CN115557553A

CN115557553A - Tank body for recovering waste heat of industrial wastewater

Info

Publication number: CN115557553A
Application number: CN202211172637.XA
Authority: CN
Inventors: 李琼研; 牛炳鑫
Original assignee: Hangzhou Qingyuan Renewable Materials Utilization Co ltd
Current assignee: Hangzhou Qingyuan Renewable Materials Utilization Co ltd
Priority date: 2022-09-26
Filing date: 2022-09-26
Publication date: 2023-01-03
Anticipated expiration: 2042-09-26
Also published as: CN115557553B

Abstract

The invention belongs to the field of energy recovery of industrial waste liquid, and particularly relates to a tank body for recovering waste heat of industrial waste water, which comprises a tank body, wherein a tank body liquid inlet is formed in one side of the upper end surface of the tank body, a heat conduction pipeline is connected and arranged in the tank body below the tank body liquid inlet, a bent sewage discharge pipeline is connected and arranged at the bottom of the heat conduction pipeline, a clear water annular bin is arranged at the top of the heat conduction pipeline and outside the tank body, a plurality of liquid through pipelines are uniformly and communicated and arranged on the inner side wall of the clear water annular bin along the circumferential direction, the other ends of the liquid through pipelines extend into the tank body and are attached to the outer wall surface of the heat conduction pipeline, a heat conduction wall is arranged outside one end of the liquid through pipeline in the tank body, one ends of the liquid through pipelines extend into the tank body and are connected and arranged at the bottom of the tank body, a clear water outlet is formed in the joint of the liquid through pipeline and the bottom of the tank body, and a clear water tray is arranged below the clear water outlet. The invention can carry out high-efficiency energy recovery on the industrial wastewater and simultaneously filter the industrial waste residue.

Description

Tank for recovering waste heat of industrial wastewater

Technical Field

The invention belongs to the field of industrial waste liquid energy recovery, and particularly relates to a tank for recovering waste heat of industrial waste water.

Background

In the production process of many industries, a large amount of industrial wastewater is generated, and the wastewater has a common characteristic of high temperature except a large amount of industrial pollutants, and the high-temperature industrial wastewater is discharged into the environment to cause great damage to animals and plants; and contain a large amount of heats in the high temperature industrial waste water, if directly discharge in the environment, can cause the energy waste, consequently born the jar body or the device that carry out the recovery to the industrial waste water waste heat, but the inside quality of water of industrial waste water is complicated, often can be mingled with a large amount of industrial waste residue, consequently in time after carrying out industrial waste water waste heat recovery, also can't carry out the emission of directness with industrial waste water, still need carry out a series of processings to industrial waste water, it is especially important to carry out the residue filtration to industrial waste water in the processing procedure, can the subsequent operation degree of difficulty of greatly reduced. Borrow this, design one kind and can carry out high-efficient energy recuperation with industrial waste water and carry out filterable jar body with industrial waste residue simultaneously and have important meaning.

Disclosure of Invention

The invention aims to provide a tank body for recovering waste heat of industrial wastewater, aiming at the problems in the prior art. The invention can carry out high-efficiency energy recovery on the industrial wastewater and can carry out high-efficiency filtration treatment on the industrial waste residue.

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides a jar body for industrial waste water waste heat recovery, includes a jar body, jar body inlet, the up end one side of jar body is provided with jar body inlet, jar body inlet below is provided with heat conduction pipeline in jar internal connection, heat conduction pipeline connects to be provided with the sewage pipes who is the form of buckling, the sewage pipes end is provided with the drain, heat conduction pipeline top is provided with clear water ring storehouse in jar external side, clear water ring storehouse top is provided with the clear water inlet, evenly communicate along the circumferencial direction on the clear water ring storehouse inside wall and be provided with many logical liquid pipelines, logical liquid pipeline other end stretches into in the jar body and laminates with heat conduction pipeline outer wall, logical liquid pipeline is provided with the heat-conducting wall in jar internal one end outside, logical liquid pipeline stretches into jar internal one end and connects and sets up in jar body bottom, logical liquid pipeline is provided with the clear water delivery port with jar body bottom junction, clear water delivery port below is provided with the clear water dish in jar body bottom, the connection of clear water dish bottom is provided with the outlet, be provided with the drain valve in the outlet. Through bending the sewage discharge pipeline, a part of industrial wastewater which is not completely radiated but has no value in utilization can be further cooled, and meanwhile, waste residues in the wastewater can be subjected to precipitation treatment.

