CN118634558B - Low-voltage environment-friendly agglutination filtering equipment - Google Patents

Abstract

The present invention discloses a low-voltage environmentally friendly condensation and filtering device, which relates to the field of filtering technology, wherein the low-voltage environmentally friendly condensation and filtering device comprises a movable seat, a control component and a filtering component; the technical scheme of the present invention is to respectively arrange a plurality of filter elements between a first electrode and a second electrode and between the second electrode and a grounding part, and to generate a weak current by energizing the first electrode and the second electrode and outputting a low voltage, so that the electric power generated between the filtering media becomes smaller, thereby reducing energy consumption, and generating a potential difference between the first electrode and the second electrode and between the second electrode and the grounding part, so that impurities are affected by the change of the electric field and aggregate into clusters, and the clustered impurities avoid passing through the gap in the filter element, thereby improving the filtering quality of the filter element.

Description

Low-voltage environment-friendly agglutination filtering equipment

Technical Field

The invention relates to the technical field of filtration, in particular to low-voltage environment-friendly agglutination filtration equipment.

Background

The filtering and purifying methods in the related art comprise a static precipitation method, a centrifugal separation method, a filter screen isolation method and a high-voltage electrostatic oil removal method, but the static precipitation method has the problems of long time consumption and low efficiency in the filtering and purifying methods, the filter screen isolation method has the defects of poor filtering quality due to the limitation of the size of a mesh, and the centrifugal separation method and the high-voltage electrostatic oil removal method have high energy consumption.

Therefore, it is desirable to provide a device that consumes less energy and that ensures filtration quality.

Disclosure of Invention

The invention mainly aims to provide low-voltage environment-friendly agglutination filtering equipment, which aims to reduce low energy consumption and ensure filtering quality.

In order to achieve the above object, the present invention provides a low-voltage environment-friendly coagulation filtration apparatus comprising:

A movable seat;

The control assembly is arranged on the movable seat;

The filtering component comprises a barrel body, and the barrel body is arranged on the movable seat and is electrically connected with the control component;

The novel water tank is characterized in that a grounding part, a first electrode and a second electrode are arranged in the tank body, the first electrode, the second electrode and the grounding part are arranged at intervals, the first electrode, the second electrode and the grounding part are electrically connected with each other, a plurality of filter elements are arranged between the first electrode and the second electrode, and a plurality of filter elements are arranged between the second electrode and the grounding part.

In an embodiment, the first electrode and the second electrode are both annular, the second electrode is disposed in the first electrode, and the grounding portion is disposed in the second electrode.

In an embodiment, a plurality of guiding parts are arranged between the first electrode and the second electrode at intervals, a plurality of guiding parts are arranged between the second electrode and the grounding part at intervals, and the filter element is inserted into one guiding part.

In an embodiment, a filter cavity is arranged in the barrel body, a sealing cover structure is arranged on the barrel body, the filter cavity is sealed, a liquid inlet and a liquid outlet are arranged on the side of the barrel body, and the liquid outlet and the liquid inlet are distributed at different positions on the side face of the barrel body.

In one embodiment, the filter assembly further comprises a plurality of sealing portions, one sealing portion is arranged on one filter element, and the sealing portion is abutted with the sealing cover structure.

In an embodiment, the sealing portion includes an elastic member and a blocking member, the blocking member is disposed on the filter element, the elastic member portion abuts against the blocking member, and the elastic member portion abuts against the capping structure.

In one embodiment, a plurality of liquid inlet pipes are arranged in the filter element, and the liquid inlet pipes are communicated with the liquid inlet.

In one embodiment, the capping structure is in contact with the first electrode.

In an embodiment, the side of the barrel body is provided with a filter auxiliary barrel, the filter auxiliary barrel is connected with the liquid inlet, and the filter auxiliary barrel is connected with a connecting pipeline, and the connecting pipeline is connected with the pump body.

