CN218833666U - Integrated separation and recovery device and wastewater treatment equipment - Google Patents

Abstract

The utility model provides an integration separation recovery unit and waste water treatment equipment. The integrated separation and recovery device comprises a reaction tank, a transmission valve pipe, a collection assembly, a valve plate filter screen piece and a power delivery pump. Wherein, the conveying flow channel is communicated with the reaction cavity, and the control valve is used for controlling the conduction or the closing of the conveying flow channel. Two adjacent collection piece interconnect, each collect the piece and connect in the mounting, and the power take off end and the mounting of driving piece rotate to be connected, and each is collected the piece and is formed with the collection chamber, carries runner and collection chamber intercommunication, and each is collected the protruding pipe that is equipped with of piece. The valve plate filter screen piece is located the collection intracavity and is connected with the collection piece rotation, and each valve plate filter screen piece is formed with the filter chamber, and the filter chamber of each valve plate filter screen piece communicates with the collection chamber of corresponding collection piece, and the pipe communicates with the filter chamber. The input end of the power transmission pump is communicated with the conduit. The integrated separation and recovery device enables the precipitate to be taken conveniently, so that the recovery efficiency of the precipitate is high.

Description

Integrated separation and recovery device and wastewater treatment equipment

Technical Field

The utility model relates to a waste water treatment equipment's technical field especially relates to an integration separation recovery unit and waste water treatment equipment.

Background

A wastewater treatment facility is an industrial facility that treats wastewater. The wastewater treatment equipment is widely applied to the fields of manufacturing factories, schools, new energy sources and the like. Among them, in the battery industry in the field of new energy, wastewater treatment equipment is often used to treat and recover positive electrode materials such as nickel, cobalt, manganese and the like. The waste water treatment equipment comprises an integrated separation and recovery device, a storage device and the like, wherein the integrated separation and recovery device is connected with the storage device, and a discharge hole of the integrated separation and recovery device is communicated with a feed hole of the storage device.

In the prior art, the integrated separation and recovery device comprises a reaction kettle tank body and a cover plate, wherein a feed port is formed in the reaction kettle tank body, the cover plate is covered on the feed port and is movably connected with the reaction kettle tank body, an operator places the wastewater and the precipitant into the reaction kettle tank body through the feed port so that the material in the wastewater and the precipitant react to generate the precipitate, and the precipitate is deposited at the bottom of the reaction kettle tank body. The internal sedimentation process of reation kettle jar obtains the mixture of solid-liquid mixture after accomplishing, operating personnel need filter liquid through the discharge gate and carry to storage device in with, make the internal precipitate of reation kettle jar and liquid separation come, treat that the internal liquid of reation kettle jar has been arranged afterwards, operating personnel can take out the precipitate, the time that makes operating personnel need wait when taking out the precipitate is longer, lead to operating personnel can't take out the precipitate fast, thereby make the internal precipitate of reation kettle jar take the convenience relatively poor, and then make the recovery efficiency of integration separation recovery unit to the precipitate lower.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the weak point among the prior art, providing one kind and making taking convenience of precipitate better to the higher integration separation recovery unit and the waste water treatment equipment of recovery efficiency to the precipitate.

The purpose of the utility model is realized through the following technical scheme:

an integrated separation and recovery device comprising:

the reaction tank is provided with a reaction cavity, a liquid conveying port and a connecting hole, and the reaction cavity is respectively communicated with the liquid conveying port and the connecting hole;

the transmission valve pipe penetrates through the connecting hole and is connected with the reaction tank, a transmission flow channel is formed in the transmission valve pipe and is communicated with the reaction cavity, and the transmission valve pipe is provided with a control valve which is used for controlling the conduction or the closing of the transmission flow channel;

the collecting assembly comprises a driving piece, a fixing piece and at least two collecting pieces, wherein every two adjacent collecting pieces are connected with each other, each collecting piece is connected with the fixing piece, the power output end of the driving piece is rotatably connected with the fixing piece, a collecting cavity is formed in each collecting piece, one end, away from the reaction tank, of the transmission valve pipe is movably connected with each collecting piece, the transmission flow channel is communicated with the collecting cavity of each collecting piece, and a guide pipe is convexly arranged on each collecting piece;

the valve plate filter screen pieces are positioned in the collecting cavities and are in rotary connection with the collecting pieces so as to open or close the collecting cavities, the number of the valve plate filter screen pieces is at least two, each valve plate filter screen piece is arranged corresponding to the corresponding collecting piece, a filter cavity is formed in each valve plate filter screen piece, the filter cavity of each valve plate filter screen piece is communicated with the corresponding collecting cavity of the collecting piece, and the guide pipe is communicated with the filter cavities; and

and the output end of the power delivery pump is communicated with the liquid feeding port, and the input end of the power delivery pump is communicated with the guide pipe.

