CN113816446B

CN113816446B - Industrial wastewater purification treatment equipment and treatment method based on thermal energy power

Info

Publication number: CN113816446B
Application number: CN202111222464.3A
Authority: CN
Inventors: 王旭东; 张志勇; 吴星震
Original assignee: Wuhan Huidian Energy Technology Co ltd
Current assignee: Wuhan Huidian Energy Technology Co ltd
Priority date: 2021-10-20
Filing date: 2021-10-20
Publication date: 2022-06-10
Anticipated expiration: 2041-10-20
Also published as: CN113816446A

Abstract

The invention relates to industrial wastewater purification treatment equipment and a treatment method based on thermal energy power. The invention can solve the problems existing at present: present clarification plant still can leave impurity after carrying out simple filtration treatment or heating evaporation water treatment to industrial waste water, filtration treatment is difficult to get rid of the big or small impurity in the waste water completely, later these waste water are arranged and still can cause natural environment's destruction in the natural environment, evaporation water treatment does not recycle the heat energy that the water evaporation produced yet, thereby cause the wasting of resources, filter unit among the present clarification plant is only to carry out filtration treatment once at the mobile in-process of waste water, and the impurity that contains in the waste water can not once filter totally, and if same filter unit increases a plurality ofly, just can make the later stage increase to filter unit's clearance volume.

Description

Industrial wastewater purification treatment equipment and treatment method based on thermal energy power

Technical Field

The invention relates to the field of industrial wastewater treatment, in particular to industrial wastewater purification treatment equipment and a treatment method based on thermal energy power.

Background

The industrial wastewater comprises production wastewater, production sewage and cooling water, and refers to wastewater and waste liquid generated in the industrial production process, wherein the wastewater and the waste liquid contain industrial production materials, intermediate products, byproducts and pollutants generated in the production process, which are lost along with water. The industrial wastewater has various types and complex components. Because industrial wastewater contains various toxic substances, pollutes the environment and has great harm to human health, comprehensive utilization and harm-to-benefit are developed, and corresponding purification measures are taken according to the components and concentration of pollutants in the wastewater for treatment and then the wastewater can be discharged.

At present, when industrial wastewater is purified, the following problems exist: the existing purification equipment can still leave impurities after pure filtration treatment or heating evaporation water treatment of industrial wastewater, the filtration treatment is difficult to completely remove the large and small impurities in the wastewater, then the wastewater is discharged into the natural environment and still can cause the damage of the natural environment, and the evaporation water treatment does not recycle the heat energy generated by water evaporation, thereby causing resource waste.

Secondly, the filtering unit in the existing purifying equipment only carries out filtering treatment on the wastewater once in the flowing process of the wastewater, the impurities contained in the wastewater cannot be filtered completely at one time, and if the same filtering units are added, the cleaning amount of the filtering units at the later stage is increased.

Disclosure of Invention

The invention aims to provide an industrial wastewater purification treatment device based on thermal energy power, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an industrial waste water purification treatment equipment based on heat energy power, includes base and purifier, be provided with purifier on the base.

The purification device comprises a purification box body, a purification bottom groove, a heating pipe, purification slide ways, purification slide blocks, purification filter plates, purification slide grooves, purification magnetic blocks, a purification cylinder and a transmission unit, wherein the purification box body is arranged on a base, the purification bottom grooves are symmetrically arranged at the front and back of the inner bottom of the purification box body in a sliding manner, the opposite surfaces of the two purification bottom grooves are adsorbed by magnets, the heating pipe is arranged at the lower surface of each purification bottom groove, the purification slide ways with inverted L-shaped structures are symmetrically arranged at the front and back of the left and right inner walls of the purification box body respectively, the purification slide blocks are arranged in the purification slide ways in a sliding manner, the purification filter plates are commonly arranged among the four purification slide blocks, the vertical purification slide grooves are symmetrically arranged at the front and back of the left and right outer walls of the purification box body respectively, the purification magnetic blocks are arranged in the purification slide grooves in a sliding manner, the purification cylinder is arranged in the middle of the upper end surface of the purification cylinder, the transmission unit is arranged at the upper end of the purification cylinder, and is connected with the transmission unit in a sliding manner, the purifying magnetic block is rotationally connected with the transmission unit through a pin shaft.

