CN117285172B

CN117285172B - Electromagnetic corrosion and scale inhibitor for produced liquid

Info

Publication number: CN117285172B
Application number: CN202311570127.2A
Authority: CN
Inventors: 韩宝柱; 袁泉; 安学先; 杨怀杰; 王振瑶; 王天一; 王博凯; 刘欣; 李元海; 韩璐; 刘昕; 江涛
Original assignee: Shandong Xingda Environmental Protection Technology Co ltd
Current assignee: Shandong Xingda Environmental Protection Technology Co ltd
Priority date: 2023-11-23
Filing date: 2023-11-23
Publication date: 2024-01-23
Anticipated expiration: 2043-11-23
Also published as: CN117285172A

Abstract

The invention relates to the technical field of electromagnetic descaling devices, in particular to an electromagnetic anti-corrosion and scale-inhibiting device for produced liquid, which comprises a water pipe, wherein an electromagnetic descaling component is arranged on the water pipe, the other end of the water pipe is communicated with a filter box for filtering colloid, a partition plate is arranged in the filter box, a first filter plate for filtering colloid is arranged on the partition plate, the electromagnetic anti-corrosion and scale-inhibiting device further comprises an ash storage box, and an ash storage box is detachably arranged on one side, far away from the electromagnetic descaling component, of the partition plate. According to the electromagnetic corrosion and scale prevention device for the produced liquid, the ash storage box is arranged, when the ash sweeping rod moves downwards to the bottom of the filter box, the colloid adsorbed on the first filter plate can be scraped into the ash storage box for storage through the ash inlet hole, and meanwhile, when the ash sweeping rod moves upwards from the bottom of the filter box, the ash inlet hole is sealed by pushing the backflow prevention baffle back under the pushing of the reset component through the backflow prevention baffle, so that the colloid in the ash storage box can be prevented from flowing outwards, and the applicability of the device is improved.

Description

Electromagnetic corrosion and scale inhibitor for produced liquid

Technical Field

The invention relates to the technical field of electromagnetic descaling devices, in particular to an electromagnetic corrosion and scale inhibitor for produced liquid.

Background

The electromagnetic descaling device is a special instrument for water treatment by adopting a physical method, and can achieve the effects of scale prevention and descaling by changing the physical structure of water molecules on the basis of keeping the chemical components of the original water.

The patent application number CN201810755681.0 discloses an electromagnetism scale removal device for water system, including shell and four rust-resistant mechanisms, be equipped with filtering mechanism in the shell, filtering mechanism includes filter screen and clearance subassembly, clearance subassembly includes elevating unit and swing unit, elevating unit includes first motor, lead screw and movable block, the swing unit includes second motor, wire reel, connecting wire and swing board, rust-resistant mechanism includes reciprocal subassembly, tiling subassembly and three shower nozzle, tiling subassembly includes third motor, drive wheel and two tiling units.

The device is used for intercepting and filtering colloid through the filter mechanism, and the filter mechanism is cleaned through the cleaning component to avoid blockage, but the device cannot collect the cleaned colloid, so that the colloid on the filter mechanism is accumulated more, the cleaning component can clean the colloid on the filter mechanism, and the cleaned colloid can be immediately flushed on the filter mechanism along with flushing of water flow, so that the filter mechanism is blocked.

Disclosure of Invention

Therefore, the invention aims to provide an electromagnetic anti-corrosion and scale-inhibiting device for produced liquid, which solves the problem that the traditional electromagnetic scale-inhibiting device can not collect the filtered colloid.

Based on the above object, the invention provides an electromagnetic anticorrosion scale inhibitor for produced liquid, which comprises a water pipe, wherein an electromagnetic descaling component is arranged on the water pipe, the other end of the water pipe is communicated with a filter box for filtering colloid, a baffle plate is arranged in the filter box, a first filter plate for filtering colloid is arranged on the baffle plate, and the electromagnetic anticorrosion scale inhibitor further comprises:

the ash storage box is detachably arranged on one side, far away from the electromagnetic descaling assembly, of the partition plate, an ash inlet hole is formed in the partition plate, the ash inlet hole is communicated with an inner cavity of the ash storage box, and a third filter plate is arranged on one side, far away from the partition plate, of the ash storage box;

