CN211470817U - Sewage treatment control circuit - Google Patents

Sewage treatment control circuit Download PDF

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Publication number
CN211470817U
CN211470817U CN201921990940.4U CN201921990940U CN211470817U CN 211470817 U CN211470817 U CN 211470817U CN 201921990940 U CN201921990940 U CN 201921990940U CN 211470817 U CN211470817 U CN 211470817U
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CN
China
Prior art keywords
pump
electrically connected
sewage treatment
sludge reflux
water production
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Expired - Fee Related
Application number
CN201921990940.4U
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Chinese (zh)
Inventor
吴春生
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Hefei Qingyuan Automatic Control Technology Co ltd
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Hefei Qingyuan Automatic Control Technology Co ltd
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Priority to CN201921990940.4U priority Critical patent/CN211470817U/en
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Publication of CN211470817U publication Critical patent/CN211470817U/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The embodiment of the application provides a sewage treatment control circuit, including industrial computer, a plurality of with industrial computer electric connection produces the water pump in order to pump the pump suction sewage, this kind of sewage treatment control circuit still include a plurality of pump suction direction with produce the reverse flush pump of pump suction opposite direction of water pump and a plurality of mud backwash pump that makes the mud backward flow, a plurality of the reverse flush pump, a plurality of the mud backwash pump respectively with industrial computer electric connection. Through the sewage treatment control circuit of this application, can coordinate the collaborative work between each pump in the sewage treatment effectively, improve sewage treatment efficiency.