Preferably, jar body centre of a circle department rotates and is provided with the dwang, the dwang sets up and is provided with the (mixing) shaft in the internal one end outside of jar, a jar body top is stretched out to dwang one end, the dwang is stretched out a jar body top one end and is provided with a driving motor, a driving motor output is connected and is set up on the dwang terminal surface. Through the design of (mixing) shaft for industrial waste water is carrying out heat-conduction in-process, and industrial waste residue can not deposit in the heat conduction pipeline.

Preferably, a steam pipeline for collecting steam is connected to one side wall of the top of the liquid passing pipeline, the other end of the steam pipeline is connected to and arranged on the side wall of the tank body, a third driving motor is arranged at one end, close to the clean water outlet, of the steam pipeline, an induction block is arranged at the top of the third driving motor, the output end of the third driving motor is connected to and provided with a second valve shaft, the other end of the second valve shaft extends into the liquid passing pipeline, a second sealing valve is rotatably arranged on the outer side of one end, extending into the liquid passing pipeline, of the second valve shaft, and the second sealing valve can seal the liquid passing pipeline. Through the design of the steam pipeline, the boiling water can be discharged outwards after the water is heated to boiling.

Preferably, a first valve shaft is rotatably arranged above the second sealing valve and at the top of the liquid passing pipeline, a first sealing valve is rotatably arranged at the outer side of one end of the first valve shaft in the liquid passing pipeline, one end of the first valve shaft extends out of the side wall of the liquid passing pipeline, a second driving motor is arranged at one end of the first valve shaft extending out of the side wall of the liquid passing pipeline, and the output end of the second driving motor is connected and arranged on the end face of the first valve shaft.

Preferably, sewage pipes is provided with fixed jam block in being connected one end with heat conduction pipeline, fixed jam block fit in the slip be provided with remove jam block, the up end connection of removing jam block is provided with the pull rod, the pull rod other end is connected and is provided with the slurcam, the intercommunication is provided with the promotion pipeline on the clear water dish lateral wall below the slurcam, the promotion pipeline other end is connected and is set up in heat conduction pipeline, the promotion pipeline is provided with hollow bottom plate in heat conduction pipeline one end internal fixation, hollow bottom plate up end connection is provided with first spring, first spring other end connection is provided with the promotion bottom plate, it slides and sets up in the promotion pipeline to promote the bottom plate, the up end connection that promotes the bottom plate is provided with the catch bar, the catch bar other end stretches out the promotion pipeline terminal surface, the catch bar stretches out promotion pipeline terminal surface one end connection and sets up in the slurcam bottom. Through the design of the pushing pipeline, after the industrial wastewater loses heat after heat conduction for many times, the industrial wastewater can be discharged in time and replaced.

Preferably, a filter screen is arranged at one end, upwards close to a sewage outlet, of the inner bending part of the sewage pipeline, a linkage disc is connected and arranged at the bottom of the filter screen and the outer side of the sewage pipeline, a plurality of intercommunicated elastic pipelines are uniformly arranged in the linkage disc along the circumferential direction, an elastic hollow bottom plate is fixedly arranged at the bottom of the elastic pipeline, one end, close to the circle center of the sewage pipeline, of the elastic hollow bottom plate is connected and provided with a second spring, the other end of the second spring is connected and provided with an elastic bottom plate, the elastic bottom plate is slidably arranged in the elastic pipeline, the other end of the elastic bottom plate is connected and provided with an elastic rod, the other end of the elastic rod stretches out of the inner side wall of the linkage disc and stretches into the sewage pipeline, one end, stretching out of the sewage pipeline, of the elastic rod is connected and provided with a brush block, and one end, close to the filter screen, of the brush block is provided with a plurality of bristles. Through the design of linkage disc for carrying out the filterable in-process of industrial waste water, alright clear up the filter screen through the brush hair, avoid it to take place to block up.