the ash sweeping rod is arranged on the partition board in a sliding connection manner, an ash sweeping rod used for sweeping colloid on the first filter board is arranged on one side, far away from the partition board, of the ash sweeping rod, a blocking plate is arranged on one side, far away from the partition board, of the blocking plate, a sliding plate is arranged on one side, far away from the partition board, of the blocking plate, two ends of the sliding plate are in sliding connection with two ends of the inner cavity of the ash sweeping rod, an ejector rod is arranged on the bottom of the sliding plate, the ejector rod penetrates through the bottom of the ash sweeping rod downwards, a fourth filter board is arranged in the inner cavity of the ash sweeping rod, a first scraping plate used for scraping colloid is arranged on one side, close to the partition board, of the ash sweeping rod, and an ash storage hole is formed in one side, close to the partition board, of the ash sweeping rod;

an electric push rod for pushing the ash sweeping rod to move is arranged at the top of the filter box;

the ash storage box comprises an ash storage box inner cavity, an ash inlet hole, an ash storage box and an ash outlet hole, wherein an ash inlet hole is formed in the ash storage box inner cavity, an ash inlet is formed in the ash storage box inner cavity, the ash storage box inner cavity is provided with an ash inlet hole, the ash inlet hole is formed in the ash storage box inner cavity, the ash storage box inner cavity is provided with an ash storage box inner cavity, and a return assembly for pushing the ash storage box is arranged between the installation plate and the ash storage box inner cavity;

a scraping component for scraping colloid adsorbed on the fourth filter plate is arranged in the ash sweeping rod, and a driving component for driving the scraping component to move is arranged in the ash storage box;

the scraping assembly comprises a cross rod, the two ends of the inner cavity of the ash sweeping rod are fixedly connected with each other, a moving block is sleeved on the cross rod in a sliding manner, a second scraping plate for scraping colloid adsorbed on the fourth filter plate is arranged at the bottom of the moving block, and a second magnet is arranged on one side, close to the partition plate, of the moving block;

the driving assembly comprises a circular plate, the top of the inner cavity of the ash storage box is rotationally connected with the circular plate, a sliding block is fixedly connected to the eccentric position of the bottom of the circular plate, a circular groove rod is arranged at the bottom of the circular plate, a circular groove is formed in the circular groove rod and is in sliding fit with the sliding block, a sliding groove is formed in the top of the inner cavity of the ash storage box, a sliding block is arranged in the sliding groove in a sliding manner, the sliding block is fixedly connected with the top of the circular groove rod, a first magnet with the magnetic pole opposite to that of a second magnet is arranged on one side, far away from a third filter plate, of the circular groove rod, and a control assembly for driving the circular plate to rotate is arranged at the top of the ash storage box;

the control assembly comprises a U-shaped pipe, the top of the ash storage box is fixedly connected with the U-shaped pipe, an installation box is arranged on the inner wall of the U-shaped pipe, the inner cavity of the installation box is communicated with the inner cavity of the U-shaped pipe, the bottom of the inner cavity of the installation box is rotationally connected with a rotating plate, the center of the bottom of the rotating plate is fixedly connected with a connecting rod penetrating through the top of the ash storage box, the other end of the connecting rod is fixedly connected with the center of the top of a circular plate, and a plurality of groups of paddles are arranged on the periphery of the rotating plate;

the separator is provided with a first through hole and a third through hole which are symmetrically arranged at two sides of the first filter plate and are respectively communicated with two ends of the U-shaped pipe, the separator is also provided with a second through hole, the second through hole is positioned at the lower side of the first through hole, one side of the ash storage box is provided with a side box, one side of the side box, which is close to the separator, is provided with a fourth through hole, the fourth through hole is communicated with the second through hole, and the other side of the side box is provided with a second filter plate;

a side cavity is formed in one end of the ash sweeping rod, an elbow is arranged in the side cavity, a fifth through hole and a sixth through hole are formed in one side, close to the second scraping plate, of the side cavity, and the fifth through hole and the sixth through hole are respectively communicated with two ends of the elbow;

be provided with first adsorption plate on the baffle, second magnet and first adsorption plate, be provided with the second adsorption plate on the ash sweeping rod, and second adsorption plate and first magnet overlap joint.