The transmission unit comprises a transmission support, an exhaust port, a transmission impeller, a transmission disc and a transmission connecting rod, the upper end of the purification cylinder is provided with the transmission support, the purification slide is in sliding contact with the transmission support, the exhaust port is symmetrically arranged in front of and behind the upper end face of the purification box body, the transmission impeller is rotatably arranged at a position right above the exhaust port on the transmission support, the transmission disc is symmetrically arranged at two ends of the length direction of the transmission impeller, and the purification magnetic block is connected with the edge of the transmission disc through the transmission connecting rod.

The purification bottom groove is provided with a first sealing groove, the front side wall and the rear side wall of the purification box body are symmetrically provided with a first sealing ring, and the first sealing groove is connected with the first sealing ring in a matched mode.

The slag collecting frame is symmetrically arranged above the purification bottom groove on the front side wall and the rear side wall of the purification box body in a sliding mode, and the transparent glass door plates are symmetrically arranged on the front side wall and the rear side wall of the purification box body above the slag collecting frame in a sliding mode.

The purification filter plate is divided into a front part and a rear part which are connected through a hinge, a partition plate is fixedly arranged between purification sliding blocks which are positioned at left and right opposite positions, the inner wall of the purification box body is in sliding contact with the partition plate, and the purification filter plate is rotatably connected with the purification partition plate.

A plurality of adjusting holes are sequentially formed in one radius of the transmission disc along the length direction of the transmission disc, and the transmission connecting rod is connected with the adjusting holes through adjusting bolts.

The filter plate is characterized in that a plurality of regular hexagonal filter holes are uniformly formed in the filter plate, each edge of each filter hole is rotatably provided with a filter block, a torsional spring is arranged at the joint of the filter block and the filter block, the six filter blocks in the same filter hole are in matched contact, the lower surface of each filter block is sequentially obliquely provided with a plurality of blocking blocks, and one end of each blocking block, which is connected with the corresponding filter block, is the upper end.

Receive and be provided with the seal groove No. two on the sediment frame, the lateral wall is located the top symmetry that purifies the kerve around the purification box and is provided with the sealing washer No. two, and the sealing groove No. two is connected with the sealing washer cooperation No. two.

In addition, the invention also provides a using method of the industrial wastewater purification treatment equipment based on the thermal energy power, which comprises the following steps: s1, preparation: the industrial wastewater purification treatment equipment based on thermal energy power is debugged.

S2, filtering industrial wastewater: firstly, the purification cylinder extends to jack the transmission unit away from the purification box body, the distance between the purification filter plate and the purification bottom groove is the farthest, then pouring the industrial wastewater into a purification box body, shortening a purification cylinder to enable the distance between a transmission unit and the upper end of the purification box body to be in the shortest state, then heating the industrial wastewater in the purification box body by a heating pipe through a purification bottom groove, transmitting steam in the process of heating the industrial wastewater, blowing the steam to a transmission impeller through an exhaust port, so that the transmission impeller can rotate, the transmission impeller can drive the transmission disc to synchronously rotate, the transmission disc drives the purification magnetic block to reciprocate up and down in the purification slideway through the transmission connecting rod, thereby purify the magnetic path and drive to purify the filter plate and reciprocate in purifying the box through magnetic force for purify the filter plate and carry out filtration treatment to the large granule impurity in the industrial waste water that is heating.

S3, impurity cleaning: after the industrial wastewater in the purifying box body is completely evaporated, the purifying bottom groove is pulled out from the purifying box body, impurities which are not filtered by the purifying filter plate are scraped from the purifying bottom groove, the impurities filtered from the purifying filter plate are removed, and then the process is repeated so as to purify the industrial wastewater generated at the back.