Preferably, an intercommunication disc is arranged in the sewage discharge pipeline on one side of the sewage discharge port, a plurality of intercommunication disc liquid inlets are uniformly formed in one end, away from the sewage discharge port, of the intercommunication disc along the circumferential direction, an intercommunication pipeline is arranged at the top of the intercommunication disc in a communication mode, and the other end of the intercommunication pipeline is arranged on the side wall of the linkage disc in a communication mode. Through the design of intercommunication dish, the industrial waste water that the make full use of was filtered finishes makes it become the power supply and is used for driving linkage disc and brush hair and clear up the filter screen.

Preferably, a sewage port is arranged at the bottom of the bending part of the sewage pipeline.

Has the advantages that:

1. according to the invention, through the design of the steam pipeline and the inductor, when water is boiled after absorbing enough heat, the liquid pipeline can be driven to complete water changing work through the effect of hot steam, and the heat in the industrial wastewater is fully absorbed and utilized.

2. According to the invention, through the linkage design of the pushing pipeline and the sliding plugging block, after the heat of the industrial wastewater is absorbed completely, the industrial wastewater can be driven by the heated water, so that the industrial wastewater can be replaced in time.

3. According to the invention, through the linkage design of the communicating disc and the linkage disc, the filtered industrial wastewater is changed into a power source, so that the industrial wastewater is changed into the power source, the industrial wastewater can be effectively used for driving the linkage disc and the bristles to clean dirt on the filter screen, and the filter screen blockage is effectively avoided.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is a top view of the present invention;

FIG. 4 isbase:Sub>A cross-sectional view taken at A-A of FIG. 3;

FIG. 5 is a cross-sectional view taken at B-B of FIG. 4;

FIG. 6 is an enlarged view of a portion of FIG. 4 at C;

FIG. 7 is an enlarged view of a portion of FIG. 4 at D;

FIG. 8 is an enlarged view of a portion of FIG. 5 at E;

in the figure: the device comprises a tank body 10, a tank body liquid inlet 12, a heat conduction pipeline 44, a sewage discharge pipeline 16, a sewage discharge outlet 17, a clean water annular bin 13, a clean water liquid inlet 15, a liquid through pipeline 24, a heat conduction wall 43, a clean water outlet 33, a clean water disc 29, a water discharge outlet 30, a water discharge valve 31, a rotating rod 22, a stirring shaft 23, a first driving motor 11, a steam pipeline 28, a third driving motor 42, a sensing block 57, a second valve shaft 41, a second sealing valve 40, a first valve shaft 26, a first sealing valve 27, a second driving motor 25, a fixed plugging block 49, a movable plugging block 36, a pull rod 35, a push plate 34, a push pipeline 32, a hollow bottom plate 48, a first spring 47, a push bottom plate 46, a push rod 45, a filter screen 39, a linkage disc 18, a springing pipeline 55, a springing hollow bottom plate 50, a second spring 51, a movable bottom plate 52, a springing rod 53, a brush block intercommunication 54, bristles 56, a brush intercommunication disc 20, a disc liquid inlet 38, a pipeline 19 and a sewage outlet 37.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.

In the description of the present invention, it should be noted that the terms "inside", "below", and the like refer to orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention conventionally place when used, and are used only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

Referring to fig. 1-8, a tank for recycling residual heat of industrial wastewater comprises a tank body 10 and a tank body inlet 12, wherein the tank body inlet 12 is arranged on one side of the upper end surface of the tank body 10, a heat conduction pipeline 44 is connected and arranged in the tank body 10 below the tank body inlet 12, a bent sewage discharge pipeline 16 is connected and arranged at the bottom of the heat conduction pipeline 44, a sewage discharge outlet 17 is arranged at the tail end of the sewage discharge pipeline 16, a clear water annular bin 13 is arranged at the top of the heat conduction pipeline 44 and outside the tank body 10, a clear water inlet 15 is arranged at the top of the clear water annular bin 13, a plurality of liquid passing pipelines 24 are uniformly and communicated and arranged on the inner side wall of the clear water annular bin 13 along the circumferential direction, the other ends of the liquid passing pipelines 24 extend into the tank body 10 and are attached to the outer wall surface of the heat conduction pipeline 44, a heat conduction wall 43 is arranged at the outer side of one end of the liquid passing pipeline 24 in the tank body 10, one end of the liquid passing pipeline 24 extends into the tank body 10 and is connected and arranged at the bottom of the tank body 10, a clear water outlet 33 is arranged at the connection position of the connection of the bottom of the tank body 24 and the tank body 10, a clear water disk 29 is arranged below the clear water outlet 33 is arranged below the clear water disk 29 is arranged at the bottom of the tank body 10, a drain disk 29 is arranged at the bottom of the tank body 10, a drain disk 29, a drain outlet 30 is arranged at the bottom of the clear water disk 29, and a drain outlet 31 is arranged in the drain port 30.