Further, the reset component comprises a hollow rod, one side of the mounting plate, which is close to the backflow prevention baffle, is fixedly connected with the hollow rod, a sliding rod is arranged in the hollow rod in a sliding manner, one end of the sliding rod, which is far away from the hollow rod, is fixedly connected with the backflow prevention baffle, a reset spring is arranged in the hollow rod, one end of the reset spring is fixedly connected with the sliding rod, and the other end of the reset spring is fixedly connected with the hollow rod.

Further, the electromagnetic descaling assembly comprises a shell, the water pipe is sleeved with the shell, the top of the shell is provided with an electromagnetic generating device, the water pipe is sleeved with a coil, one end of the coil is connected with the positive electrode of the electromagnetic generating device, and the other end of the coil is connected with the negative electrode of the electromagnetic generating device.

Further, soft brushes are arranged on the first scraping plate and the second scraping plate.

The invention has the beneficial effects that: according to the electromagnetic anti-corrosion and scale-inhibiting device for the produced liquid, when the ash storage box is arranged, the ash sweeping rod moves downwards to the bottom of the filter box, colloid adsorbed on the first filter plate can be scraped into the ash storage box for storage through the ash inlet hole, and meanwhile, when the ash sweeping rod moves upwards from the bottom of the filter box, the ash inlet hole is sealed by pushing the anti-backflow baffle plate back under the pushing of the reset component through the anti-backflow baffle plate arranged, so that the colloid in the ash storage box can be prevented from flowing outwards, and the applicability of the device is improved.

Drawings

In order to more clearly illustrate the invention or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only of the invention and that other drawings can be obtained from them without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a front view structure of an embodiment of the present invention;

FIG. 2 is a schematic view of the structure of the electromagnetic descaling assembly according to the embodiment of the invention in cross section;

FIG. 3 is a schematic view of a cross-sectional structure of an interior of a filter box according to an embodiment of the present invention;

FIG. 4 is a schematic view of a first view angle of an inner portion of a filter box according to an embodiment of the present invention;

FIG. 5 is a schematic view of a second view angle of the inner portion of the filter box according to an embodiment of the present invention;

FIG. 6 is a schematic view of the internal structure of a U-shaped tube according to an embodiment of the present invention;

FIG. 7 is a schematic view of a first view angle structure of an ash storage box according to an embodiment of the invention;

FIG. 8 is a schematic view illustrating an internal structure of the ash storage box according to the second view of the embodiment of the invention;

FIG. 9 is a schematic diagram of the internal structure of the reset assembly according to the embodiment of the present invention;

FIG. 10 is a schematic view of a first view angle structure of the dust-sweeping bar according to an embodiment of the invention;

FIG. 11 is a schematic view of a first view part of the dust-sweeping bar according to an embodiment of the invention;

FIG. 12 is a schematic view of a second view angle structure of the dust-sweeping bar according to an embodiment of the invention;

fig. 13 is a schematic side view of a cross-section of the ash handling rod according to an embodiment of the invention.

Marked in the figure as:

1. a water pipe; 2. an electromagnetic descaling assembly; 201. a housing; 202. an electromagnetic generating device; 203. a coil; 3. a filter box; 301. a partition plate; 302. a first filter plate; 303. an ash inlet hole; 304. a first through hole; 305. a second through hole; 306. a third through hole; 4. an electric push rod; 5. an ash storage box; 501. a circular plate; 502. a slide block; 503. a ring groove rod; 504. a slip groove; 505. a first magnet; 506. a side case; 507. a fourth through hole; 508. a second filter plate; 509. a third filter plate; 6. a backflow prevention baffle; 601. an inclined pushing block; 602. a mounting plate; 603. a reset assembly; 6031. a hollow rod; 6032. a sliding rod; 6033. a return spring; 7. a U-shaped tube; 701. a mounting box; 702. a rotating plate; 703. a paddle; 8. an ash sweeping rod; 801. a blocking plate; 802. a slip plate; 803. a push rod; 804. a side cavity; 805. a fifth through hole; 806. a sixth through hole; 807. an ash storage hole; 808. a fourth filter plate; 809. a first scraper; 9. bending the pipe; 10. a scraping assembly; 1001. a cross bar; 1002. a moving block; 1003. a second scraper; 1004. a second magnet; 11. a first adsorption plate; 12. and a second adsorption plate.