In an embodiment, the control assembly includes a cabinet body, a touch module and a pressure detection portion, where the cabinet body is disposed on the movable seat, and the touch module and the pressure detection portion are both disposed on the cabinet body.

According to the technical scheme, the filter elements are respectively arranged between the first electrode and the second electrode and between the second electrode and the grounding part, the first electrode and the second electrode are electrified, weak current is generated in a mode of outputting low voltage, so that electric power generated between filter media is reduced, energy consumption is further reduced, potential differences are generated between the first electrode and the second electrode and between the second electrode and the grounding part, impurities are further mutually aggregated under the influence of electric field change, and the aggregated impurities are prevented from passing through gaps in the filter elements, so that the filtering quality of the filter elements is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of an embodiment of a low voltage environment-friendly agglutination filtration apparatus provided by the present invention;

FIG. 2 is a schematic diagram of an explosion structure of a filter assembly in an embodiment of the low voltage environment-friendly agglutination filter apparatus provided by the present invention;

FIG. 3 is a schematic view of another embodiment of the low voltage environment-friendly agglutination filtration apparatus provided by the present invention;

FIG. 4 is a schematic view of a low voltage environment-friendly agglutination filtration apparatus according to another embodiment of the invention;

FIG. 5 is a schematic view of a low voltage environment-friendly agglutination filtration apparatus according to another embodiment of the invention.

Reference numerals illustrate:

1000. The low-voltage environment-friendly agglutination filtering equipment comprises 10 parts, a movable seat, 20 parts, an electric cabinet, 30 parts, a pump body, 40 parts, a filtering component, 41 parts, a liquid inlet, 42 parts, a barrel body, 421 parts, a sealing cover structure, 4211 parts, a binding hoop, 4212 parts, a sealing cover, 4213 parts, a pressing plate, 422 parts, a sealing part, 423 parts, a filter element, 424 parts, a sealing ring, 425 parts, a first electrode, 426 parts, a guiding part, 427 parts, a second electrode, 428 parts, a grounding part, 429 parts, a barrel part, 43 parts, a liquid outlet, 44 parts, a pressure valve, 45 parts, a connecting pipeline, 46 parts, a filtering auxiliary barrel, 50 parts, a control component, 51 parts, a cabinet body, 52 parts, a touch control module, 53 parts and a pressure detection part.

The achievement of the objects, functional features and advantages of the present invention will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that, if directional indications (such as up, down, left, right, front, and rear are referred to in the embodiments of the present invention), the directional indications are merely used to explain the relative positional relationship, movement conditions, and the like between the components in a specific posture, and if the specific posture is changed, the directional indications are correspondingly changed.

In addition, if there is a description of "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, if "and/or" and/or "are used throughout, the meaning includes three parallel schemes, for example," a and/or B "including a scheme, or B scheme, or a scheme where a and B are satisfied simultaneously. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present invention.

The invention provides low-voltage environment-friendly agglutination filtering equipment.

Referring to fig. 1 and 2, in one embodiment of the invention, the low voltage environment-friendly agglutination filtration apparatus comprises:

A movable base 10;

A control assembly 50, wherein the control assembly 50 is arranged on the movable seat 10;

The filtering assembly 40, the filtering assembly 40 includes a tub 42, the tub 42 is disposed on the moving base 10 and electrically connected to the control assembly 50;

The barrel 42 is provided with a grounding portion 428, a first electrode 425 and a second electrode 427, the first electrode 425, the second electrode 427 and the grounding portion 428 are arranged at intervals, the first electrode 425, the second electrode 427 and the grounding portion 428 are electrically connected with each other, a plurality of filter elements 423 are arranged between the first electrode 425 and the second electrode 427, and a plurality of filter elements 423 are arranged between the second electrode 427 and the grounding portion 428.

As shown in fig. 1, the mobile base 10 is a mobile cart, and is used for carrying the filtering assembly 40 and the control assembly 50, so as to facilitate transportation of equipment and adapt to filtering and purifying of different sites.

