the foreign steamer is followed outer rail and is removed, and filter plate is aimed at to cleaning element.

Further, the technical scheme is that the cleaning component is an impeller or a vibration motor or a brush or a cleaning belt or a water tank.

Furthermore, the technical scheme is that the device is provided with an electric conductor or an ion generator.

Furthermore, the technical scheme is that the outer rail is single-sided, one end of the side wheel plate is connected with the outer shaft, the other end of the side wheel plate is connected with the side wheel, the outer wheel moves along one side of the outer rail, and the side wheel moves along the other side of the outer rail.

Furthermore, the technical scheme is that the solar cell and/or the sewage discharge pipe are/is arranged.

Furthermore, the technical scheme is that inner rails are arranged on two sides, outer rails on the two sides are arranged outside the inner rails, inner arc rails at the upper ends and the lower ends of the inner rails are connected with inner straight rails, the inner arc rails are arranged outside the inner straight rails, the outer rails protrude forwards from the outer arc rails at one ends of the inner rails, the outer rails protrude forwards from the inner arc rails at the other ends of the outer rails and the inner rails, inner shafts are arranged at the other ends of the filter screen plates, inner wheels are arranged on the inner shafts, the inner wheels move along the inner rails, and the inner rails at the intersection parts of the outer shafts and the inner rails are provided with sections.

Furthermore, the technical scheme is that an inner shaft is connected between the middle of the wheel spanning plate, wheel spanning plates are arranged in front and at the back of the wheel spanning plate, and the inner wheel and the wheel spanning plates move along the inner rail.

Furthermore, the technical scheme is that the push rod is arranged outside the upper end and the lower end of the outer rail and/or the inner rail, the push rod can touch the filter screen plate, and the filter screen plate can move up and down along the outer rail and/or the inner rail.

Furthermore, the technical proposal is that the push rod is arranged beside the outer rail or the inner rail, and the push rod can trigger the filter screen plate to move transversely.

Furthermore, the technical proposal is that the transverse edge of the filter screen plate is provided with a magnetic strip.

The beneficial effects of the utility model are that the utility model discloses a filter screen layer circulation that filter screen board constitutes removes, and the filter screen layer is self-cleaning at any time to the cleaning unit, ensures that filter screen board is unobstructed. The mesh number of the filter screen layer can be more than 100, namely 100 holes with the square of 1 centimeter, and visible impurities can be filtered. If used on a dust window, the room is free of visible dust. The problem that the sweeping robot cannot sweep dust on a tabletop or a table top is solved. The utility model discloses a filter screen board when truning into the decline by rising or trun into the rise by the decline, filter screen board horizontal sideslip. The turning radius of the track is small, and the volume is small. The thickness of the dust window for filtering air may be less than 6 cm. The utility model discloses a during the filter screen board sideslip, the filter screen board does not overturn, and the filter screen layer is towards impurity fluid all the time, can overcome current filter equipment filter screen layer upset when the sideslip, and the filter screen layer is towards clean area, and the filter screen layer does not have the sanitization's impurity to flow to clean area. The utility model discloses the filter screen layer that filter screen board constitutes is used in dustproof window. The transparent effect is realized, and the sight of people outside the window in the house is not influenced. The utility model discloses a filter screen board intensity is high, and when impurity fluid velocity of flow is high, filter screen board invariant. Such as strong wind or high velocity water flow. The utility model discloses a filter screen board cyclic shift makes things convenient for the cleaning element fixed. When the cleaning component cleans the filter screen plate, impurities can be discharged to the fixed area through the sewage discharge pipe. The utility model discloses a cleaning element can only shake a filter plate with shock dynamo, and the consumption is little, and is efficient, can control impurity row to fixed area. The cleaning component of the utility model can use a cleaning belt, and the cleaning belt can use a roll paper or a cloth belt. The filter screen board goes up and down to circulate through stock form or strap, and stock form or strap contact are through filter screen layer, and impurity is collected at stock form or strap, and impurity can not discharge to other regions. The water tank of the utility model is arranged at the lower part of the filtering device, the filter screen plate is immersed at the lowest end, and the cleaning effect of the filter screen plate is good. The water tank may also contain a disinfectant, such as alcohol. Each filter screen plate is dipped with alcohol to kill virus and prevent the virus from entering the room. The utility model discloses clean part's impeller, shock dynamo, brush, cleaning belt, water tank can make up wantonly, and clean effect is better. For example, the impeller is provided with a vibration motor, the vibration motor drives away dust on the filter screen plate, and wind generated by the impeller discharges the dust along the sewage discharge pipe. The utility model discloses the filter screen layer cyclic shift that filter plate constitutes, it is fixed to overcome current filter equipment's filter screen, and clean part reciprocates the shortcoming of clean filter screen, and the electric wire of connecting like water tank or motor reciprocates inconveniently. The utility model discloses be equipped with solar cell, solar cell provides the kinetic energy that filter plate goes up and down and clean the part. When the device is installed, no electric wire or power payment is needed. Accumulators or batteries may also be installed. In the absence of sunlight, power is supplied by a battery or batteries. The utility model discloses a conductor takes the burden electricity, discharges the anion in impurity-containing region, and the anion makes the dust take the burden electricity with the dust joint. The filter screen plate is positively charged, and the filter screen plate can collect dust more efficiently. The utility model can also be provided with a conductor on the filter screen plate, and the filter screen plate is connected with the anode and the cathode of the conductor to ensure that the dust is electrified. And positive ions can be collected, so that the positive ions are prevented from entering a room and causing adverse effects on human body health. The filter screen surface formed by the filter screen plate of the utility model can be automatically opened and closed from top to bottom, and can also be manually opened from top to bottom and from left to right. The user can conveniently replace or clean the cleaning component, such as dirty water or roll paper or cloth tape of the water tank, and the user can conveniently dry clothes. The utility model discloses a magnetic stripe is equipped with to the horizontal limit at both ends about the filter plate, and two adjacent filter plate connect closely, prevent that debris from passing from the gap of two filter plate. The utility model discloses there is the section at the inner rail, and the axle of foreign steamer can be through the section, and interior wheel also can stride the section. The front and the back of the shaft of the inner wheel are provided with the straddle wheels, and the inner wheel and the straddle wheels can stably pass through the cross section. The utility model discloses filterable impurity fluid can be air or rivers. For air filtration, such as dust windows. The cleaning agent can also be used for automatically cleaning a filter layer of an air purifier. It can also be used in water filtration. For example, the water collecting tank of the sedimentation tank in the production flow of the water plant can reduce the impurities from flowing into the water collecting tank and improve the efficiency of the filter.