Detailed Description

The present invention will be further described in detail with reference to specific embodiments in order to make the objects, technical solutions and advantages of the present invention more apparent.

It is to be noted that unless otherwise defined, technical or scientific terms used herein should be taken in a general sense as understood by one of ordinary skill in the art to which the present invention belongs. The terms "first," "second," and the like, as used herein, do not denote any order, quantity, or importance, but rather are used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that elements or items preceding the word are included in the element or item listed after the word and equivalents thereof, but does not exclude other elements or items. The terms "connected" or "connected," and the like, are not limited to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", etc. are used merely to indicate relative positional relationships, which may also be changed when the absolute position of the object to be described is changed.

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, and fig. 13, an electromagnetic anti-corrosion and scale inhibitor for produced liquid comprises a water pipe 1, an electromagnetic scale removing component 2 is arranged on the water pipe 1, a filter box 3 for filtering colloid is communicated with the other end of the water pipe 1, a partition 301 is arranged in the filter box 3, a first filter plate 302 for filtering colloid is arranged on the partition 301, and the electromagnetic anti-corrosion and scale inhibitor further comprises:

the ash storage box 5, the side of the baffle 301 far away from the electromagnetic descaling assembly 2 is detachably provided with the ash storage box 5, the baffle 301 is provided with an ash inlet 303, the ash inlet 303 is communicated with the inner cavity of the ash storage box 5, and the side of the ash storage box 5 far away from the baffle 301 is provided with a third filter plate 509;

the ash sweeping rod 8 is arranged on the partition 301 in a sliding connection manner, the ash sweeping rod 8 for sweeping the colloid on the first filter plate 302 is arranged on one side, far away from the partition 301, of the ash sweeping rod 8, a blocking plate 801 is arranged on one side, far away from the partition 301, of the blocking plate 801, a sliding plate 802 is arranged on one side, far away from the partition 301, of the blocking plate 801, two ends of the sliding plate 802 are in sliding connection with two ends of the inner cavity of the ash sweeping rod 8, a top rod 803 is arranged on the bottom of the sliding plate 802, penetrates through the bottom of the ash sweeping rod 8 downwards, a fourth filter plate is arranged in the inner cavity of the ash sweeping rod 8, a second scraping plate 1003 for scraping the colloid is arranged on one side, close to the partition 301, of the ash sweeping rod 8, and an ash storage hole 807 is formed in one side, close to the partition 301, of the ash sweeping rod 8;

the top of the filter box 3 is provided with an electric push rod 4 for pushing the ash sweeping rod 8 to move, and the top of the filter box 3 is fixedly sleeved on the outer wall of the electric push rod 4;

the anti-backflow baffle 6 is arranged between two ends of the inner cavity of the ash storage box 5 in a sliding connection mode, the anti-backflow baffle 6 is used for sealing the ash inlet 303, an inclined pushing block 601 is arranged on one side of the anti-backflow baffle 6, the inclined pushing block 601 penetrates through the ash inlet 303 and leaks outwards, a mounting plate 602 is arranged on the side wall of the inner cavity of the ash storage box 5, and a reset component 603 used for pushing the anti-backflow baffle 6 to reset is arranged between the mounting plate 602 and the anti-backflow baffle 6.

In this embodiment, when the pressurized produced liquid flowing through the water pipe 1 flows through the electromagnetic coil 203, an alternating electromagnetic field is generated, the charge distribution in the produced liquid is changed, and the formation of colloid crystal nuclei is destroyed, so that hardness ions in the produced liquid exist in a colloid form and are not easy to deposit on the pipe wall, the first filter plate 302 on the partition 301 in the filter box 3 can filter the colloid, the electric push rod 4 can push the ash sweeping rod 8 to move, and when the ash sweeping rod 8 moves, the second scraper 1003 is driven to scrape the colloid adsorbed on the fourth filter plate 808, and the colloid enters the cavity of the ash sweeping rod 8 for storage through the ash storage hole 807;