It will be appreciated that, as shown in fig. 1, the movable base 10 is provided with an electric cabinet 20, and the electric cabinet 20 is connected to the control unit 50 and the filter unit 40, and supplies electric power to the control unit 50 and the filter unit 40.

It is to be understood that the control assembly 50 is connected to the filtering assembly 40, and the control assembly 50 controls the operation of the filtering assembly 40, so that the electric potential difference is generated around the filter element 423 by controlling the electric currents of the first electrode 425 and the second electrode 427, so that the impurities are conveniently clustered under the influence of the electric field change, and the filter element 423 can conveniently realize efficient and high-quality filtering of the impurities.

It should be noted that, as shown in fig. 2, the filter element 423 is cylindrical, and the filter element 423 is hollow, and in the filtering process, the liquid to be filtered is poured into the center of the filter element 423, so that the liquid can flow out through the filter element 423, so that all the liquid can be filtered, and the filtering effect and quality of the liquid are improved.

In the technical scheme of the invention, a plurality of filter cartridges 423 are respectively arranged between the first electrode 425 and the second electrode 427 and between the second electrode 427 and the grounding part 428, weak current is generated by electrifying the first electrode 425 and the second electrode 427 and outputting low voltage, so that electric power generated between filter media is reduced, energy consumption is reduced, potential difference is generated between the first electrode 425 and the second electrode 427 and between the second electrode 427 and the grounding part 428, impurities are mutually aggregated under the influence of electric field change, and the aggregated impurities are prevented from passing through gaps in the filter cartridges 423, so that the filter quality of the filter cartridges is improved.

In an embodiment, the first electrode 425 and the second electrode 427 are both annular, the second electrode 427 is disposed in the first electrode 425, and the grounding part 428 is disposed in the second electrode 427.

In order to ensure that the plurality of filter cartridges 423 disposed in the tub 42 can be disposed in a varying electric field, so that the impurities are displaced in the varying electric field to be agglomerated with each other, the first electrode 425 and the second electrode 427 are disposed in a ring shape, and the grounding part 428 is disposed at the center of the second electrode 427.

It is to be understood that the second electrode 427 is disposed in the first electrode 425, such that the first electrode 425 is disposed around the second electrode 427, and the grounding part 428 is disposed at the center of the second electrode 427, such that a potential difference is generated between the first electrode 425 and the second electrode 427, and a potential difference is generated between the first electrode 425 and the grounding part 428, so that the liquid to be filtered in the plurality of filter cartridges 423 disposed can aggregate impurities under the effect of the varying electric field.

In an embodiment, a plurality of guiding portions 426 are disposed between the first electrode 425 and the second electrode 427 at intervals, a plurality of guiding portions 426 are disposed between the second electrode 427 and the grounding portion 428 at intervals, and the filter element 423 is inserted into one guiding portion 426.

As shown in fig. 2, a plurality of guide portions 426 are arranged at intervals, and the filter element 423 is inserted into the guide portions 426, so that the plurality of filter elements 423 are arranged between the first electrode 425 and the second electrode 427 and between the first electrode 425 and the grounding portion 428 by arranging the plurality of guide portions 426.

It can be appreciated that, by the arrangement of the plurality of guide portions 426, the filter elements 423 are arranged in the barrel 42 at intervals, so that the position of the filter elements 423 is limited, and the filter elements 423 are convenient to install and replace.

In an embodiment, a filter cavity is disposed in the barrel 42, a cover structure 421 is disposed on the barrel 42, and the filter cavity is sealed, a liquid inlet 41 and a liquid outlet 43 are disposed on the side of the barrel 42, and the liquid outlet 43 and the liquid inlet 41 are distributed at different positions on the side of the barrel 42.

It can be appreciated that the setting of filter chamber is used for holding a plurality of filter core 423, and owing to a plurality of setting of guide 426 makes a plurality of filter core 423 orderly arrange in the filter chamber, through orderly layout a plurality of filter core 423, and then avoid a plurality of filter core 423 relies on too closely each other and influences filtration quality and efficiency.