Drawings

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

FIG. 2 is a schematic right-side view of FIG. 1;

FIG. 3 is an enlarged schematic view of K1 of FIG. 1;

FIG. 4 is an enlarged schematic view of K2 of FIG. 2;

FIG. 5 is a schematic view illustrating a counterclockwise traversing process of the lower screen plate of FIG. 1;

FIG. 6 is a schematic view of a shock motor;

FIG. 7 is a schematic view of the brush;

FIG. 8 is a schematic view of the cleaning belt;

FIG. 9 is a schematic view of a tank with an opening in the lower portion;

FIG. 10 is a schematic view of the electrical conductor mounted above;

FIG. 11 is a schematic view of an ionizer installed at a lower portion;

FIG. 12 is a schematic view of a screen plate with an electrical conductor;

FIG. 13 is a schematic view of a solar cell;

FIG. 14 is a schematic view of a screen plate equipped with edge wheels;

FIG. 15 is a front view of the inner rail;

FIG. 16 is a schematic view from the right of FIG. 15;

FIG. 17 is an enlarged schematic view of K3 of FIG. 15;

FIG. 18 is an enlarged schematic view of K4 of FIG. 16;

FIG. 19 is an enlarged schematic view of K5 of FIG. 15;

FIG. 20 is an enlarged schematic view of K6 of FIG. 16;

FIG. 21 is a cross-sectional view of the inner wheel and the straddle wheel crossing a straight line;

FIG. 22 is a cross-sectional view of the inner wheel and the straddle wheel spanning an arc;

FIG. 23 is a schematic front view of a bendable screen plate;

FIG. 24 is a schematic left side view of FIG. 23;

FIG. 25 is an enlarged schematic view of K7 of FIG. 23;

FIG. 26 is an enlarged schematic view of K8 of FIG. 24;

FIG. 27 is a schematic view of the beginning of the bending of a screen plate;

FIG. 28 is a schematic view showing upward movement of a screen plate;

FIG. 29 is a schematic view showing a screen plate moving downward;

FIG. 30 is a schematic front view of a push rod bending a lower screen plate;

FIG. 31 is a schematic view of the lower screen plate of FIG. 30 in a flat state;