Description

Sewage treatment control circuit
Technical Field
The application relates to the technical field of sewage treatment remote control, in particular to a sewage treatment control circuit.
Background
In the existing sewage treatment process, the problem that a pipeline is blocked by impurities in the sewage suction process can occur due to the fact that the sewage contains a large amount of sludge and other impurities. In the water pump suction sewage in-process, in case the jam condition appears, the water pump idle running will appear and lead to the problem that the water pump burns out, has the equipment damage on the one hand and needs to change the cost increase problem that causes, and on the other hand has reduced sewage treatment's efficiency by a wide margin.
The information disclosed in this background section is only for enhancement of understanding of the general background of the application and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person skilled in the art.
SUMMERY OF THE UTILITY MODEL
The utility model provides a purpose aims at solving above-mentioned problem, provides a sewage treatment control circuit, handles sewage through producing water pump, back flush pump, mud backwash pump, can coordinate the work of each water pump among the sewage treatment process, avoids the problem that each pump that the pipeline blockked up and caused damages to improve sewage treatment's efficiency by a wide margin.
For realizing above-mentioned purpose, this application provides a sewage treatment control circuit, including industrial computer, a plurality of with industrial computer electric connection produces the water pump in order to pump the sewage, this kind of sewage treatment control circuit still include a plurality of pump suction direction with produce the reverse flush pump of pump suction opposite direction of water pump and a plurality of mud backwash pump that makes the mud backward flow, a plurality of reverse flush pump, a plurality of mud backwash pump respectively with industrial computer electric connection.
Preferably, the industrial personal computer is electrically connected with a backwash pump operation detection unit and a backwash pump fault monitoring unit; the operation detection unit of the backwashing pump is electrically connected with the backwashing pump so as to detect the operation state of the backwashing pump; the backwash pump fault monitoring unit is electrically connected with the backwash pump to monitor the fault condition of the backwash pump.
Preferably, the industrial personal computer is electrically connected with a water production pump operation detection unit and a water production pump fault monitoring unit; the water production pump operation detection unit is electrically connected with the water production pump so as to detect the operation state of the water production pump; the water production pump fault monitoring unit is electrically connected with the water production pump to monitor the fault condition of the water production pump.
Preferably, the industrial personal computer is electrically connected with a sludge reflux pump operation detection unit and a sludge reflux pump fault monitoring unit; the sludge reflux pump operation detection unit is electrically connected with the sludge reflux pump so as to detect the operation state of the sludge reflux pump; the sludge reflux pump fault monitoring unit is electrically connected with the sludge reflux pump to monitor the fault condition of the sludge reflux pump.
Preferably, the industrial personal computer is electrically connected with a liquid level detection unit for detecting liquid level in the water production pump, the liquid level detection unit is electrically connected with the sludge reflux pump and is used for controlling the sludge reflux pump to reflux sludge at a high liquid level.
Preferably, the water production pump, the backwashing pump and the sludge reflux pump are respectively and electrically connected with a relay, and the relays are used for controlling the corresponding connected water production pump, backwashing pump or sludge reflux pump to be powered on or powered off.
Preferably, the sewage treatment control circuit further comprises a plurality of fuses connected in series in the circuit, wherein one end of each fuse is electrically connected with the industrial personal computer, and the other end of each fuse is electrically connected with the water production pump, the backwashing pump and the sludge reflux pump respectively.
Preferably, the industrial personal computer is electrically connected with a remote control switch, a fault operation switch, a fault indicator lamp and an operation indicator lamp, and the remote control switch, the fault operation switch, the fault indicator lamp and the operation indicator lamp are respectively electrically connected with the water production pump, the sludge reflux pump and the backwashing pump.
According to the sewage treatment control circuit of this application, handle sewage through producing water pump, back flush pump, mud backwash pump, can coordinate the work of each water pump among the sewage treatment process, avoid the problem that each pump that the pipeline blockked up and cause damaged to improve sewage treatment's efficiency by a wide margin.
Drawings
The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the application and, together with the description, serve to explain the application and are not intended to limit the application. In the drawings:
FIG. 1 is a block diagram of a sewage treatment control circuit according to an embodiment of the present application;
FIG. 2 is a schematic diagram of a circuit connection of an industrial personal computer of a sewage treatment control circuit in the embodiment of the present application;
FIG. 3 is a schematic diagram of a circuit connection of a backwash pump of a sewage treatment control circuit according to an embodiment of the present application;
FIG. 4 is a schematic diagram of the circuit connection between the water production pump and the sludge reflux pump of the sewage treatment control circuit in the embodiment of the present application.
Detailed Description
In the following description, numerous implementation details are set forth in order to provide a thorough understanding of the present invention. It should be understood, however, that these implementation details should not be used to limit the application. In addition, some conventional structures and components are shown in simplified schematic form in the drawings.
Please refer to FIG. 1-FIG. 4
Example (b): referring to fig. 1, a sewage treatment control circuit includes an industrial personal computer, and a plurality of water pumps electrically connected to the industrial personal computer for pumping sewage. Referring to fig. 2, the industrial personal computer and the water producing pump are based on the prior art, and the industrial personal computer can be a PLC controller in the prior art.
In this embodiment, the sewage treatment control circuit further comprises a plurality of backwash pumps with pumping directions opposite to that of the water production pump, and a plurality of sludge reflux pumps for refluxing sludge, wherein the backwash pumps and the sludge reflux pumps are respectively and electrically connected with the industrial personal computer. The back washing pump and the sludge reflux pump are both based on the prior art and are connected with the industrial personal computer through cables, the industrial personal computer sends control instructions to the back washing pump and the sludge reflux pump, and the back washing pump and the sludge reflux pump execute the instructions.
Based on above-mentioned structure, the sewage treatment control circuit of this application handles sewage through producing water pump, back flush pump, mud backwash pump, can coordinate the work of each water pump in the sewage treatment process, avoids the problem that each pump that the pipeline blockked up and caused damages to improve sewage treatment's efficiency by a wide margin.