It will be appreciated that the liquid inlet 41 is configured to facilitate filling of the filter chamber with liquid to be filtered, and the liquid outlet 43 is configured to facilitate draining of liquid filtered by the filter element 423.

As shown in fig. 1, the liquid inlet 41 is disposed at a high position of the outer side surface of the tub 42 and is in communication with the filter cavity, and the liquid outlet 43 is disposed at a low position of the outer side surface of the tub 42 and is in communication with the filter cavity.

It can be understood that the liquid inlet 41 and the liquid outlet 43 are at different heights, so as to facilitate liquid outlet.

As shown in fig. 5, the liquid inlet 41 is connected with a connecting pipe 45, the liquid outlet 43 is connected with a liquid outlet channel, and both the connecting pipe 45 and the liquid outlet channel extend into the space for storing the liquid to be filtered.

It can be appreciated that the sealing of the filter cavity is achieved by the cover structure 421, so that the filtering quality of the liquid is prevented from being affected by external factors.

As shown in fig. 2, the tub 42 includes a tub 429, and the filter cavity is provided in the tub 429.

As shown in fig. 2, the cover structure 421 includes a cover 4212, a binding band 4211, and a pressing plate 4213, the pressing plate 4213 is disposed in the filter cavity and contacts the first electrode 425, the pressing plate 4213 contacts the plurality of filter elements 423, the cover 4212 is disposed on the barrel 429 and seals the filter cavity, the pressing plate 4213 is connected to a side surface of the cover 4212 near the filter cavity, and the binding band 4211 is sleeved on the barrel 429 and connected to the cover 4212.

It can be appreciated that the pressing plate 4213 is configured to abut against a plurality of the filter elements 423, so that the bottom of the filter element 423 abuts against the ground of the filter cavity, and the top of the filter element 423 abuts against the pressing plate 4213, so as to avoid that liquid overflows from the section of the filter element to affect the filtering quality.

It will be appreciated that the cover 4212 closes the barrel 429 to prevent the filter cavity from communicating with the outside and affecting the quality of the filter.

The side of the cover 4212 facing away from the filter cavity is provided with a plurality of handles at intervals.

It will be appreciated that the provision of a plurality of said grips facilitates the operator to grasp the grips to facilitate opening of the barrel 429 and thus the operation of the filter chamber when the operator is required to install or replace the filter cartridge.

The cover 4212 is provided with a pressure valve 44, and the pressure valve 44 extends into the filter cavity, so as to control the pressure in the filter cavity.

It will be appreciated that when the filter element 423 in the filter cavity needs to be replaced, the pressure in the filter cavity is controlled by the pressure valve 44, and when the pressure is too high, the pressure valve 44 is used for decompressing the filter cavity, so that the too high pressure is avoided, and the operator is influenced in the process of opening the cover 4212.

The band 4211 closes the junction between the cover 4212 and the barrel 429.

The side surface of the cover 4212 is provided with a sealing ring 424.

It will be appreciated that the arrangement of the band 4211 and the seal 424 prevents liquid from leaking from the gap and affecting filtration.

In an embodiment, the filter assembly 40 further includes a plurality of sealing portions 422, one sealing portion 422 is disposed on one filter element 423, and the sealing portion 422 abuts against the cover structure 421.

As shown in fig. 2, the filter element 423 is hollow, so as to facilitate the pouring of the liquid, and avoid the liquid to be filtered from overflowing from the section of the filter element 423 to affect the filtering quality, so that the sealing part 422 is provided to seal the cross section of the filter element 423, thereby avoiding the liquid from overflowing.

It can be appreciated that the sealing portion 422 is disposed on the upper portion of the filter element 423, and the pressing plate 4213 abuts against the sealing portion 422, so that the sealing portion 422 abuts against, cooperates with the bottom wall of the filter cavity, so as to seal the hollow portion of the filter element 423, avoid liquid overflowing from the cross section of the filter element 423, and improve the filtering quality.