Further, the position of the centre of a circle of the jar body 10 rotates and is provided with dwang 22, dwang 22 sets up and is provided with the (mixing) shaft 23 in jar body 10 one end outside, dwang 22 one end stretches out jar body 10 top, dwang 22 stretches out jar body 10 top one end and is provided with

first driving motor

11, and 11 output connections of first driving motor set up on dwang 22 terminal surface.

Further, a steam pipeline 28 for collecting steam is connected to one side wall of the top of the liquid passing pipeline 24, the other end of the steam pipeline 28 is connected to and disposed on the side wall of the tank body 10, a third driving motor 42 is disposed at one end, close to the clean water outlet 33, in the steam pipeline 28, the top of the third driving motor 42 is provided with an induction block 57, the output end of the third driving motor 42 is connected to and disposed with a second valve shaft 41, the other end of the second valve shaft 41 extends into the liquid passing pipeline 24, a second sealing valve 40 is rotatably disposed at the outer side of one end, extending into the liquid passing pipeline 24, of the second valve shaft 41, and the second sealing valve 40 can seal the liquid passing pipeline 24.

Further, a first valve shaft 26 is rotatably disposed above the second sealing valve 40 at the top of the liquid passing pipe 24, a first sealing valve 27 is rotatably disposed at the outer side of one end of the first valve shaft 26 in the liquid passing pipe 24, one end of the first valve shaft 26 extends out of the side wall of the liquid passing pipe 24, a second driving motor 25 is disposed at one end of the first valve shaft 26 extending out of the side wall of the liquid passing pipe 24, and an output end of the second driving motor 25 is connected and disposed on an end surface of the first valve shaft 26.

Further, a fixed plugging block 49 is arranged at one end, connected with the heat conduction pipeline 44, of the sewage discharge pipeline 16, a movable plugging block 36 is arranged in the fixed plugging block 49 in a matched and sliding manner, a pull rod 35 is arranged at the upper end face of the movable plugging block 36 in a connected manner, the other end of the pull rod 35 is connected with a push plate 34, a push pipeline 32 is arranged below the push plate 34 and communicated with the side wall of the clean water tray 29, the other end of the push pipeline 32 is arranged in the heat conduction pipeline 44 in a connected manner, a hollow bottom plate 48 is fixedly arranged at one end of the push pipeline 32 in the heat conduction pipeline 44 in an inner fixed manner, a first spring 47 is arranged at the upper end face of the hollow bottom plate 48 in a connected manner, a push bottom plate 46 is arranged at the other end face of the first spring 47 in a connected manner, the push bottom plate 46 is arranged in the push pipeline 32 in a sliding manner, a push rod 45 is arranged at the upper end face of the push rod 46 in a connected manner, the other end face of the push pipeline 45 extends out of the push pipeline 32, and one end face of the push rod 45 is arranged at the bottom plate 34 in a connected manner.

Further, a filter screen 39 is arranged at one end of the sewage draining pipeline 16, which is bent upwards and is close to the sewage draining outlet 17, the bottom of the filter screen 39 is connected with the outer side of the sewage draining pipeline 16 to form a linkage disk 18, a plurality of elastic pipelines 55 which are communicated with each other are uniformly arranged in the linkage disk 18 along the circumferential direction, an elastic hollow bottom plate 50 is fixedly arranged at the bottom of the elastic pipeline 55, one end of the elastic hollow bottom plate 50, which is close to the circle center of the sewage draining pipeline 16, is connected with a second spring 51, the other end of the second spring 51 is connected with an elastic bottom plate 52, the elastic bottom plate 52 is slidably arranged in the elastic pipeline 55, the other end of the elastic bottom plate 52 is connected with an elastic rod 53, the other end of the elastic rod 53 extends out of the inner side wall of the linkage disk 18 and extends into the sewage draining pipeline 16, one end of the elastic rod 53, which extends out of the sewage draining pipeline 16, is connected with a brush block 54, and one end of the brush block 54, which is close to the filter screen 39, is provided with a plurality of bristles 56.