when the ash sweeping rod 8 moves downwards to the bottom of the filtering box 3, the ash sweeping rod 8 moves downwards to push the backflow prevention baffle 6 to move by pushing the inclined push block 601, the sealing of the backflow prevention baffle 6 to the ash inlet 303 is relieved, meanwhile, when the ash sweeping rod 8 moves downwards to the bottom of the filtering box 3, the ejector rod 803 pushes the sliding plate 802 to move upwards and leak out of the water inlet channel, at the moment, produced liquid can enter the ash sweeping rod 8 through the water inlet channel and the fourth filter plate 808 and drive colloid in the ash sweeping rod 8 to wash out to the ash storage box 5 through the ash inlet 303 to store, and when the ash sweeping rod 8 moves upwards to return, the reset component 603 pushes the backflow prevention baffle 6 to reseal the ash inlet 303 to prevent the colloid in the ash storage box 5 from flowing backwards.

Preferably, the reset component 603 comprises a hollow rod 6031, one side of the mounting plate 602, which is close to the backflow prevention baffle 6, is fixedly connected with the hollow rod 6031, a sliding rod 6032 is arranged in the hollow rod 6031 in a sliding manner, one end, which is far away from the hollow rod 6031, of the sliding rod 6032 is fixedly connected with the backflow prevention baffle 6, a reset spring 6033 is arranged in the hollow rod 6031, one end of the reset spring 6033 is fixedly connected with the sliding rod 6032, and the other end of the reset spring is fixedly connected with the hollow rod 6031;

when the ash sweeping rod 8 moves down to the bottom of the filter box 3, the ash sweeping rod 8 pushes the backflow prevention baffle 6 to move by pushing the inclined pushing block 601 to release the sealing of the ash inlet 303, at the moment, the reset spring 6033 is compressed and deformed, and when the ash sweeping rod 8 moves up and returns to a normal position, the reset spring 6033 pushes the backflow prevention baffle 6 to reset and seal the backflow prevention baffle 6, so that the colloid in the ash inlet box is prevented from flowing back outwards.

Preferably, the electromagnetic descaling assembly 2 comprises a shell 201, the shell 201 is sleeved on the water pipe 1, the electromagnetic generating device 202 is arranged at the top of the shell 201, the coil 203 is sleeved on the water pipe 1, one end of the coil 203 is connected with the positive electrode of the electromagnetic generating device 202, and the other end of the coil 203 is connected with the negative electrode of the electromagnetic generating device 202;

after the electromagnetic generating device 202 works, when the produced liquid flows through the coil 203, an alternating electromagnetic field is generated, the charge distribution in the produced liquid is changed, the formation of colloid crystal nuclei is destroyed, hardness ions in the produced liquid exist in a colloid form and are not easy to deposit on the pipe wall, and an electromagnetic descaling effect is achieved.

Preferably, a scraping component 10 for scraping the colloid adsorbed on the fourth filter plate 808 is arranged in the ash sweeping rod 8, and a driving component for driving the scraping component 10 to move is arranged in the ash storage box 5.

Preferably, the scraping assembly 10 comprises a cross rod 1001, wherein the cross rod 1001 is fixedly connected between two ends of an inner cavity of the ash sweeping rod 8, the cross rod 1001 is a square rod, a moving block 1002 is sleeved on the cross rod 1001 in a sliding manner, a second scraping plate 1003 for scraping colloid adsorbed on a fourth filter plate 808 is arranged at the bottom of the moving block 1002, and a second magnet 1004 is arranged on one side, close to the partition 301, of the moving block 1002;

the driving movable block 1002 slides along the cross rod 1001, and the cross rod 1001 drives the second scraping plate 1003 to scrape the colloid adsorbed on the fourth filter plate 808, so that the phenomenon that the produced liquid cannot enter the ash sweeping rod 8 and cannot be flushed into the ash storage box 5 due to the fact that the fourth filter plate 808 is blocked by the colloid is avoided.