In one embodiment, the sealing portion 422 includes an elastic member and a blocking member, the blocking member is disposed on the filter element 423, the elastic member partially abuts against the blocking member, and the elastic member partially abuts against the cover structure 421.

The elastic member is a spring, and the blocking member is a rubber member.

As shown in fig. 2, the filter element 423 is vertically disposed in the filter cavity, the blocking member is disposed at the top of the filter element 423, the elastic member is disposed on the side surface of the blocking member away from the filter element 423, the elastic member abuts against the blocking member, and the elastic member abuts against the pressing plate 4213.

It can be appreciated that the pressing plate 4213 abuts against the elastic member and the blocking member, so that the blocking member can block the hollow upper opening of the filter element, and when the elastic member cooperates with the pressing plate 4213 to abut against the filter element 423, the lower end of the filter element 423 abuts against the bottom wall of the filter cavity, so that the hollow blocking of the filter element 423 is realized, and the overflow of liquid is avoided.

It is to be appreciated that a gap exists between the pressing plate 4213 and the bottom of the filter element 423, so that the installation of the blocking piece is facilitated, and the elastic piece is arranged between the pressing plate 4213 and the blocking piece, so that the blocking piece is abutted to the filter element 423, and the blocking effect of the blocking piece is prevented from being affected by the existence of a gap.

The elastic member is provided to fill the gap between the pressing plate 4213 and the blocking member, so as to avoid affecting the blocking effect of the blocking member, and thus the gap between the pressing plate 4213 and the blocking member is not limited to the elastic member.

In one embodiment, a plurality of liquid inlet pipes are disposed in the filter element 423, and the plurality of liquid inlet pipes are all communicated with the liquid inlet 41.

It will be appreciated that the arrangement of the liquid inlet pipe facilitates guiding the liquid from the liquid inlet 41 to the center of the filter element 423, so that the liquid can be filtered through the filter element 423 from inside to outside, and the filtering quality and efficiency of the liquid can be improved by water pressure.

It should be noted that, the feed liquor pipe runs through the shutoff piece, just the feed liquor pipe with shutoff piece interference fit avoids liquid to pass through the feed liquor pipe with gap overflow between the shutoff piece leaks.

In an embodiment, the filter element is disposed, a communicating pipe is disposed on the filter element 423 and is communicated with the center of the filter element 423, and the liquid inlet pipe is connected with the communicating pipe, so that liquid enters into the center of the filter element 423 through the communicating pipe, and filtration is achieved conveniently.

In one embodiment, the capping structure 421 is in contact with the first electrode 425.

The first electrode 425 is annular, and the pressing plate 4213 is in contact with the first electrode 425.

It is understood that the pressing plate 4213 is in contact with the first electrode 425. The cooperation the diapire of filter chamber in the filter chamber forms the stock solution space once more, avoids liquid to pass through the side overflow of first electrode to between the filter chamber lateral wall with first electrode 425, and then avoid influencing filtration quality and efficiency, avoid influencing the output to liquid after the filtration simultaneously.

In an embodiment, as shown in fig. 1 and 3, a filter sub-tank 46 is disposed at a side of the tank 42, the filter sub-tank 46 is connected to the liquid inlet 41, and the filter sub-tank 46 is connected to a connection pipe 45, and the connection pipe 45 is connected to the pump body 30.

As shown in fig. 1, a bracket is disposed on a side surface of the tub 42, and a sub-filter tub 46 is disposed on the bracket, the liquid inlet 41 is connected to the sub-filter tub 46, and the connection pipe 45 is connected to the sub-filter tub 46.

It will be appreciated that liquid entering the filter chamber through the connecting conduit 45 first enters the filter sub-tank 46, and liquid enters the filter chamber from the filter sub-tank 46 through the liquid inlet 41.