Furthermore, an intercommunication disc 20 is arranged in the sewage discharge pipeline 16 on one side of the sewage discharge port 17, a plurality of intercommunication disc liquid inlets 38 are uniformly arranged in the intercommunication disc 20 at one end far away from the sewage discharge port 17 along the circumferential direction, an intercommunication pipeline 19 is arranged at the top of the intercommunication disc 20 in a communication mode, and the other end of the intercommunication pipeline 19 is arranged on the side wall of the linkage disc 18 in a communication mode.

Further, a sewage port 37 is arranged at the bottom of the bending part of the sewage discharge pipeline 16.

The working principle is as follows: an operator discharges high-temperature industrial wastewater into the tank body 10 through the tank body liquid inlet 12, so that the industrial wastewater entering the tank body 10 can enter the heat conduction pipeline 44, at this time, the tank body 10 arranged outside the tank body 10 starts to feed water through the clear water liquid inlet 15, so that the second driving motor 25 arranged in the liquid passing pipeline 24 is started at this time, the output end of the second driving motor 25 drives the first valve shaft 26 to rotate, the first sealing valve 27 at one end of the first valve shaft 26 is driven to rotate, the liquid passing pipeline 24 starts to pass liquid, so that the water in the clear water annular bin 13 can enter the liquid passing pipeline 24 through the first sealing valve 27, and when the water level in the liquid passing pipeline 24 reaches the height of one side of the steam pipeline 28, the first sealing valve 27 rotates to seal the water.

Set up the first driving motor 11 at jar body 10 top this moment and start, first driving motor 11 output drives dwang 22 and rotates, thereby drive the (mixing) shaft 23 rotation of dwang 22 one end, thereby drive the industrial waste water rotation in the heat conduction pipeline 44, thereby make the heat dissipation that makes industrial waste water can be faster on the one hand, make its heat energy can transmit to logical liquid pipeline 24 in through the heat conduction wall 43 of heat conduction pipeline 44 one side, thereby will lead to the water in the liquid pipeline 24 and carry out heat treatment, on the other hand can avoid the foul of industrial waste water in the heat conduction pipeline 44 to deposit in the heat conduction pipeline 44 bottom.

When the water in the liquid passing pipe 24 is heated to boiling, steam generated by the boiling water is collected through the steam pipe 28, so that the steam pipe 28 discharges the hot steam outwards, in the discharging process, the hot steam is discharged outwards through the sensing block 57, at this time, the sensing block 57 is sensed, so that the third driving motor 42 below the driving is started, the output end of the third driving motor 42 drives the second valve shaft 41 to rotate, so that the second sealing valve 40 outside the second valve shaft 41 is driven to rotate in the liquid passing pipe 24, so that the bottom of the liquid passing pipe 24 is opened, so that the heated water can be discharged into the clean water tray 29 through the clean water outlet 33 at the bottom of the liquid passing pipe 24 and stored, and then the second sealing valve 40 returns to close the bottom of the liquid passing pipe 24, at this time, the first sealing valve 27 is opened to supply water again, so that a new round of heating is performed.

When the hot water in the clean water tray 29 reaches a certain amount, the water in the clean water tray 29 enters the push pipeline 32, then enters the bottom of the push bottom plate 46 through the hollow bottom plate 48 in the push pipeline 32, so as to push the push bottom plate 46 to move outwards, so as to push the push rod 45 arranged at the top of the push bottom plate 46 to move upwards, so as to push the push plate 34 arranged at the top of the push rod 45 to move upwards, so as to pull the pull rod 35 at the bottom of the push plate 34 to move upwards, so as to pull the movable plugging block 36 arranged at the bottom of the pull rod 35 to move upwards, so as to generate a gap between the movable plugging block 36 and the fixed plugging block 49, and at this time, the industrial wastewater which has lost heat after multiple heat dissipation in the heat conduction pipeline 44 can be discharged into the sewage discharge pipeline 16 through the gap between the movable plugging block 36 and the fixed plugging block 49. When the industrial wastewater is discharged into the sewage drainage pipeline 16, at the time of the water outlet 30 arranged at the bottom of the clean water tray 29, the water discharge valve 31 in the water outlet 30 is opened, so that the heated water in the clean water tray 29 is discharged outwards, at the time, the bottom plate 46 is pushed to return under the action of the first spring 47 at the bottom due to the loss of the water pressure, and the movable blocking block 36 and the fixed blocking block 49 are pulled to be sealed again.