Compared with the prior art, the invention has the following advantages: 1. through the heating to industrial waste water, get rid of earlier the moisture in the waste water, the heat energy that utilizes the evaporation of water to produce again drives the transmission unit operation, and the transmission unit drives and purifies the filter plate and carries out repeated filtration treatment to industrial waste water to can effectively improve industrial waste water's purifying effect, also be favorable to the separation of soluble impurity and insoluble impurity, still be favorable to the utilization to heat energy, reduce resource loss.

2. Through the reciprocating of purifying the filter plate in purifying box, can carry out a lot of to industrial waste water and filter, purify the reciprocating of filter plate moreover and can control the size of filtration pore for some insoluble impurity can flow to purifying the filter plate upper surface along with rivers, thereby the impurity that better in with industrial waste water filters and gets rid of.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic diagram of the right-side plan structure of the present invention.

Fig. 3 is a schematic top plan view of the present invention.

FIG. 4 is a schematic cross-sectional view taken along line A-A of FIG. 3 according to the present invention.

Fig. 5 is an enlarged view of the structure of fig. 4C according to the present invention.

FIG. 6 is a schematic cross-sectional view taken at B-B of FIG. 3 according to the present invention.

Fig. 7 is a schematic perspective view of the purification filter plate of the present invention.

Fig. 8 is a schematic perspective view of the filter block of the present invention.

In the figure: 1. a base; 2. a purification device; 20. purifying the box body; 21. a purification bottom tank; 210. a first sealing groove; 211. a first sealing ring; 212. a slag collection frame; 213. a glass door panel; 214. a second sealing groove; 215. a second sealing ring; 22. heating a tube; 23. a purification slide way; 24. purifying the sliding block; 25. a purifying filter plate; 250. a partition plate; 251. filtering holes; 252. filtering blocks; 253. blocking; 26. a purification chute; 27. a purifying magnetic block; 28. a purifying cylinder; 29. a transmission unit; 290. a transmission bracket; 291. an exhaust port; 292. a drive impeller; 293. a transmission disc; 294. a transmission connecting rod; 295. an adjustment hole; 296. the bolt is adjusted.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

Referring to fig. 1, the industrial wastewater purification treatment equipment based on thermal power comprises a base 1 and a purification device 2, wherein the purification device 2 is arranged on the base 1.

Referring to fig. 1 to 7, the purifying device 2 includes a purifying box 20, purifying bottom grooves 21, a heating pipe 22, purifying slideways 23, purifying sliders 24, purifying filter plates 25, purifying chutes 26, purifying magnetic blocks 27, purifying cylinders 28 and a transmission unit 29, the purifying box 20 is disposed on the base 1, the purifying bottom grooves 21 are symmetrically disposed in the purifying box 20 at the front and back of the bottom, the opposite surfaces of the two purifying bottom grooves 21 are attracted by magnets, the heating pipe 22 is disposed on the lower surface of the purifying bottom groove 21, the purifying slideways 23 of inverted L-shaped structure are symmetrically disposed on the left and right inner walls of the purifying box 20 at the front and back, the purifying sliders 24 are slidably disposed in the purifying slideways 23, the purifying filter plates 25 are commonly disposed between the four purifying sliders 24, the vertical purifying slideways 26 are symmetrically disposed on the left and right outer walls of the purifying box 20 at the front and back, the purifying magnetic blocks 27 are slidably disposed in the purifying slideways 26, the purifying filter plate 25 and the purifying magnet 27 are adsorbed by magnets, the purifying cylinder 28 is arranged in the middle of the upper end face of the purifying box body 20, the transmission unit 29 is arranged at the upper end of the purifying cylinder 28, the purifying chute 26 is connected with the transmission unit 29 in a vertical sliding mode, and the purifying magnet 27 is connected with the transmission unit 29 in a rotating mode through a pin shaft.

Referring to fig. 7, the purification filter plate 25 is divided into a front portion and a rear portion, the front portion and the rear portion are connected by a hinge, a partition plate 250 is fixedly disposed between the purification sliders 24 located at left and right opposite positions, the inner wall of the purification box 20 is in sliding contact with the partition plate 250, and the purification filter plate 25 is rotatably connected with the purification partition plate 250.