In one embodiment, the integrated separation and recovery device further comprises an arc-shaped baffle plate, a first through hole is formed in the arc-shaped baffle plate, one end, away from the reaction tank, of the transmission valve pipe penetrates through the first through hole and is connected with the arc-shaped baffle plate, and the arc-shaped baffle plate is connected with the collecting piece in a sliding mode.

In one embodiment, the inner wall of the connecting hole and the inner wall of the first via hole are provided with sealing rings.

In one embodiment, the driving member includes a driving motor and a transmission shaft, the transmission shaft is connected to a power output end of the driving motor, and the transmission shaft is rotatably connected to the fixing member, so that each collecting member rotates around the transmission shaft.

In one embodiment, the number of collecting members is three.

In one embodiment, each collecting element further comprises a main body and a rotating shaft, the main body is connected with the fixing element, a pivot hole is formed in the main body, the rotating shaft penetrates through the pivot hole and is rotatably connected with the main body, the collecting cavity is formed in the main body, the guide pipe is convexly arranged on one side, away from the rotating shaft, of the main body, the main body is movably connected with the transmission valve pipe, and the rotating shaft is connected with the valve plate filter screen element so as to drive the valve plate filter screen element to rotate relative to the main body, so that the valve plate filter screen element opens or closes the collecting cavity.

In one embodiment, the valve plate and filter screen element comprises a valve plate and a filter screen, the filter screen is connected to one side of the valve plate and forms the filter cavity together with the valve plate, and the rotating shaft is connected with the valve plate to drive the valve plate to rotate relative to the main body so that the valve plate opens or closes the collection cavity.

In one embodiment, a threaded sleeve head is arranged at one end of the guide pipe, which is far away from the filter cavity, and a connecting pipe is arranged at the input end of the power delivery pump and is connected with the threaded sleeve head, so that the input end of the power delivery pump is communicated with the guide pipe.

In one embodiment, the threaded socket is provided with an external thread and the connecting pipe is provided with an internal thread, the threaded socket being in threaded connection with the connecting pipe.

A wastewater treatment facility comprising the integrated separation and recovery device of any of the above embodiments.

Compared with the prior art, the utility model discloses at least, following advantage has:

1. the reaction cavity is communicated with the conveying flow channel, the conveying flow channel is communicated with the collecting cavity, the waste liquid and the precipitating agent enter the reaction cavity through the upper part of the reaction tank, so that the waste liquid and the precipitating agent react in the reaction cavity to precipitate, the precipitate is deposited at the bottom of the reaction tank under the action of gravity, the conveying valve pipe is connected with the reaction tank, and the control valve is used for controlling the conduction or the closing of the conveying flow channel, namely, when the control valve is opened, the conveying flow channel is conducted; when the control valve is closed, the conveying flow channel is closed; valve plate filter screen spare is located collects the intracavity and rotates with collecting the piece and be connected, in order to open or close and collect the chamber, in the utility model, when the control valve is opened, rotate valve plate filter screen spare simultaneously and open when collecting the chamber, namely, the transport runner switches on, transport runner and collection chamber intercommunication, precipitate and liquid in the reaction chamber get into along carrying the runner and collect in the chamber, after collecting chamber collection full precipitate and liquid, close the control valve earlier, then, rotate valve plate filter screen spare again and close and collect the chamber, stop the collection, the power take off end and the mounting rotation of driving piece are connected, each is collected the piece and is connected in the mounting, so that each is collected a encircleing the driving piece rotates, make another collect the position of piece and collect, the input of power feed pump and the pipe intercommunication of the collection piece that collects full liquid, two adjacent collection piece interconnect, this moment, the filter chamber of the collection piece that collects full liquid is located the below, valve plate filter screen spare is used for separating liquid and precipitate, so that make the precipitate get into the precipitate and collect the operation pond once more after the operation pond, thereby make the precipitate collect the precipitate and need to get into the operation pond once more the deposit and can be got after the operation pond, thereby make the precipitate get into the precipitate fast recovery pond.