When industrial waste water enters into sewage pipes 16, because sewage pipes 16 is the form of bending, consequently when industrial waste water is not many, alright deposit a large amount of industrial waste water in sewage pipes 16 bottoms, this can deposit a large amount of industrial waste residue in this department on the one hand, on the other hand can make some not completely cool off but the further heat dissipation of industrial waste water of valueless after, industrial waste water in sewage pipes 16 reaches a quantitative back, just can outwards discharge through drain 17, filter screen 39 that sets up in drain 17 at the exhaust in-process can filter most industrial waste residue, thereby alleviate industrial waste water treatment's the degree of difficulty.

In the process of draining, after water is filtered by the filter screen 39, a part of the water enters the communicating disc 20 through the communicating disc liquid inlet 38 on one side of the communicating disc 20, and then enters the linkage disc 18 through the communicating pipe 19 under the action of water pressure, at this time, the water entering the linkage disc 18 enters the bottom of the elastic bottom plate 52 through the elastic hollow bottom plate 50 under the action of water pressure, so that the elastic bottom plate 52 is pushed to move outwards, the elastic rod 53 arranged at one end of the elastic bottom plate 52 is pushed to move outwards, the brush block 54 arranged at one end of the elastic rod 53 is pushed to move outwards, the bristles 56 arranged on the brush block 54 are pushed to slide on the filtering surface at the bottom of the filter screen 39, in this relation, because the drainage amount of the sewage draining pipeline 16 changes according to the relation of the movable blocking block 36, when the water pressure is insufficient, the second spring 51 at the bottom of the elastic bottom plate 52 is pushed to move back and forth, the bristles 56 at the top of the brush block 54 is pulled to move back and forth, so that the bottom of the filter screen 39 is cleaned by simulating the dirt washing action, and dirt.

The dirt settled on the bottom of the sewage draining pipeline 16 can be discharged through the sewage port 37 after the industrial wastewater in the sewage draining pipeline 16 is discharged.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. A tank body for recycling residual heat of industrial wastewater comprises a tank body (10) and a tank body liquid inlet (12), and is characterized in that a tank body liquid inlet (12) is arranged on one side of the upper end face of the tank body (10), a heat conduction pipeline (44) is arranged below the tank body liquid inlet (12) in the tank body (10) in a connected mode, a bent sewage discharge pipeline (16) is arranged at the bottom of the heat conduction pipeline (44), a sewage discharge outlet (17) is formed in the tail end of the sewage discharge pipeline (16), a clear water annular bin (13) is arranged on the top of the heat conduction pipeline (44) outside the tank body (10), a clear water inlet (15) is formed in the top of the clear water annular bin (13), a plurality of liquid through pipelines (24) are uniformly communicated on the inner side wall of the clear water annular bin (13) along the circumferential direction, the other ends of the liquid through pipelines (24) extend into the tank body (10) and are attached to the outer wall face of the heat conduction pipeline (44), the liquid through pipelines (24) are arranged on the outer side of one end of the inner side of the tank body (10), a heat conduction wall of the clear water annular bin (43) is arranged on the outer side of the inner end of the tank body (10), one end of the clear water through pipelines (24) extends into the tank body (10), the clear water pipeline (24) is arranged at the bottom of the clear water outlet (33), the clear water annular bin (29), one end of the clear water pipeline (29), the clear water annular bin (24) is arranged at the clear water outlet (33) and is arranged at the bottom of the clear water outlet (10), the bottom of the clear water tray (29) is connected with a water outlet (30), and a water discharge valve (31) is arranged in the water outlet (30).

2. The tank body for recovering waste heat in industrial wastewater according to claim 1, wherein a rotating rod (22) is rotatably arranged at the center of the tank body (10), the rotating rod (22) is arranged in the tank body (10) and provided with a stirring shaft (23) at the outer side of one end, one end of the rotating rod (22) extends out of the top of the tank body (10), one end of the rotating rod (22) extending out of the top of the tank body (10) is provided with a first driving motor (11), and the output end of the first driving motor (11) is connected and arranged on the end surface of the rotating rod (22).