In this embodiment, as shown in fig. 1 and 3, the industrial personal computer is electrically connected with a backwash pump operation detection unit and a backwash pump fault monitoring unit; the operation detection unit of the backwashing pump is electrically connected with the backwashing pump to detect the operation state of the backwashing pump; the backwash pump fault monitoring unit is electrically connected with the backwash pump to monitor the fault condition of the backwash pump. The operation detection unit of the back washing pump is a flow sensor in the prior art and is used for detecting the flow in the back washing pump, converting the flow information into the operation state of the back washing pump and feeding the state back to the industrial personal computer; when the flow value is detected, the back washing pump is in operation, when the detected flow value is zero, the back washing pump is in a non-operation state, and the state is fed back to the industrial personal computer. The backwash pump fault monitoring unit is an electrical detection sensor in the prior art and is used for detecting various electrical coefficients of the backwash pump, for example, when the current of the backwash pump is zero or the resistance value of the backwash pump is detected to be very high (such as 100K Ω, 1000K Ω and the like), the backwash pump is in a fault state, and the state is fed back to the industrial personal computer; when all the electrical parameters of the backwash pump are detected to be within the normal rated parameter range, the backwash pump is in a good state, and the state is fed back to the industrial personal computer. The advantage of setting up like this is, can carry out real-time detection to the backwash pump among the sewage treatment process, ensures in sewage treatment process, can not appear the trouble problem of backwash pump, improves sewage treatment efficiency.
In this embodiment, as shown in fig. 1 and 4, the industrial personal computer is electrically connected with a water production pump operation detection unit and a water production pump fault monitoring unit; the water production pump operation detection unit is electrically connected with the water production pump so as to detect the operation state of the water production pump; produce water pump fault monitoring unit and produce water pump electric connection to the fault condition of monitoring product water pump. The water production pump operation detection unit is a flow sensor in the prior art and is used for detecting the flow in the water production pump, converting the flow information into the operation state of the water production pump and feeding the state back to the industrial personal computer; when the flow value is detected, the water producing pump is in operation, and when the detected flow value is zero, the water producing pump is in a non-operation state and the state is fed back to the industrial personal computer. The water production pump fault monitoring unit is an electrical detection sensor in the prior art and is used for detecting various electrical coefficients of the water production pump, for example, when the current of the water production pump is zero or the water production pump is detected to have a very high resistance value (such as 100K omega, 1000K omega and the like), the water production pump is in a fault state, and the state is fed back to the industrial personal computer; when all the electrical parameters of the water production pump are detected to be within the normal rated parameter range, the water production pump is in a good state, and the state is fed back to the industrial personal computer. The advantage that sets up like this is, can carry out real-time detection to the product water pump among the sewage treatment process, ensures in sewage treatment process, can not appear producing the trouble problem of water pump, improves sewage treatment efficiency.
In the embodiment, the industrial personal computer is electrically connected with a sludge reflux pump operation detection unit and a sludge reflux pump fault monitoring unit; the sludge reflux pump operation detection unit is electrically connected with the sludge reflux pump so as to detect the operation state of the sludge reflux pump; the sludge reflux pump fault monitoring unit is electrically connected with the sludge reflux pump to monitor the fault condition of the sludge reflux pump. The operation detection unit of the sludge reflux pump is a flow sensor in the prior art and is used for detecting the flow in the sludge reflux pump, converting the flow information into the operation state of the sludge reflux pump and feeding the state back to the industrial personal computer; when the flow value is detected, the sludge reflux pump is in operation, and when the detected flow value is zero, the sludge reflux pump is in a non-operation state and the state is fed back to the industrial personal computer. The fault monitoring unit of the sludge reflux pump is an electrical detection sensor in the prior art and is used for detecting various electrical coefficients of the sludge reflux pump, for example, when the current of the sludge reflux pump is zero or the resistance value of the sludge reflux pump is detected to be very high (such as 100K omega, 1000K omega and the like), the sludge reflux pump is in a fault state, and the state is fed back to the industrial personal computer; when detecting that all the electrical parameters of the sludge reflux pump are within the normal rated parameter range, the sludge reflux pump is in a good state, and the state is fed back to the industrial personal computer. The advantage that sets up like this is, can carry out real-time detection to the mud return pump among the sewage treatment process, ensures in sewage treatment process, can not appear the trouble problem of mud backwash pump, improves sewage treatment efficiency.
In this embodiment, industrial computer electric connection has the liquid level detection unit that detects the interior liquid level of product water pump, liquid level detection unit and sludge reflux pump electric connection for control sludge reflux pump backward flow mud when high liquid level. The liquid level detection unit is liquid detection sensor, can detect the water level in the mud backwash pump, and feed back the mud backwash pump according to the height of water level, for example, when the liquid capacity in the product water pump is more, the liquid level is in normal condition this moment, when detecting the liquid volume in the product water pump when less, although the liquid level is higher this moment, but when having partial liquid level because accumulational mud has caused the higher phenomenon of liquid level in the product water pump, this moment, the liquid level detection unit is with this signal transmission to the mud backwash pump in, the mud backwash pump in time clears up the mud that produces in the water pump, prevent that the problem that the product water pump appears by mud jam from appearing, avoid sewage treatment efficiency to descend.
As a preferred embodiment, the water production pump, the backwashing pump and the sludge reflux pump are respectively and electrically connected with a relay, and the relays are used for controlling the power-on or power-off of the correspondingly connected water production pump, backwashing pump or sludge reflux pump. The advantage that sets up like this is, when discovering the potential safety hazard, can be timely carry out the outage operation to each pump through the relay, prevent the problem that the pump damaged.
This kind of sewage treatment control circuit still includes a plurality of fuses of establishing ties in the circuit, the one end and the industrial computer electric connection of fuse, the other end respectively with produce water pump, back flush pump, mud backwash pump electric connection. The fuse is based on the prior art, and the benefit that sets up like this is, when the electrical safety problem appears, the fuse can be quick corresponding, makes the circuit be in the state of opening circuit, ensures that each device can not appear damaging in the circuit.
In this implementation, industrial computer electric connection has remote control switch, trouble operating switch, trouble pilot lamp, operation pilot lamp, and remote control switch, trouble operating switch, trouble pilot lamp, operation pilot lamp are respectively with product water pump, mud backwash pump, back flush pump electric connection. The remote control switch, the fault operation switch, the fault indicator lamp and the operation indicator lamp are all based on the prior art and are respectively used for remote control, fault display closing, fault display and operation state display.
The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (8)