It will be appreciated that the arrangement of the sub-filter cartridge 46 avoids the effect on the filtering efficiency due to the rapid ingress of liquid into the filter chamber by the pump body 30, and that the sub-filter cartridge 46 is therefore capable of controlling the flow rate of liquid.

The pump body 30 is disposed on the movable base 10.

In an embodiment, as shown in fig. 4, the control assembly 50 includes a cabinet 51, a touch module 52 and a pressure detecting portion 53, the cabinet 51 is disposed on the movable base 10, and the touch module 52 and the pressure detecting portion 53 are both disposed on the cabinet 51.

It will be appreciated that the touch module 52 is used for a manipulator to manipulate the operating device.

It is to be understood that the pressure detecting unit 53 is configured to detect the pressure in the filter cavity, and by observing the pressure detecting unit 53, the pressure in the filter cavity is released by the pressure valve 44 when the pressure is too high.

The foregoing description is only exemplary embodiments of the present invention and is not intended to limit the scope of the invention, and all equivalent structural changes made by the description of the present invention and the accompanying drawings or direct/indirect application in other related technical fields are included in the scope of the present invention.

Claims (3)

1. A low voltage environmentally friendly condensation and filtration device, characterized in that it comprises: Mobile seat; A control component, wherein the control component is arranged on the moving base; A filter assembly, the filter assembly comprising a barrel body, the barrel body being disposed on the movable seat and electrically connected to the control assembly; Wherein, a grounding part, a first electrode and a second electrode are provided in the barrel body, the first electrode, the second electrode and the grounding part are arranged at intervals, and the first electrode, the second electrode and the grounding part are electrically connected to each other, a plurality of filter elements are provided between the first electrode and the second electrode, and a plurality of filter elements are provided between the second electrode and the grounding part; The filter element is cylindrical and hollow; The first electrode and the second electrode are both ring-shaped, the second electrode is arranged inside the first electrode, and the grounding portion is arranged inside the second electrode; A plurality of guide parts are arranged between the first electrode and the second electrode, a plurality of guide parts are arranged between the second electrode and the grounding part, and the filter element is plugged into one of the guide parts; A filter cavity is provided in the barrel body, a cover structure is provided on the barrel body, and the filter cavity is closed, a liquid inlet and a liquid outlet are provided on the side of the barrel body, and the liquid outlet and the liquid inlet are distributed at different positions on the side of the barrel body; The sealing structure includes a sealing cover, a tie hoop and a pressing plate, wherein the pressing plate is arranged in the filter cavity and contacts the first electrode, the pressing plate contacts the plurality of filter elements, the sealing cover is arranged in the barrel portion and closes the filter cavity, the pressing plate is connected to the side of the sealing cover close to the filter cavity, and the tie hoop is sleeved on the barrel portion and connected to the sealing cover; The filter assembly further comprises a plurality of sealing parts, one of the sealing parts is provided on one filter element, and the sealing part abuts against the sealing cover structure; The sealing part comprises an elastic member and a blocking member, wherein the blocking member is arranged on the filter element, the elastic member partially abuts against the blocking member, and the elastic member partially abuts against the sealing cover structure; A plurality of the filter elements are each provided with a liquid inlet pipe, and the plurality of the liquid inlet pipes are each connected to the liquid inlet port; The liquid inlet pipe passes through the blocking member; The filter element is provided with a communication pipe communicating with the center of the filter element, and the liquid inlet pipe is connected to the communication pipe. 2. The low-voltage environmentally friendly condensation filtration equipment as described in claim 1 is characterized in that a filtering sub-barrel is provided on the side of the barrel body, the filtering sub-barrel is connected to the liquid inlet, and the filtering sub-barrel is connected to a connecting pipe, and the connecting pipe is connected to the pump body. 3. The low-voltage environmentally friendly condensation and filtration device according to claim 1, characterized in that the control component includes a cabinet, a touch module and a pressure detection unit, the cabinet is arranged on the movable seat, and the touch module and the pressure detection unit are both arranged on the cabinet.