3. The tank body for industrial waste water residual heat recovery according to claim 1, wherein a steam pipeline (28) for collecting steam is connected to one side wall of the top of the liquid pipeline (24), the other end of the steam pipeline (28) is connected and arranged to the side wall of the tank body (10), a third driving motor (42) is arranged at one end of the steam pipeline (28) close to the clean water outlet (33), an induction block (57) is arranged at the top of the third driving motor (42), a second valve shaft (41) is connected and arranged at the output end of the third driving motor (42), the other end of the second valve shaft (41) extends into the liquid pipeline (24), a second sealing valve (40) is rotatably arranged at the outer side of one end of the second valve shaft (41) extending into the liquid pipeline (24), and the second sealing valve (40) can seal the liquid pipeline (24).

4. The tank body for industrial waste water residual heat recovery according to claim 3, wherein a first valve shaft (26) is rotatably arranged above the second sealing valve (40) at the top of the liquid passing pipe (24), a first sealing valve (27) is rotatably arranged outside one end of the first valve shaft (26) in the liquid passing pipe (24), one end of the first valve shaft (26) extends out of the side wall of the liquid passing pipe (24), a second driving motor (25) is arranged at one end of the first valve shaft (26) extending out of the side wall of the liquid passing pipe (24), and an output end of the second driving motor (25) is connected and arranged on an end surface of the first valve shaft (26).

5. The tank body for recovering the waste heat of the industrial wastewater as set forth in claim 1, characterized in that a fixed plugging block (49) is arranged in one end of the sewage pipeline (16) connected with the heat conducting pipeline (44), a movable plugging block (36) is arranged in the fixed plugging block (49) in a matching and sliding manner, a pull rod (35) is arranged on the upper end surface of the movable plugging block (36) in a connecting manner, a push plate (34) is arranged on the other end of the pull rod (35) in a connecting manner, a push pipeline (32) is arranged on the side wall of the clean water tray (29) below the push plate (34) in a communicating manner, the other end of the push pipeline (32) is arranged in the heat conducting pipeline (44) in a connecting manner, a hollow bottom plate (48) is fixedly arranged in one end of the push pipeline (32) in the heat conducting pipeline (44), a first spring (47) is arranged on the upper end surface of the hollow bottom plate (48), a push bottom plate (46) is arranged on the other end surface of the first spring (47) in a connecting manner, the push bottom plate (46) is arranged in a sliding manner, a push rod (45) extends out of the push pipeline (32).

6. The tank body for recovering the waste heat of the industrial wastewater as set forth in claim 1, characterized in that a filter screen (39) is arranged at one end of the sewage draining pipeline (16) which is bent upwards and close to the sewage draining outlet (17), a linkage disk (18) is connected with the outside of the sewage draining pipeline (16) at the bottom of the filter screen (39), a plurality of intercommunicated elastic pipelines (55) are uniformly arranged in the linkage disk (18) along the circumferential direction, an elastic hollow bottom plate (50) is fixedly arranged at the bottom of the elastic pipeline (55), one end of the elastic hollow bottom plate (50) close to the circle center of the sewage draining pipeline (16) is connected and provided with a second spring (51), the other end of the second spring (51) is connected and provided with an elastic bottom plate (52), the elastic bottom plate (52) is slidably arranged in the elastic pipeline (55), the other end of the elastic bottom plate (52) is connected and provided with an elastic rod (53), the other end of the elastic rod (53) extends out of the inner side wall of the linkage disk (18) and extends into the sewage draining pipeline (16), one end of the elastic rod (53) extends out of the sewage draining pipeline (16) and is connected and provided with a plurality of brush blocks (54), and one end of the brush blocks (39) is provided with a plurality of brush blocks (54).

7. The tank body for recovering waste heat of industrial wastewater as defined in claim 6, wherein an interconnection disc (20) is arranged in the sewage pipeline (16) at one side of the sewage outlet (17), a plurality of interconnection disc liquid inlets (38) are uniformly arranged in the interconnection disc (20) at one end far away from the sewage outlet (17) along the circumferential direction, an interconnection pipeline (19) is arranged at the top of the interconnection disc (20) in a communication manner, and the other end of the interconnection pipeline (19) is arranged on the side wall of the linkage disc (18) in a communication manner.

8. The tank body for recycling residual heat of industrial wastewater according to claim 6, wherein a sewage port (37) is arranged at the bottom of the bent part of the sewage pipeline (16).