1. The utility model provides a sewage treatment control circuit, including industrial computer, a plurality of with industrial computer electric connection produces the water pump in order to pump the pump suction sewage, its characterized in that, this kind of sewage treatment control circuit still include a plurality of pump suction direction with produce the reverse flush pump that pump suction direction is opposite of water pump and a plurality of mud backwash pump that makes the mud backward flow, a plurality of backwash pump, a plurality of mud backwash pump respectively with industrial computer electric connection.
2. The sewage treatment control circuit of claim 1, wherein the industrial personal computer is electrically connected with a backwash pump operation detection unit and a backwash pump fault monitoring unit; the operation detection unit of the backwashing pump is electrically connected with the backwashing pump so as to detect the operation state of the backwashing pump; the backwash pump fault monitoring unit is electrically connected with the backwash pump to monitor the fault condition of the backwash pump.
3. The sewage treatment control circuit of claim 1, wherein the industrial personal computer is electrically connected with a water production pump operation detection unit and a water production pump fault monitoring unit; the water production pump operation detection unit is electrically connected with the water production pump so as to detect the operation state of the water production pump; the water production pump fault monitoring unit is electrically connected with the water production pump to monitor the fault condition of the water production pump.
4. The sewage treatment control circuit of claim 1, wherein the industrial personal computer is electrically connected with a sludge reflux pump operation detection unit and a sludge reflux pump fault monitoring unit; the sludge reflux pump operation detection unit is electrically connected with the sludge reflux pump so as to detect the operation state of the sludge reflux pump; the sludge reflux pump fault monitoring unit is electrically connected with the sludge reflux pump to monitor the fault condition of the sludge reflux pump.
5. The sewage treatment control circuit of claim 1, wherein the industrial personal computer is electrically connected with a liquid level detection unit for detecting the liquid level in the water production pump, and the liquid level detection unit is electrically connected with the sludge reflux pump and used for controlling the sludge reflux pump to reflux sludge at a high liquid level.
6. The sewage treatment control circuit according to any one of claims 1 to 5, wherein the water production pump, the backwash pump and the sludge reflux pump are respectively electrically connected with a relay, and the relay is used for controlling the power-on or power-off of the correspondingly connected water production pump, backwash pump or sludge reflux pump.
7. The sewage treatment control circuit of claim 6, further comprising a plurality of fuses connected in series in the circuit, wherein one end of each fuse is electrically connected with the industrial personal computer, and the other end of each fuse is electrically connected with the water production pump, the backwashing pump and the sludge reflux pump respectively.
8. The sewage treatment control circuit of claim 1, wherein the industrial personal computer is electrically connected with a remote control switch, a fault operation switch, a fault indicator lamp and an operation indicator lamp, and the remote control switch, the fault operation switch, the fault indicator lamp and the operation indicator lamp are respectively electrically connected with the water production pump, the sludge reflux pump and the backwashing pump.
CN201921990940.4U 2019-11-18 2019-11-18 Sewage treatment control circuit Expired - Fee Related CN211470817U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201921990940.4U CN211470817U (en) 2019-11-18 2019-11-18 Sewage treatment control circuit

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201921990940.4U CN211470817U (en) 2019-11-18 2019-11-18 Sewage treatment control circuit

Publications (1)

Publication Number Publication Date
CN211470817U true CN211470817U (en) 2020-09-11

Family

ID=72377042

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201921990940.4U Expired - Fee Related CN211470817U (en) 2019-11-18 2019-11-18 Sewage treatment control circuit

Country Status (1)

Country Link
CN (1) CN211470817U (en)

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CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20200911

Termination date: 20201118

CF01 Termination of patent right due to non-payment of annual fee