2. Because two adjacent collection piece interconnect, at this moment, the filter chamber of the collection piece that collects the full liquid is located the below, under the effect of gravity, liquid and precipitate and the diapire separation of collection chamber, liquid passes through valve plate filter screen spare and gets into the filter chamber, under the influence of gravity, remaining liquid slowly flows to the filter chamber, make the liquid of collecting the intracavity thoroughly discharged, thereby make the difficult diapire portion of remaining in collection chamber of liquid, and then make the liquid of collecting the intracavity enter into the reaction tank through the pipe is whole once more, the problem of liquid detention in the collection intracavity has been avoided, thereby the waste of liquid has been reduced, and then make integration separation recovery unit better to the rate of recovery of waste liquid.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and that those skilled in the art can also obtain other related drawings based on these drawings without inventive efforts.

FIG. 1 is a schematic structural diagram of an integrated separation and recovery apparatus according to an embodiment;

FIG. 2 is an enlarged schematic view of the integrated separation and recovery apparatus shown in FIG. 1 at A;

FIG. 3 is an enlarged schematic view of the integrated separation and recovery apparatus shown in FIG. 1 at B;

FIG. 4 is a schematic structural diagram of a control valve of the integrated separation and recovery apparatus shown in FIG. 1;

FIG. 5 is a schematic structural view of a collecting member of the integrated separation and recovery device shown in FIG. 1;

fig. 6 is a schematic structural diagram of a driving member of the integrated separation and recovery apparatus shown in fig. 1.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are illustrated in the accompanying drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The utility model provides an integration separation recovery unit, including reaction tank, transmission valve pipe, collection subassembly, valve plate filter screen spare and power delivery pump. Wherein, the reaction tank is provided with a reaction cavity, a liquid feeding port and a connecting hole, and the reaction cavity is respectively communicated with the liquid feeding port and the connecting hole. The transmission valve pipe penetrates through the connecting hole and is connected with the reaction tank, a transmission flow channel is formed in the transmission valve pipe and is communicated with the reaction cavity, and the transmission valve pipe is provided with a control valve which is used for controlling the conduction or the closing of the transmission flow channel. The collecting assembly comprises a driving piece, a fixing piece and at least two collecting pieces, wherein the two adjacent collecting pieces are connected with each other, each collecting piece is connected to the fixing piece, the power output end of the driving piece is connected with the fixing piece in a rotating mode, a collecting cavity is formed in each collecting piece, one end, deviating from the reaction tank, of the transmission valve pipe is movably connected with each collecting piece, the transmission flow channel is communicated with the collecting cavity of each collecting piece, and each collecting piece is convexly provided with a guide pipe. The valve plate filter screen piece is located and collects the intracavity and is connected with collecting the piece rotation to open or close and collect the chamber, the figure of valve plate filter screen piece is two at least, and each valve plate filter screen piece corresponds the setting with corresponding collection piece, and each valve plate filter screen piece is formed with the filter chamber, and the filter chamber of each valve plate filter screen piece and the collection chamber intercommunication of corresponding collection piece, pipe and filter chamber intercommunication. The output end of the power delivery pump is communicated with the liquid feeding port, and the input end of the power delivery pump is communicated with the guide pipe.

According to the integrated separation and recovery device, the reaction cavity is communicated with the conveying flow channel, the conveying flow channel is communicated with the collecting cavity, the waste liquid and the precipitating agent enter the reaction cavity through the upper part of the reaction tank, so that the waste liquid and the precipitating agent react in the reaction cavity to precipitate, the precipitate is deposited at the bottom of the reaction tank under the action of gravity, the transmission valve pipe is connected with the reaction tank, and the control valve is used for controlling the conduction or the closing of the conveying flow channel, namely, when the control valve is opened, the conveying flow channel is conducted; when the control valve is closed, the conveying flow channel is closed; valve plate filter screen spare is located collects the intracavity and rotates with collecting the piece and be connected, in order to open or close and collect the chamber, in the utility model, when the control valve is opened, rotate valve plate filter screen spare simultaneously and open when collecting the chamber, namely, the transport runner switches on, transport runner and collection chamber intercommunication, precipitate and liquid in the reaction chamber get into along carrying the runner and collect in the chamber, after collecting chamber collection full precipitate and liquid, close the control valve earlier, then, rotate valve plate filter screen spare again and close and collect the chamber, stop the collection, the power take off end and the mounting rotation of driving piece are connected, each is collected the piece and is connected in the mounting, so that each is collected a rotation around the driving piece, make another collect the position of piece and collect, the input of power feed pump and the pipe intercommunication of the collection piece of full liquid, two adjacent collection piece interconnect, this moment, the filter chamber of the collection piece of full liquid is located the below, valve plate filter screen spare is used for separating liquid and precipitate, so that make the precipitate get into the recovery pond after the operation pond once more, thereby make the precipitate collect the precipitate and need to leave the precipitate to get into the operation pond once more after the recovery pond, thereby make the precipitate get into the precipitate and collect the operation pond. Because two adjacent collection piece interconnect, at this moment, the filter chamber of the collection piece that collects the liquid is located the below, under the effect of gravity, liquid and precipitate and the diapire separation of collection chamber, liquid passes through valve plate filter screen spare and gets into the filter chamber, under the influence of gravity, remaining liquid slowly flows to the filter chamber, make the liquid of collecting the intracavity thoroughly discharged, thereby make the difficult bottom wall portion that remains in collection chamber of liquid, and then make the liquid of collecting the intracavity pass through the whole reentrant reaction tank of pipe, the problem of liquid detention in the collection intracavity has been avoided, thereby the waste of liquid has been reduced, and then make the recovery rate of integration separation recovery unit to the waste liquid better.