Referring to fig. 7 and 8, a plurality of regular hexagonal filter holes 251 are uniformly formed in the purification filter plate 25, filter blocks 252 are rotatably disposed on each side of the filter holes 251, torsion springs are disposed at joints of the filter blocks 252, the six filter blocks 252 disposed in the same filter hole 251 are in contact with each other, a plurality of blocking blocks 253 are sequentially disposed on the lower surface of each filter block 252 in an inclined manner, and one end of each blocking block 253, which is connected with the corresponding filter block 252, is an upper end.

During specific work, when the purification device is in an initial state, the purification cylinder 28 extends to jack the transmission unit 29 upwards to be away from the purification box body 20, the two purification bottom grooves 21 are adsorbed by magnets and are jointly arranged at the bottom of the purification box body 20, when the transmission unit 29 is farthest away from the purification box body 20, the purification magnetic blocks 27 are pulled at the upper end of the purification sliding grooves 26 by the transmission unit 29, so that the purification filter plates 25 drive the purification sliding blocks 24 to move to the horizontal part of the purification sliding ways 23, the purification filter plates 25 form an inverted V-shaped structure under the action of the hinge, the purification partition plates 250 are still in sliding contact with the inner wall of the purification box body 20, but one side of the purification filter plates 25, which is close to the purification partition plates 250, is free of blocking objects, and impurities filtered on the purification filter plates 25 can easily slide down.

Secondly, pouring the industrial wastewater into the purification box body 20, shortening the purification cylinder 28 to enable the transmission unit 29 to be close to the upper end of the purification box body 20, then heating the industrial wastewater by the heating pipe 22 through the purification bottom groove 21, generating steam in the heating process of the industrial wastewater, the steam can drive the transmission unit 29 to rotate, the rotation of the transmission unit 29 drives the purification magnetic block 27 to move up and down in the purification chute 26, the purification magnetic block 27 drives the purification filter plate 25 to move up and down in the purification box body 20 through magnetic force, the industrial wastewater can generate an upward jacking force on the block 253 to enable the filter block 252 to be opened upwards in the filter hole 251, the rotation angle of the filter block 252 is between 0 and 90 degrees, so that large particle impurities in the industrial wastewater can flow to the upper surface of the purification filter plate 25 along with the wastewater, when the purification filter plate 25 moves upwards, the filter block 252 is in a closed state in the filter hole 251 due to the elastic force of the torsion spring, make the impurity of big granule filtered the upper surface at purification filter plate 25, thereby make purification filter plate 25 carry out filtration treatment many times to industrial waste water, after the industrial waste water complete evaporation in purifying box 20, pull out purification kerve 21 from purifying box 20, will purify the impurity that filter plate 25 did not filter and strike off in purification kerve 21, purify the cylinder 28 extension and keep away from purification box 20 with transmission support 290 jack-up, can make purification filter plate 25 use the hinge of centre to form the style of calligraphy of falling V structure as the axle, and will receive simultaneously in the sediment frame 212 impels purification box 20, the impurity that purifies filter plate 25 just can be collected in landing to receiving sediment frame 212.

Referring to fig. 1, 3, 5 and 6, the transmission unit 29 includes a transmission bracket 290, an exhaust port 291, a transmission impeller 292, a transmission disc 293 and a transmission link 294, the transmission bracket 290 is disposed at the upper end of the purge cylinder 28, the purge chute 23 is in sliding contact with the transmission bracket 290, the exhaust port 291 is symmetrically disposed at the front and rear of the upper end surface of the purge case 20, the transmission impeller 292 is rotatably disposed at a position right above the exhaust port 291 on the transmission bracket 290, the transmission discs 293 are symmetrically mounted at both ends in the length direction of the transmission impeller 292, the purge magnet 27 is connected with the edge of the transmission disc 293 by the transmission link 294, a plurality of adjustment holes 295 are sequentially disposed on one radius of the transmission discs 293 along the length direction, and the transmission link 294 is connected with the adjustment holes 295 by the adjustment bolt 296.