FIG. 32 is a schematic view from the right of FIG. 31;

FIG. 33 is a schematic top view of the push rod;

FIG. 34 is a schematic view from the right of FIG. 33;

FIG. 35 is a schematic top and bottom view of the pusher;

FIG. 36 is a schematic front view of the push rod mounted adjacent the outer rail;

FIG. 37 is a schematic right view of FIG. 36;

FIG. 38 is a front view of the push rod mounted adjacent the inner rail;

FIG. 39 is an enlarged schematic view of K9 of FIG. 38;

Detailed Description

The invention is further explained by combining the drawings and the embodiments of the specification;

example 1: refer to fig. 1 to 5. As shown in fig. 1, the fluid flows through the screen plate 3 in the direction of five arrows. Outer rails 1 are arranged on two sides, outer arc rails 1A at the upper end and the lower end of each outer rail 1 are connected with outer straight rails 1B, the outer arc rails 1A are arranged outside the outer straight rails 1B, outer shafts 3A are arranged at one ends of filter screen plates 3, outer wheels 1W are arranged on the outer shafts 3A, the outer wheels 1W move along the outer rails 1, and cleaning parts 5 are aligned with the filter screen plates 3. The outside 1C of outer rail 1 is fixed, and the interior limit 1D of outer rail 1 is the belt, and interior limit 1D upper end is around outer upper wheel 6A, and interior limit 1D lower extreme is around outer lower wheel 6B, and outer lower wheel 6B connects lower wheel motor G2, and interior limit 1D rotates and makes filter plate 3 rise or fall. The lower transverse edge of the upper filter screen plate 3 contacts the upper transverse edge of the lower filter screen plate 3. The cleaning member 5 is an impeller 5A, and the impeller 5A is connected to a cleaning motor G5. The wind generated by the impeller 5A is blown to the filter screen plate 3 in the direction of the arrow to clean the filter screen plate 3. Fig. 5 is a process of counterclockwise traversing of the screen plate 3. As shown in fig. 4 and 5, the outer wheel 1W has a side 1E.

Example 2: refer to fig. 6. The cleaning component 5 is a vibrating motor 5B, the vibrating motor 5B is provided with an eccentric wheel 5B1, and the vibrating motor 5B can contact the filter screen plate 3.

Example 3: refer to fig. 7. The cleaning member 5 is a brush 5C, and the brush 5C may contact the screen plate 3. The filtering device is provided with a sewage draining pipe 9.

Example 4: refer to fig. 8. The cleaning member 5 is a cleaning belt 5D, and the cleaning belt 5D may contact the screen plate 3.

Example 5: refer to fig. 9. The lower part of the filter device is provided with an open water tank 5E.

It should be noted that the above-mentioned impeller 5A, vibration motor 5B, brush 5C, cleaning belt 5D, and water tank 5E may be used in combination.

Example 6: refer to fig. 10. The filter unit is provided with an electric conductor 6, the electric conductor 6 is connected with a negative electrode, the filter screen plate 3 is connected with a positive electrode, and the electric conductor 6 generates negative ions to negatively charge dust. The positively charged filter screen plate 3 collects dust to purify air. A waterproof cover 13 is provided outside the conductor 6, and the fan 12 of the conductor 6 blows negative ions downward.

Example 7: refer to fig. 11. An ion generator 11 is arranged below the filtering device, and ions enable dust to be charged so as to purify air.

It should be noted that the ion generator 11 may be installed above the filter device.

Example 8: refer to fig. 12. The screen plate 3 is provided with an electrical conductor 6. The filter screen plate 3 is connected with the negative electrode, and the electric conductor 6 is connected with the positive electrode. The screen plate 3 receives positively charged dust or positive ions. Preventing positive ions from entering the room. Alternatively, the filter screen plate 3 is connected with the anode and the conductor 6 is connected with the cathode. The rest refer to the above embodiments.

Example 9: refer to fig. 13. The filter unit is equipped with solar panels 8.

Example 10: refer to fig. 14. Outer rail 1 is unilateral, and outer axle 3A is connected to the one end of limit wheel board P1, and the other end of limit wheel board P1 is connected the limit wheel 3W, and outer wheel 1W moves along one side of outer rail 1, and limit wheel 3W moves along the another side of outer rail 1. The outer shaft 3A is connected to an edge wheel motor G4. The rest refer to the above embodiments.