For better understanding of the technical solution and the advantages of the present invention, the following detailed description is made in conjunction with the embodiments of the present invention:

as shown in fig. 1 to 6, the integrated separation and recovery apparatus 10 of an embodiment includes a reaction tank 100, a transfer valve pipe 200, a collection assembly 300, a valve plate filter element 400, and a power transfer pump 500. The reaction chamber 100 has a reaction chamber 110, a liquid feeding port 120, and a connection hole 130, and the reaction chamber 110 is connected to the liquid feeding port 120 and the connection hole 130. The transfer valve tube 200 is inserted into the connection hole 130 and connected to the reaction cell 100, the transfer valve tube 200 is formed with a transfer flow channel 210, the transfer flow channel 210 is communicated with the reaction chamber 110, the transfer valve tube 200 is provided with a control valve 220, and the control valve 220 is used for controlling the conduction or the closing of the transfer flow channel 210. The collecting assembly 300 comprises a driving member 310, a fixing member 330 and at least two collecting members 320, wherein two adjacent collecting members 320 are connected with each other, each collecting member 320 is connected to the fixing member 330, the power output end of the driving member 310 is rotatably connected with the fixing member 330, each collecting member 320 is formed with a collecting cavity 3222, one end of the transmission valve tube 200, which is away from the reaction tank 100, is movably connected with each collecting member 320, the transmission flow channel 210 is communicated with the collecting cavity 3222 of each collecting member 320, and each collecting member 320 is convexly provided with a conduit 321. Valve plate filter screen elements 400 are positioned in collecting cavities 3222 and rotatably connected with collecting elements 320 to open or close collecting cavities 3222, the number of valve plate filter screen elements 400 is at least two, each valve plate filter screen element 400 is arranged corresponding to a corresponding collecting element 320, each valve plate filter screen element 400 is provided with a filter cavity 421, the filter cavity 421 of each valve plate filter screen element 400 is communicated with the corresponding collecting cavity 3222 of collecting element 320, and a conduit 321 is communicated with the filter cavity 421. The output end of the power delivery pump 500 is communicated with the liquid feeding port 120, and the input end of the power delivery pump 500 is communicated with the conduit 321.

In this embodiment, the operator puts the waste liquid and the precipitate into the reaction chamber 110 through the upper part of the reaction tank 100. The liquid feeding port 120 is formed at the top side of the reaction cell 100 to prevent the liquid in the reaction chamber 110 from overflowing through the liquid feeding port 120, and the connection hole 130 is formed at the bottom of the reaction cell 100. The transfer valve pipe 200 is located outside the reaction chamber 110 and below the reaction cell 100. The control valve 220 is used for controlling the conduction or the closing of the conveying flow channel 210, that is, when the control valve 220 is opened, the conveying flow channel 210 is conducted; when the control valve 220 is closed, the delivery flow path 210 is closed. The power transfer pump 500 is located outside the reaction chamber 110 and at one side of the reaction cell 100. After waste liquid and precipitate in the entering reaction chamber 110 react and precipitate, form first liquid level height in the reaction chamber 110, operating personnel acquires the numerical value of first liquid level height through the detection instrument, when control valve 220 opened, carry runner 210 to switch on, liquid level height in the reaction chamber 110 descends gradually, after a period, form second liquid level height in the reaction chamber 110, operating personnel acquires the numerical value of second liquid level height through the detection instrument, wait for after a period again, form third liquid level height in the reaction chamber 110, operating personnel acquires the numerical value of third liquid level height through the detection instrument, can judge through the numerical value of second liquid level height and the numerical value contrast of third liquid level height and collect chamber 3222 and collect precipitate and liquid.