Preferably, the driving assembly comprises a circular plate 501, the top of the inner cavity of the ash storage box 5 is rotatably connected with the circular plate 501, a sliding block 502 is fixedly connected at the eccentric position of the bottom of the circular plate 501, a circular groove rod 503 is arranged at the bottom of the circular plate 501, a circular groove is formed in the circular groove rod 503 and is in sliding fit with the sliding block 502, a sliding groove 504 is formed in the top of the inner cavity of the ash storage box 5, a sliding block is arranged in the sliding groove 504 and is fixedly connected with the top of the circular groove rod 503, a first magnet 505 with opposite magnetic poles to the second magnet 1004 is arranged on one side of the circular groove rod 503 far away from the third filter plate 509, and a control assembly for driving the circular plate 501 to rotate is arranged at the top of the ash storage box 5;

the control assembly comprises a U-shaped pipe 7, the top of the ash storage box 5 is fixedly connected with the U-shaped pipe 7, an installation box 701 is arranged on the inner wall of the U-shaped pipe 7, the inner cavity of the installation box 701 is communicated with the inner cavity of the U-shaped pipe 7, a rotating plate 702 is rotatably connected to the bottom of the inner cavity of the installation box 701, a connecting rod penetrating through the top of the ash storage box 5 is fixedly connected to the circle center of the bottom of a circular plate 501, the other end of the connecting rod is fixedly connected with the circle center of the top of the rotating plate 702, and a plurality of groups of paddles 703 are arranged on the periphery of the rotating plate 702;

the partition 301 is provided with a first through hole 304 and a third through hole 306, the first through hole 304 and the third through hole 306 are symmetrically arranged at two sides of the first filter plate 302 and are respectively communicated with two ends of the U-shaped tube 7, the partition 301 is also provided with a second through hole 305, the second through hole 305 is positioned at the lower side of the first through hole 304, one side of the ash storage box 5 is provided with a side box 506, one side of the side box 506, which is close to the partition 301, is provided with a fourth through hole 507, the fourth through hole 507 is communicated with the second through hole 305, and the other side of the side box 506 is provided with a second filter plate 508;

a side cavity 804 is arranged at one end of the ash sweeping rod 8, an elbow 9 is arranged in the side cavity 804, a fifth through hole 805 and a sixth through hole 806 are formed in one side, close to the second scraping plate 1003, of the side cavity 804, and the fifth through hole 805 and the sixth through hole 806 are respectively communicated with two ends of the elbow 9;

when the ash sweeping rod 8 moves down to the bottom of the inner cavity of the filter box 3, at this time, the sixth through hole 806 is communicated with the first through hole 304, the fifth through hole 805 is communicated with the second through hole 305, so that only one third through hole 306 of the U-shaped tube 7 is used as a water inlet hole, the produced liquid enters the U-shaped tube 7 through the third through hole 306 and flows through the bent tube 9, then enters the side box 506 through the fourth through hole 507 and is discharged outwards through the filtration of the second filter plate 508, when the produced liquid enters the U-shaped tube 7 through the third through hole 306, the water flowing in the U-shaped tube 7 can wash the paddle 703 to drive the rotating plate 702 to rotate, the rotating plate 702 drives the circular plate 501 to rotate, the circular plate 501 drives the sliding block 502 to eccentrically rotate around the circular plate 501, the sliding block 502 can push the circular groove rod 503 to reciprocate along the sliding groove 504 under the limit of the sliding groove 504, the circular groove 503 drives the first magnet 505 to reciprocate, the first magnet 505 drives the second magnet 1004 on the moving block 1002 to reciprocate along the cross bar 1001, and then drives the second magnet 1003 to scrape the colloid adsorbed on the fourth filter plate 808.

Preferably, the first scraping plate 809 and the second scraping plate 1003 are provided with soft brushes; the effect of the first blade 809 and the second blade 1003 scraping off the colloid is improved.

Preferably, the first adsorption plate 11 is arranged on the partition 301, the second magnet 1004 is overlapped with the first adsorption plate 11, the second adsorption plate 12 is arranged on the ash sweeping rod 8, and the second adsorption plate 12 is overlapped with the first magnet 505; when the ash sweeping rod 8 moves down to the bottom of the filter box 3, the first adsorption plate 11 and the second adsorption plate 12 are attached to each other, so that the first magnet 505 and the second magnet 1004 can attract each other.