Example 11: refer to fig. 15 to 20. Outer rails 1 are arranged on two sides, outer arc rails 1A at the upper end and the lower end of the outer rail 1 are connected with outer straight rails 1B, and the outer arc rails 1A are arranged outside the outer straight rails 1B. Inner rails 2 are arranged on two sides, outer rails 1 on two sides are arranged outside the inner rails 2, inner arc rails 2A at the upper end and the lower end of each inner rail 2 are connected with inner straight rails 2B, the inner arc rails 2A are arranged outside the inner straight rails 2B, the outer rails 1 are arranged in front of the inner arc rails 2A in a protruding mode with the outer arc rails 1A at one ends of the inner rails 2, and the outer rails 1 are arranged in front of the outer arc rails 1A in a protruding mode with the inner arc rails 2A at the other ends of the inner rails 2. An outer shaft 3A is arranged at one end of the filter screen plate 3, an inner shaft 3B is arranged at the other end of the filter screen plate 3, an outer wheel 1W is arranged on the outer shaft 3A, an inner wheel 2W is arranged on the inner shaft 3B, and the cleaning component 5 is aligned with the filter screen plate 3. The outer upper wheel 6A is connected with an upper wheel motor G1, and the outer upper wheel 6A is connected with the inner upper wheel 6D through a wheel belt 6F. The lower wheel motor G2 is connected with the inner lower wheel 6E, and the inner lower wheel 6E is connected with the outer lower wheel 6B through the belt 6F. The outer wheel 1W moves along the outer rail 1, and the inner wheel 2W moves along the inner rail 2. As shown in fig. 17, the outer shaft 3A moves in the direction of the arrow of the trajectory 14A, and the inner rail 2 has a cross section 4 where the outer shaft 3A intersects with the inner rail 2. As shown in figures 15 and 17, a solar panel 8 is arranged above the filtering device, and a sewage discharge pipe 9 is arranged below the filtering device.

The rest refer to the above embodiments.

Example 12: refer to fig. 21 and 22. An inner shaft 3B is connected to the middle of the wheel span plate P2, a wheel span 4W is arranged at the front and the rear of the wheel span plate P2, and the inner wheel 2W and the wheel span 4W move along the inner rail 2. The inner wheel 2W and the straddle wheel 4W move in the arrow direction of the locus 24B. The rest refer to the above embodiments.

Example 13: refer to fig. 23 to 28. Middle wheels 6C are arranged at the upper end and the lower end of the parallel section of the outer straight rail 1B and the inner straight rail 2B, a middle wheel belt 6G surrounds the middle wheels 6C at the upper end and the lower end, and one side of the middle wheel belt 6G can contact the outer wheel 1W and the inner wheel 2W to form part of the inner side of the middle section of the outer rail 1 and the inner rail 2. One middle wheel 6C is connected to a middle wheel motor G3. An inner shaft sleeve 3F is arranged at one end of the filter screen plate 3, the inner shaft sleeve 3F is connected with an inner shaft 3B, an outer shaft sleeve 3E is arranged at the other end of the filter screen plate 3, the outer shaft sleeve 3E is connected with an outer shaft 3A, as shown in figure 26, and an outer straight rail 1B and an inner straight rail 2B are distinguished by dotted lines. As shown in fig. 27, the upper wheel motor G1 is stationary, and the middle wheel motor G3 and the lower wheel motor G2 rotate clockwise. The uppermost screen plate 3 is stationary, i.e. the 1 st screen plate 3 is stationary. The other screen plates 3 move upwards and the 2 nd screen plate 3 starts to bend. As shown in fig. 28, the screen plate 3 below the 2 nd block is bent and the filter unit is opened. The rest refer to the above embodiments.

Example 14: refer to fig. 29. The lower wheel motor G2 is fixed, and the middle wheel motor G3 and the upper wheel motor G1 rotate anticlockwise. The lowermost screen plate 3 is stationary and the other screen plates 3 are bent and the filter device is opened. The rest refer to the above embodiments.

Example 15: refer to fig. 30 to 32. The push rod 7 is arranged outside the lower part of the outer rail 1, the push rod 7 can touch the filter screen plate 3, and the filter screen plate 3 moves upwards along the outer rail 1 and/or the inner rail 2. As shown in fig. 30, the uppermost screen plate 3 and the upper wheel motor G1 are stationary, the other screen plates 3 are bent, and the filter unit is opened. Interior axle 3B is connected to upper boom 3D one end, and the articulated lower beam 3C one end of the 3D other end of upper boom, outer axle 3A is connected to the 3C other end of lower beam. Is provided with a brush 5C and an impeller 5A. The lower outer rail inner edge 1D is a belt, and the outer rail inner edge 1D surrounds the upper and lower outer lower wheels 6B.