Specifically, when the value of the second liquid level height is equal to the value of the third liquid level height, it indicates that after a period of time, the liquid level height in the reaction chamber 110 has not changed, that is, the sediment and the liquid cannot enter the collection chamber 3222 within the period of time, under the condition that the control valve 220 is opened, an operator may determine that the collection chamber 3222 is full of the sediment and the liquid, when the collection chamber 3222 is full of the sediment and the liquid, the control valve 220 is closed first, then, the valve plate filter screen element 400 is rotated to close the collection chamber 3222, and the collection is stopped.

Further, the detection tool is a graduated detection rod, and the graduated detection rod is tightly attached to the inner wall of the reaction cavity 110 when the liquid level height is measured, so that the graduated detection rod and the inner wall of the reaction cavity 110 are parallel to each other, and the measurement accuracy of the graduated detection rod is ensured.

In the integrated separation and recovery device 10, the reaction chamber 110 is communicated with the conveying flow channel 210, the conveying flow channel 210 is communicated with the collection chamber 3222, the waste liquid and the precipitant enter the reaction chamber 110 through the upper part of the reaction tank 100, so that the waste liquid and the precipitant react in the reaction chamber 110 to precipitate, the precipitate is deposited at the bottom of the reaction tank 100 under the action of gravity, the transmission valve tube 200 is connected with the reaction tank 100, and the control valve 220 is used for controlling the conduction or the closing of the conveying flow channel 210, that is, when the control valve 220 is opened, the conveying flow channel 210 is conducted; when the control valve 220 is closed, the delivery flow path 210 is closed; in the present invention, when the control valve 220 is opened and the collection chamber 3222 is opened by rotating the valve plate filter screen 400, that is, the conveying flow channel 210 is conducted, the conveying flow channel 210 is communicated with the collection chamber 3222, the sediment and the liquid in the reaction chamber 110 enter the collection chamber 3222 along the conveying flow channel 210, when the collection chamber 3222 is full of the sediment and the liquid, the control valve 220 is closed first, then the valve plate filter screen 400 is rotated to close the collection chamber 3222, the collection is stopped, the power output end of the driving member 310 is rotatably connected with the fixing member 330, each collection member 320 is connected to the fixing member 330, so that each collection member 320 rotates around the driving member 310, so that the other collection member 320 replaces the position of the previous collection member 320 for collection, the input end of the power transmission pump 500 is communicated with the conduit 321 of the full of the collection member 320, the two adjacent collection members 320 are connected to each other, at this time, the collection member 320 is full of the collection member 320, the collection chamber 421 is positioned in the lower collection chamber, so that the collection chamber 421 can be conveniently taken out by a person who operates the sediment collection pump 400, the collection chamber 3222, so that the sediment can be conveniently taken out the sediment can be collected from the reaction chamber 3222, thereby, the sediment can be conveniently taken out by a person who operates the sediment and can be conveniently taken out of the sediment and can be taken out by the reaction chamber 3222 after waiting for the collection chamber 3222, further, the integrated separating and recovering device 10 has high recovery efficiency of the precipitate. Because two adjacent collection piece 320 interconnect, at this moment, the filter chamber 421 of the collection piece 320 that gathers liquid is located the below, under the effect of gravity, liquid and precipitate and the bottom wall separation of collection chamber 3222, liquid passes through valve plate filter screen 400 and gets into filter chamber 421, under the influence of gravity, remaining liquid slowly flows to filter chamber 421, make the liquid in collection chamber 3222 thoroughly discharged, thereby make liquid remain in the bottom wall portion of collection chamber 3222 more difficult, and then make the liquid in collection chamber 3222 all reentry reaction tank 100 through pipe 321, the problem of liquid detention in collection chamber 3222 has been avoided, thereby liquid's waste has been reduced, and then make integration separation recovery unit 10 better to the rate of recovery of waste liquid.

As shown in fig. 1, in one embodiment, the integrated separation and recovery device 10 further includes an arc-shaped baffle 600, the arc-shaped baffle 600 is formed with a first through hole 610, one end of the transfer valve pipe 200 facing away from the reaction tank 100 is inserted through the first through hole 610 and connected with the arc-shaped baffle 600, and the arc-shaped baffle 600 is slidably connected with the collecting member 320. In this embodiment, the arc baffle 600 covers the collecting element 320, so that the collecting element 320 is difficult to swing in the process of movably connecting the collecting element 320 with the transmission valve pipe 200, the connection stability between the conveying flow channel 210 and the collecting cavity 3222 is good, the problem of leakage of waste liquid in the conveying process caused by the swinging of the collecting element 320 is avoided, and the conveying stability of the integrated separation and recovery device 10 on the waste liquid is good.