During operation, when the industrial wastewater is heated, water vapor is discharged from the exhaust port 291, the water vapor blows the transmission impeller 292 to rotate, the transmission impeller 292 rotates to drive the transmission disk 293 to synchronously rotate, the transmission disk 293 drives the purification magnetic block 27 to reciprocate up and down in the purification slideway 23 through the transmission connecting rod 294, thereby the purifying magnetic block 27 drives the purifying filter plate 25 to move up and down in the purifying box body 20 through magnetic force, the purifying filter plate 25 can filter large particle impurities in the industrial wastewater, when the adjustment latch 296 mounts the drive link 294 at the adjustment aperture 295 in a different position, the distance that the cleaning magnet 27 is driven by the transmission connecting rod 294 to move up and down is different when the transmission disc 293 rotates for one circle, so that the moving distance of the purification filter plate 25 can be adjusted according to the amount of the industrial wastewater in the purification tank 20, thereby better filtering the industrial wastewater.

Referring to fig. 3 and 4, a first sealing groove 210 is formed in the purification bottom groove 21, first sealing rings 211 are symmetrically arranged on the front and rear side walls of the purification box body 20, the first sealing groove 210 is connected with the first sealing ring 211 in a matching manner, when the two purification bottom grooves 21 are attracted to the inner bottom of the purification box body 20 through magnetic force, the first sealing groove 210 is connected with the first sealing ring 211 in a matching manner, so that the sealing effect of the purification box body 20 is improved, and thus, when the heating pipe 22 heats industrial wastewater through the purification bottom groove 21, generated steam can only be discharged from the exhaust port 291, and the transmission impeller 292 is better driven to rotate.

Referring to fig. 3 and 4, the front and rear side walls of the purification box 20 are symmetrically and slidably provided with a slag collection frame 212 above the purification bottom tank 21, the front and rear side walls of the purification box 20 are symmetrically and forwardly provided with transparent glass door plates 213 above the slag collection frame 212, the slag collection frame 212 is provided with a second sealing groove 214, the front and rear side walls of the purification box 20 are symmetrically provided with a second sealing ring 215 above the purification bottom tank 21, the second sealing groove 214 is connected with the second sealing ring 215 in a matching manner, when the purification filter plate 25 filters industrial wastewater, the slag collection frame 212 does not enter the purification box 20, the slag collection frame 212 is only in sliding contact with the side wall of the purification box 20, and at this time, the second sealing groove 214 is connected with the second sealing ring 215 in a matching manner, so that when the heating pipe 22 heats the industrial wastewater through the purification bottom tank 21, generated steam can only be discharged from the exhaust port 291, thereby better drive transmission impeller 292's rotation, and after the industrial waste water in purifying box 20 evaporates completely, with purifying cylinder 28 extension with transmission support 290 jack-up keep away from purifying box 20, can make purifying filter plate 25 use the hinge in the middle of form the style of calligraphy of falling V structure as the axle, and will receive in the sediment frame 212 impels purifying box 20 simultaneously, the impurity of purifying filter plate 25 just can be slided to and is collected in receiving sediment frame 212.

S2, filtering industrial wastewater: firstly, the purification cylinder 28 extends to jack the transmission bracket 290 away from the purification box body 20, at this time, the distance between the purification filter plate 25 and the purification bottom tank 21 is farthest, then the industrial wastewater is poured into the purification box body 20, the purification cylinder 28 is shortened to make the distance between the transmission bracket 290 and the upper end of the purification box body 20 be shortest, then the heating pipe 22 starts to heat the industrial wastewater in the purification box body 20 through the purification bottom tank 21, the industrial wastewater drives the steam in the heating process, the steam is blown to the transmission impeller 292 through the exhaust port 291, so that the transmission impeller 292 can rotate, the transmission impeller 292 rotates to drive the transmission disc 293 to synchronously rotate, the transmission disc 293 drives the purification magnet block 27 to reciprocate up and down in the purification slideway 23 through the transmission link 294, thereby the purification magnet block 27 drives the purification filter plate 25 to move up and down in the purification box body 20 through magnetic force, when the purification filter plate 25 moves down in the purification box body 20, the industrial waste water may generate an upward pushing force to the stopper 253, so that the filter block 252 is opened upward in the filter hole 251, and thus large-particle impurities in the industrial waste water may flow to the upper surface of the purification filter plate 25 along with the waste water, and when the purification filter plate 25 moves upward, the filter block 252 is in a closed state in the filter hole 251 due to the elastic force of the torsion spring, so that the large-particle impurities are filtered on the upper surface of the purification filter plate 25, and thus the purification filter plate 25 performs a filtering process on the large-particle impurities in the heated industrial waste water.