Example 16: refer to fig. 33 and 34. The push rod 7 is arranged outside the upper part of the inner rail 2, the push rod 7 can touch the filter screen plate 3, and the filter screen plate 3 moves downwards along the outer rail 1 and/or the inner rail 2. An outer frame plate 14 is arranged at the edge of the outer rail 1, and an inner frame plate 15 is arranged at the edge of the inner rail 2. The rest refer to the above embodiments.

Example 17: refer to fig. 35. The push rod 7 is arranged outside the upper end and the lower end of the outer rail 1 and the inner rail 2.

Example 18: refer to fig. 36 and 37. The push rod 7 is arranged beside the outer rail 1, and the push rod 7 can touch the filter screen plate 3 to move transversely.

Example 19: refer to fig. 38 and 39. The push rod 7 is arranged beside the inner rail 2, and the push rod 7 can touch the filter screen plate 3 to move transversely.

Example 20: refer to fig. 37 and 39. The transverse edge of the filter screen plate 3 is provided with a magnetic strip 10.

It should be noted that the filter device can be laid flat to filter the impurity fluid flowing from top to bottom. The filter can also be placed obliquely to filter impurity fluid flowing from an oblique direction.

Claims (10)

1. The utility model provides a filter equipment that filter plate circulation goes up and down, its characterized in that both sides are equipped with outer rail (1), outer straight rail (1B) is connected in outer arc rail (1A) at both ends about outer rail (1), outer arc rail (1A) is outside outer straight rail (1B), outer axle (3A) are equipped with to the one end of filter plate (3), outer axle (3A) are equipped with foreign steamer (1W), foreign steamer (1W) move along outer rail (1), clean part (5) aim at filter plate (3).

2. A filter device according to claim 1, characterized in that the cleaning member (5) is an impeller (5A) or a vibrating motor (5B) or a brush (5C) or a cleaning belt (5D) or a water tank (5E).

3. A filter device according to claim 1, characterized in that an electrical conductor (6) or an ion generator (11) is provided.

4. The filter device according to claim 1, wherein the outer rail (1) is single-sided, one end of the side wheel plate (P1) is connected to the outer shaft (3A), the other end of the side wheel plate (P1) is connected to the side wheel (3W), the outer wheel (1W) moves along one side of the outer rail (1), and the side wheel (3W) moves along the other side of the outer rail (1).

5. A filter device according to claim 1, characterised in that solar cells (8) and/or a sewage drain (9) are provided.

6. The filtering device according to claim 1, wherein the inner rail (2) is installed at two sides, the outer rail (1) at two sides is outside the inner rail (2), the inner arc rail (2A) at the upper end and the lower end of the inner rail (2) is connected with the inner straight rail (2B), the inner arc rail (2A) is outside the inner straight rail (2B), the outer rail (1) and the outer arc rail (1A) at one end of the inner rail (2) protrude ahead of the inner arc rail (2A), the inner arc rail (2A) at the other end of the outer rail (1) and the inner rail (2) protrude ahead of the outer arc rail (1A), the inner shaft (3B) is installed at the other end of the filter screen plate (3), the inner shaft (2W) is installed on the inner shaft (3B), the inner shaft (2W) moves along the inner rail (2), and the inner rail (2) at the intersection of the outer shaft (3A) and the inner rail (2) has a section (4).

7. The filtering device according to claim 6, characterized in that the inner shaft (3B) is connected with the middle of the wheel spanning plate (P2), the wheel spanning plate (P2) is provided with a wheel spanning wheel (4W) at the front and the rear, and the inner wheel (2W) and the wheel spanning wheel (4W) move along the inner rail (2).

8. A filter device according to claim 6, characterized in that the push rod (7) is arranged outside the upper and lower ends of the outer rail (1) and/or the inner rail (2), the push rod (7) can touch the screen plate (3), and the screen plate (3) can move up and down along the outer rail (1) and/or the inner rail (2).

9. A filter device according to claim 6, characterized in that the push rod (7) is arranged beside the outer rail (1) or the inner rail (2), the push rod (7) activating the filter screen plate (3) to move laterally.

10. A filter device according to claim 6, characterised in that the screen plate (3) is provided with magnetic strips (10) at its transverse edges.

Images