As shown in fig. 2 and 3, in one embodiment, the inner walls of the connection hole 130 and the first via hole 610 are provided with a sealing ring 701. In this embodiment, the inner wall of the connection hole 130 is provided with the sealing ring 701, so that the connection airtightness between the reaction tank 100 and the transmission valve pipe 200 is good, and thus the liquid flows out from the connection position between the reaction tank 100 and the transmission valve pipe 200 more difficultly, the waste of the liquid is reduced, and the recovery rate of the waste liquid by the integrated separation and recovery device 10 is good.

Further, the inner wall of the first via hole 610 is provided with a sealing ring 701, so that the arc-shaped baffle 600 is in close contact with the transfer valve pipe 200, and the connection strength between the arc-shaped baffle 600 and the transfer valve pipe 200 is high.

As shown in fig. 1 and 6, in one embodiment, the driving member 310 includes a driving motor 311 and a transmission shaft 312, the transmission shaft 312 is connected to a power output end of the driving motor 311, and the transmission shaft 312 is rotatably connected to the fixing member 330, so that each collecting member 320 rotates around the transmission shaft 312. In this embodiment, the driving motor 311 drives the transmission shaft 312 to rotate, and the transmission shaft 312 drives the fixing member 330 to rotate, so that the fixing member 330 drives each collecting member 320 to rotate, that is, the driving motor 311 drives the transmission shaft 312 to rotate, and further the transmission shaft 312 can drive the fixing member 330 to rotate, so that the integrated separation and recovery device 10 is convenient and fast, and the recovery efficiency of the integrated separation and recovery device 10 on the precipitate is high.

Further, the driving motor 311 is used for electrically connecting with a computer, so that an operator can control the collecting member 320 to rotate to a predetermined angle and then stop the collecting member, thereby ensuring that the collecting cavity 3222 corresponds to the conveying flow channel 210 accurately, and thus the working efficiency of the integrated separation and recovery device 10 is high, and the recovery efficiency of the integrated separation and recovery device 10 on the sediments is high.

It should be noted that, the computer control collection piece 320 pivoted data acquisition, processing and operation are not in the utility model discloses a protection range, the utility model discloses only protect collection piece 320's relation of connection and position relation.

As shown in fig. 1 and 6, in one embodiment, the number of the collecting members 320 is three. In this embodiment, the three collecting members 320 are sequentially connected to each other to form an annular structure, and the three collecting members 320 rotate around the transmission shaft 312, so that the collecting cavities 3222 of the three collecting members 320 are sequentially communicated with the conveying flow channel 210, and thus the sealing performance between each collecting cavity 3222 and the conveying flow channel 210 is good, and the leakage of liquid is avoided, so that the recovery rate of the waste liquid by the integrated separation and recovery device 10 is good.

As shown in fig. 1, 5 and 6, in one embodiment, each collecting element 320 further includes a main body 322 and a rotating shaft 323, the main body 322 is connected to the fixing element 330, a pivot hole (not shown) is formed on the main body 322, the rotating shaft 323 is disposed through the pivot hole and rotatably connected to the main body 322, the collecting cavity 3222 is formed on the main body 322, the conduit 321 is protruded on a side of the main body 322 facing away from the rotating shaft 323, the main body 322 is movably connected to the delivery valve pipe 200, and the rotating shaft 323 is connected to the valve plate strainer 400 to drive the valve plate strainer 400 to rotate relative to the main body 322, so that the valve plate strainer 400 opens or closes the collecting cavity 3222. In this embodiment, an operator rotates the rotating shaft 323 through manual operation to rotate the rotating shaft 323, and the rotating shaft 323 is connected to the valve plate filter element 400, so that the rotating shaft 323 drives the valve plate filter element 400 to rotate, that is, the rotating shaft 323 rotates to drive the valve plate filter element 400 to rotate relative to the main body 322, so that the operator can control the valve plate filter element 400 conveniently. In this embodiment, the rotating shaft 323 and the conduit 321 are coaxially disposed.