S3, impurity cleaning: after the industrial wastewater in the purification box body 20 is completely evaporated, the purification bottom groove 21 is pulled out from the purification box body 20, impurities which are not filtered by the purification filter plate 25 are scraped from the purification bottom groove 21, the purification cylinder 28 extends to jack the transmission bracket 290 away from the purification box body 20, the purification filter plate 25 can form an inverted V-shaped structure by taking a middle hinge as an axis, the slag collection frame 212 is pushed into the purification box body 20, the impurities for purifying the filter plate 25 can slide into the slag collection frame 212 to be collected, and then the process is repeated so as to purify the industrial wastewater generated at the back.

Although the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims

1. The utility model provides an industrial waste water purification treatment equipment based on heat energy power, includes base (1) and purifier (2), its characterized in that: the base (1) is provided with a purifying device (2); wherein:

the purification device (2) comprises a purification box body (20), purification bottom grooves (21), heating pipes (22), purification slide ways (23), purification sliding blocks (24), purification filter plates (25), purification sliding grooves (26), purification magnetic blocks (27), purification air cylinders (28) and a transmission unit (29), the purification box body (20) is arranged on the base (1), the purification bottom grooves (21) are symmetrically arranged at the front and back of the inner bottom of the purification box body (20) in a sliding mode, the opposite surfaces of the two purification bottom grooves (21) are adsorbed by magnets, the heating pipes (22) are arranged on the lower surface of the purification bottom grooves (21), the purification slide ways (23) of an inverted L-shaped structure are symmetrically arranged on the left inner wall and the right inner wall of the purification box body (20) front and back, the purification sliding blocks (24) are arranged in the purification slide ways (23) in a sliding mode, the purification filter plates (25) are jointly arranged among the four purification sliding blocks (24), vertical purification sliding chutes (26) are symmetrically arranged on the front and back of the left outer wall and the right outer wall of the purification box body (20), purification magnetic blocks (27) are arranged in the purification sliding chutes (26) in a sliding mode, the purification filter plates (25) and the purification magnetic blocks (27) are adsorbed through magnets, a purification air cylinder (28) is arranged in the middle of the upper end face of the purification box body (20), a transmission unit (29) is arranged at the upper end of the purification air cylinder (28), the purification sliding chutes (26) are connected with the transmission unit (29) in a vertical sliding mode, and the purification magnetic blocks (27) are rotatably connected with the transmission unit (29) through pin shafts;

the transmission unit (29) comprises a transmission support (290), an exhaust port (291), a transmission impeller (292), a transmission disc (293) and a transmission connecting rod (294), the transmission support (290) is arranged at the upper end of the purification cylinder (28), the purification slide way (23) is in sliding contact with the transmission support (290), the exhaust port (291) is symmetrically arranged in front of and behind the upper end face of the purification box body (20), the transmission impeller (292) is rotatably arranged at a position, which is right above the exhaust port (291), on the transmission support (290), the transmission disc (293) is symmetrically arranged at two ends of the transmission impeller (292) in the length direction, and the purification magnetic blocks (27) are connected with the edge of the transmission disc (293) through the transmission connecting rod (294);

the filter plate is characterized in that a plurality of regular hexagon filter holes (251) are uniformly formed in the filter plate (25), each edge of each filter hole (251) is rotatably provided with a filter block (252), a torsional spring is arranged at the joint of the filter blocks and the filter blocks, the six filter blocks (252) in the same filter hole (251) are in matched contact, a plurality of stop blocks (253) are sequentially arranged on the lower surface of each filter block (252) in an inclined mode, and one end, connected with the filter blocks (252), of each stop block (253) is the upper end.