According to the electromagnetic anti-corrosion and scale-inhibiting device for the produced liquid, provided by the invention, when the ash storage box 5 is arranged and the ash sweeping rod 8 moves down to the bottom of the filter box 3, colloid adsorbed on the first filter plate 302 can be scraped into the ash storage box 5 for storage through the ash inlet holes 303, and meanwhile, when the ash sweeping rod 8 moves up from the bottom of the filter box 3 through the arranged anti-backflow baffle 6, the anti-backflow baffle 6 is pushed to seal the ash inlet holes 303 under the pushing of the reset component 603, so that the colloid in the ash storage box 5 can be prevented from flowing back outwards, and the applicability of the device is improved.

Those of ordinary skill in the art will appreciate that: the discussion of any of the embodiments above is merely exemplary and is not intended to suggest that the scope of the invention is limited to these examples; the technical features of the above embodiments or in the different embodiments may also be combined within the idea of the invention, the steps may be implemented in any order and there are many other variations of the different aspects of the invention as described above, which are not provided in detail for the sake of brevity. Any omission, modification, equivalent replacement, improvement, etc. of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a production liquid electromagnetism is anticorrosive to be hinder dirty device, includes water pipe (1), be provided with electromagnetism scale removal subassembly (2) on water pipe (1), the other end intercommunication of water pipe (1) has rose box (3) that are used for filtering colloid, be provided with baffle (301) in rose box (3), be provided with on baffle (301) and be used for filtering colloid first filter plate (302), its characterized in that still includes:

the dust storage box (5), one side of the partition board (301) far away from the electromagnetic descaling assembly (2) is detachably provided with the dust storage box (5), the partition board (301) is provided with a dust inlet hole (303), the dust inlet hole (303) is communicated with the inner cavity of the dust storage box (5), and one side of the dust storage box (5) far away from the partition board (301) is provided with a third filter plate (509);

the ash sweeping device comprises an ash sweeping rod (8), wherein an ash sweeping rod (8) used for sweeping colloid on a first filter plate (302) is arranged on a partition plate (301) in a sliding connection mode, a blocking plate (801) is arranged on one side, far away from the partition plate (301), of the ash sweeping rod (8), a water inlet channel is formed between the bottom of the blocking plate (801) and the bottom of an inner cavity of the ash sweeping rod (8), a sliding plate (802) is arranged on one side, far away from the partition plate (301), of the blocking plate (801), two ends of the sliding plate (802) are in sliding connection with two ends of the inner cavity of the ash sweeping rod (8), a push rod (803) penetrates through the bottom of the ash sweeping rod (8) downwards, a fourth filter plate (808) is arranged on the inner cavity of the ash sweeping rod (8), a first scraping plate (809) used for scraping colloid is arranged on one side, close to the partition plate (301), and an ash storage hole (807) is formed in one side, close to the partition plate (301), of the ash sweeping rod (8);

an electric push rod (4) for pushing the ash sweeping rod (8) to move is arranged at the top of the filter box (3);

the ash storage box comprises an ash storage box (5), wherein an ash inlet hole (303) is formed in the inner cavity of the ash storage box (5), two ends of the inner cavity are slidably connected with an anti-backflow baffle (6) used for sealing the ash inlet hole (303), an inclined pushing block (601) is arranged on one side of the anti-backflow baffle (6), the inclined pushing block (601) penetrates through the ash inlet hole (303) and leaks outwards, a mounting plate (602) is arranged on the side wall of the inner cavity of the ash storage box (5), and a reset assembly (603) used for pushing the anti-backflow baffle (6) to reset is arranged between the mounting plate (602) and the anti-backflow baffle (6);

a scraping component (10) for scraping colloid adsorbed on a fourth filter plate (808) is arranged in the ash sweeping rod (8), and a driving component for driving the scraping component (10) to move is arranged in the ash storage box (5);

the scraping assembly (10) comprises a cross rod (1001), the cross rod (1001) is fixedly connected between two ends of an inner cavity of the ash sweeping rod (8), a moving block (1002) is sleeved on the cross rod (1001) in a sliding mode, a second scraping plate (1003) for scraping colloid adsorbed on a fourth filter plate (808) is arranged at the bottom of the moving block (1002), and a second magnet (1004) is arranged on one side, close to the partition plate (301), of the moving block (1002);