As shown in fig. 3, in one embodiment, the valve plate filter element 400 includes a valve plate 410 and a filter screen 420, the filter screen 420 is connected to one side of the valve plate 410 and forms a filter chamber 421 together with the valve plate 410, and the rotating shaft 323 is connected to the valve plate 410 to drive the valve plate 410 to rotate relative to the main body 322, so that the valve plate 410 opens or closes the collecting chamber 3222. In this embodiment, the filter screen 420 is used to separate the liquid from the sediment, so that the liquid enters the filter cavity 421 through the filter screen 420, the sediment is isolated in the collection cavity 3222, and after the liquid is pumped out of the collection cavity 3222, only the sediment remains in the collection cavity 3222, thereby the integrated separation and recovery device 10 has high recovery efficiency on the sediment.

As shown in fig. 1 and fig. 5, in one embodiment, a threaded socket 3211 is provided at an end of the conduit 321 away from the filter chamber 421, a connection pipe 510 is provided at an input end of the power transmission pump 500, and the connection pipe 510 is connected to the threaded socket 3211, so that the input end of the power transmission pump 500 is communicated with the conduit 321. In this embodiment, the power delivery pump 500 is connected to the conduit 321 through the connection pipe 510 and the thread socket 3211, so that the input end of the power delivery pump 500 is communicated with the conduit 321, and the power delivery pump 500 can deliver the liquid in the filter chamber 421 to the reaction tank 100 again through the conduit 321, thereby reducing the waste of the liquid, and further improving the recovery rate of the waste liquid by the integrated separation and recovery device 10.

As shown in fig. 1 and 5, in one embodiment, the threaded socket 3211 is provided with an external thread 3211a, the connection pipe 510 is provided with an internal thread (not shown), and the threaded socket 3211 is threadedly connected to the connection pipe 510, so that the threaded socket 3211 is detachably connected to the connection pipe 510, so that the connection between the threaded socket 3211 and the connection pipe 510 is convenient, thereby increasing the speed of the power transmission pump 500 for pumping the liquid in the collection member 320, and allowing the liquid in the collection member 320 to be pumped out quickly, thereby allowing the integrated separation and recovery device 10 to process the liquid at a high speed.

The utility model also provides a wastewater treatment equipment, including any one of the above-mentioned embodiments integration separation recovery unit 10.

Compared with the prior art, the utility model discloses at least, following advantage has:

1. because the reaction chamber 110 is communicated with the conveying flow channel 210, the conveying flow channel 210 is communicated with the collecting chamber 3222, the waste liquid and the precipitating agent enter the reaction chamber 110 through the upper part of the reaction tank 100, so that the waste liquid and the precipitating agent react in the reaction chamber 110 to precipitate, the precipitate is deposited at the bottom of the reaction tank 100 under the action of gravity, the transmission valve pipe 200 is connected with the reaction tank 100, and the control valve 220 is used for controlling the conduction or the closing of the conveying flow channel 210, that is, when the control valve 220 is opened, the conveying flow channel 210 is conducted; when the control valve 220 is closed, the delivery flow path 210 is closed; in the present invention, when the control valve 220 is opened and the collection chamber 3222 is opened by rotating the valve plate filter screen 400, that is, the conveying flow channel 210 is conducted, the conveying flow channel 210 is communicated with the collection chamber 3222, the sediment and the liquid in the reaction chamber 110 enter the collection chamber 3222 along the conveying flow channel 210, when the collection chamber 3222 is full of the sediment and the liquid, the control valve 220 is closed first, then the valve plate filter screen 400 is rotated to close the collection chamber 3222, the collection is stopped, the power output end of the driving member 310 is rotatably connected with the fixing member 330, each collection member 320 is connected to the fixing member 330, so that each collection member 320 rotates around the driving member 310, so that the other collection member 320 replaces the position of the previous collection member 320 for collection, the input end of the power transmission pump 500 is communicated with the conduit 321 of the full of the collection member 320, the two adjacent collection members 320 are connected to each other, at this time, the collection member 320 is full of the collection member 320, the collection chamber 421 is positioned in the lower collection chamber, so that the collection chamber 421 can be conveniently taken out by a person who operates the sediment collection pump 400, the collection chamber 3222, so that the sediment can be conveniently taken out the sediment can be collected from the reaction chamber 3222, thereby, the sediment can be conveniently taken out by a person who operates the sediment and can be conveniently taken out of the sediment and can be taken out by the reaction chamber 3222 after waiting for the collection chamber 3222, further, the integrated separating and recovering device 10 has high recovery efficiency of the precipitate.