2. The thermal power-based industrial wastewater purification treatment equipment as claimed in claim 1, wherein: a first sealing groove (210) is formed in the purification bottom groove (21), first sealing rings (211) are symmetrically arranged on the front side wall and the rear side wall of the purification box body (20), and the first sealing groove (210) is connected with the first sealing rings (211) in a matched mode.

3. The thermal power-based industrial wastewater purification treatment equipment as claimed in claim 1, wherein: the front and rear side walls of the purification box body (20) are symmetrically provided with slag collecting frames (212) in a sliding manner above the purification bottom groove (21), and the front and rear side walls of the purification box body (20) are symmetrically provided with transparent glass door plates (213) in a front and rear manner above the slag collecting frames (212).

4. The thermal power-based industrial wastewater purification treatment equipment according to claim 1, characterized in that: the purification filter plate (25) is divided into a front part and a rear part which are connected through a hinge, a partition plate (250) is fixedly arranged between the purification sliding blocks (24) which are positioned at left and right opposite positions, the inner wall of the purification box body (20) is in sliding contact with the partition plate (250), and the purification filter plate (25) is rotatably connected with the purification partition plate (250).

5. The thermal power-based industrial wastewater purification treatment equipment as claimed in claim 1, wherein: a plurality of adjusting holes (295) are sequentially formed in one radius of the transmission disc (293) along the length direction of the transmission disc, and the transmission connecting rod (294) is connected with the adjusting holes (295) through an adjusting bolt (296).

6. The thermal power-based industrial wastewater purification treatment equipment as claimed in claim 3, wherein: a second sealing groove (214) is formed in the slag collecting frame (212), second sealing rings (215) are symmetrically arranged above the purification bottom groove (21) on the front side wall and the rear side wall of the purification box body (20), and the second sealing groove (214) is connected with the second sealing rings (215) in a matched mode.

7. The thermal power-based industrial wastewater purification treatment equipment as claimed in claim 1, wherein: the method for purifying and treating the thermal power industrial wastewater by using the thermal power-based industrial wastewater purification and treatment equipment comprises the following steps:

s1, preparation: debugging industrial wastewater purification treatment equipment based on thermal energy power;

s2, filtering industrial wastewater: firstly, a purifying cylinder (28) extends to jack a transmission unit (29) up to be far away from a purifying box body (20), the distance between a purifying filter plate (25) and a purifying bottom groove (21) is farthest, then industrial wastewater is poured into the purifying box body (20), the purifying cylinder (28) is shortened to enable the distance between the transmission unit (29) and the upper end of the purifying box body (20) to be shortest, then a heating pipe (22) starts to heat the industrial wastewater in the purifying box body (20) through the purifying bottom groove (21), steam is transmitted in the heating process of the industrial wastewater, the steam is blown to a transmission impeller (292) through an exhaust port (291), so that the transmission impeller (292) can rotate, the transmission impeller (292) rotates to drive a transmission disc (293) to synchronously rotate, the transmission disc (293) drives a purifying magnetic block (27) to reciprocate in a purifying slide way (23) through a transmission connecting rod (294), thereby the purifying magnetic block (27) drives the purifying filter plate (25) to move up and down in the purifying box body (20) through magnetic force, so that the purifying filter plate (25) filters large particle impurities in the heated industrial wastewater;

s3, impurity cleaning: after the industrial wastewater in the purifying box body (20) is completely evaporated, the purifying bottom groove (21) is pulled out from the purifying box body (20), impurities which are not filtered by the purifying filter plate (25) are scraped from the purifying bottom groove (21), the impurities filtered on the purifying filter plate (25) are removed, and then the process is repeated to purify the industrial wastewater generated later.