the driving assembly comprises a circular plate (501), the top of the inner cavity of the ash storage box (5) is rotationally connected with the circular plate (501), a sliding block (502) is fixedly connected at the eccentric position of the bottom of the circular plate (501), a circular groove rod (503) is arranged at the bottom of the circular plate (501), a circular groove is formed in the circular groove rod (503) in sliding fit with the sliding block (502), a sliding groove (504) is formed in the top of the inner cavity of the ash storage box (5), a sliding block is arranged in the sliding groove (504) in sliding connection, the sliding block is fixedly connected with the top of the circular groove rod (503), a first magnet (505) with opposite magnetic poles with a second magnet (1004) is arranged on one side, far away from the third filter plate (509), of the circular groove rod (503), and a control assembly for driving the circular plate (501) to rotate is arranged at the top of the ash storage box (5).

The control assembly comprises a U-shaped pipe (7), the top of the ash storage box (5) is fixedly connected with the U-shaped pipe (7), an installation box (701) is arranged on the inner wall of the U-shaped pipe (7), the inner cavity of the installation box (701) is communicated with the inner cavity of the U-shaped pipe (7), the bottom of the inner cavity of the installation box (701) is rotatably connected with a rotating plate (702), the center of the bottom of the rotating plate (702) is fixedly connected with a connecting rod penetrating through the top of the ash storage box (5), the other end of the connecting rod is fixedly connected with the center of the top of the circular plate (501), and a plurality of groups of paddles (703) are arranged on the periphery of the rotating plate (702);

the dust storage device is characterized in that a first through hole (304) and a third through hole (306) are formed in the partition plate (301), the first through hole (304) and the third through hole (306) are symmetrically formed in two sides of the first filter plate (302) and are respectively communicated with two ends of the U-shaped tube (7), a second through hole (305) is formed in the partition plate (301), the second through hole (305) is located at the lower side of the first through hole (304), a side box (506) is arranged at one side of the dust storage box (5), a fourth through hole (507) is formed in one side, close to the partition plate (301), of the side box (506), the fourth through hole (507) is communicated with the second through hole (305), and a second filter plate (508) is arranged at the other side of the side box (506);

one end of the ash sweeping rod (8) is provided with a side cavity (804), an elbow pipe (9) is arranged in the side cavity (804), a fifth through hole (805) and a sixth through hole (806) are formed in one side, close to the second scraping plate (1003), of the side cavity (804), and the fifth through hole (805) and the sixth through hole (806) are respectively communicated with two ends of the elbow pipe (9);

be provided with first adsorption plate (11) on baffle (301), second magnet (1004) and first adsorption plate (11), be provided with second adsorption plate (12) on sweeping ash pole (8), and second adsorption plate (12) overlap joint with first magnet (505).

2. The electromagnetic anti-corrosion and scale-inhibiting device for produced liquid according to claim 1, wherein the reset assembly (603) comprises a hollow rod (6031), one side of the mounting plate (602) close to the anti-backflow baffle (6) is fixedly connected with the hollow rod (6031), a sliding rod (6032) is arranged in the hollow rod (6031) in a sliding mode, one end, far away from the hollow rod (6031), of the sliding rod (6032) is fixedly connected with the anti-backflow baffle (6), a reset spring (6033) is arranged in the hollow rod (6031), one end of the reset spring (6033) is fixedly connected with the sliding rod (6032), and the other end of the reset spring is fixedly connected with the hollow rod (6031).

3. The electromagnetic corrosion and scale inhibitor for produced liquid according to claim 1, wherein the electromagnetic scale removing assembly (2) comprises a shell (201), the shell (201) is sleeved on the water pipe (1), an electromagnetic generating device (202) is arranged at the top of the shell (201), a coil (203) is sleeved on the water pipe (1), one end of the coil (203) is connected with the positive electrode of the electromagnetic generating device (202), and the other end of the coil is connected with the negative electrode of the electromagnetic generating device (202).

4. The electromagnetic corrosion and scale inhibitor for produced liquid according to claim 1, wherein the first scraper (809) and the second scraper (1003) are provided with soft brushes.