2. Because two adjacent collection piece 320 interconnect, at this moment, the filter chamber 421 of the collection piece 320 that gathers liquid is located the below, under the effect of gravity, liquid and precipitate and the bottom wall separation of collection chamber 3222, liquid passes through valve plate filter screen 400 and gets into filter chamber 421, under the influence of gravity, remaining liquid slowly flows to filter chamber 421, make the liquid in collection chamber 3222 thoroughly discharged, thereby make liquid remain in the bottom wall portion of collection chamber 3222 more difficult, and then make the liquid in collection chamber 3222 all reentry reaction tank 100 through pipe 321, the problem of liquid detention in collection chamber 3222 has been avoided, thereby liquid's waste has been reduced, and then make integration separation recovery unit 10 better to the rate of recovery of waste liquid.

The above-mentioned embodiments only represent several embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. An integrated separation and recovery device, comprising:

the reaction tank is provided with a reaction cavity, a liquid feeding port and a connecting hole, and the reaction cavity is respectively communicated with the liquid feeding port and the connecting hole;

the transmission valve pipe penetrates through the connecting hole and is connected with the reaction tank, a transmission flow channel is formed in the transmission valve pipe and is communicated with the reaction cavity, and the transmission valve pipe is provided with a control valve which is used for controlling the conduction or the closing of the transmission flow channel;

the collecting assembly comprises a driving piece, a fixing piece and at least two collecting pieces, wherein every two adjacent collecting pieces are connected with each other, each collecting piece is connected with the fixing piece, the power output end of the driving piece is rotatably connected with the fixing piece, a collecting cavity is formed in each collecting piece, one end, away from the reaction tank, of the transmission valve pipe is movably connected with each collecting piece, the transmission flow channel is communicated with the collecting cavity of each collecting piece, and a guide pipe is convexly arranged on each collecting piece;

the valve plate filter screen pieces are positioned in the collecting cavities and are in rotary connection with the collecting pieces so as to open or close the collecting cavities, the number of the valve plate filter screen pieces is at least two, each valve plate filter screen piece is arranged corresponding to the corresponding collecting piece, a filter cavity is formed in each valve plate filter screen piece, the filter cavity of each valve plate filter screen piece is communicated with the corresponding collecting cavity of the collecting piece, and the guide pipe is communicated with the filter cavities; and the output end of the power delivery pump is communicated with the liquid feeding port, and the input end of the power delivery pump is communicated with the guide pipe.

2. The integrated separation and recovery device of claim 1, further comprising an arc-shaped baffle plate, wherein a first through hole is formed in the arc-shaped baffle plate, one end of the transmission valve pipe, which is far away from the reaction tank, penetrates through the first through hole and is connected with the arc-shaped baffle plate, and the arc-shaped baffle plate is slidably connected with the collecting member.

3. The integrated separation and recovery device of claim 2, wherein the inner wall of the connection hole and the inner wall of the first through hole are provided with sealing rings.

4. The integrated separation and recovery apparatus of claim 1, wherein the driving member comprises a driving motor and a transmission shaft, the transmission shaft is connected to a power output end of the driving motor, and the transmission shaft is rotatably connected to the fixing member so that each of the collecting members rotates around the transmission shaft.

5. The integrated separation and recovery device of claim 4, wherein the number of the collecting members is three.

6. The integrated separating and recycling device of claim 4, wherein each collecting member further comprises a main body and a rotating shaft, the main body is connected to the fixing member, the main body is formed with a pivot hole, the rotating shaft is inserted into the pivot hole and rotatably connected to the main body, the collecting cavity is formed in the main body, the guide pipe is protruded on a side of the main body away from the rotating shaft, the main body is movably connected to the transmission valve pipe, and the rotating shaft is connected to the valve plate strainer member to drive the valve plate strainer member to rotate relative to the main body, so that the valve plate strainer member opens or closes the collecting cavity.

7. The integrated separating and recycling device according to claim 6, wherein the valve plate and screen member comprises a valve plate and a screen, the screen is connected to one side of the valve plate and forms the filter chamber together with the valve plate, and the rotating shaft is connected to the valve plate to drive the valve plate to rotate relative to the main body, so that the valve plate opens or closes the collecting chamber.

8. The integrated separation and recovery device of claim 1, wherein a threaded socket is provided at an end of the conduit away from the filter chamber, and a connection pipe is provided at an input end of the power transfer pump, and the connection pipe is connected to the threaded socket so as to communicate the input end of the power transfer pump with the conduit.

9. The integrated separation and recovery device of claim 8, wherein the threaded socket is provided with an external thread and the connection pipe is provided with an internal thread, and the threaded socket is in threaded connection with the connection pipe.

10. A wastewater treatment plant characterized by comprising an integrated separation and recovery apparatus according to any one of claims 1 to 9.

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