CN216129364U - Novel building site yellow muddy water treatment device - Google Patents
Novel building site yellow muddy water treatment device Download PDFInfo
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- CN216129364U CN216129364U CN202023350795.9U CN202023350795U CN216129364U CN 216129364 U CN216129364 U CN 216129364U CN 202023350795 U CN202023350795 U CN 202023350795U CN 216129364 U CN216129364 U CN 216129364U
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Abstract
The utility model discloses a novel construction site yellow mud water treatment device which comprises a base, a frame arranged on the base, a dosing tank arranged on the base in the frame, a liquid level sensor and an electromagnetic valve arranged on the dosing tank, a stirrer and a metering pump arranged on the dosing tank, a mud water inlet pipe extending out of the frame and a pipeline valve arranged on the mud water inlet pipe, a drain pipe extending out of the frame and a programmable control box arranged on the frame, wherein the electromagnetic valve is provided with the mud water inlet pipe and the pipeline valve. An electromagnetic flowmeter and a pressure sensor are arranged on the mud inlet pipe. The programmable control box is respectively connected with the liquid level sensor, the electromagnetic valve, the stirrer, the metering pump, the pipeline valve, the electromagnetic flowmeter and the pressure sensor. The utility model has the effects of low cost and high sludge dewatering rate.
Description
Technical Field
The utility model belongs to the field of building construction, and particularly relates to a novel construction site yellow muddy water treatment device.
Background
The yellow muddy water produced in the construction site has higher and higher environmental protection requirements, and the corresponding supervision is stricter and stricter. At present, the yellow muddy water is preliminarily precipitated in the method for treating the yellow muddy water on the market, and then the supernatant is discharged, so that the method efficiency is low, the water content of the sludge is too high, the outward transportation cost is also high, the intelligent degree of equipment is more traditional, and the labor cost is high.
SUMMERY OF THE UTILITY MODEL
In view of the above problems, an object of the present invention is to provide a novel sludge-water treatment apparatus for rehmannia glutinosa having a low cost and a high sludge-water removal rate.
In order to achieve the purpose, the novel construction site yellow mud water treatment device provided by the utility model comprises a base, a frame arranged on the base, a dosing tank arranged on the base in the frame, a liquid level sensor and an electromagnetic valve arranged on the dosing tank, a stirrer and a metering pump arranged on the dosing tank, a mud water inlet pipe extending out of the frame and a pipeline valve arranged on the mud water inlet pipe, a drain pipe extending out of the frame arranged on the metering pump, and a programmable control box arranged on the frame. An electromagnetic flowmeter and a pressure sensor are arranged on the mud inlet pipe. The programmable control box is respectively connected with the liquid level sensor, the electromagnetic valve, the stirrer, the metering pump, the pipeline valve, the electromagnetic flowmeter and the pressure sensor. The programmable control box is in wireless connection with the remote terminal. The mud inlet pipe is connected with a sewage lifting pump outside the frame. Therefore, the electromagnetic flowmeter is connected with the metering pump and the pressure sensor through the pipeline valve. The stirrer is arranged above the dosing barrel and connected with the sampling mounting bracket. The liquid level sensor is arranged in the dosing tank and connected by a flange. The pressure sensor is arranged on the pipeline. The metering pump is arranged above the dosing tank and connected with the pipeline mixer, the programmable control tank collects signals of the liquid level sensor and informationizes the pressure sensor, and the signals are connected by using a shielded wire. The programmable control box comprises a 485 communication line for programmable acquisition output and input data and wireless module sampling. The wireless acquisition module sends data to the cloud server, and the cloud server sends the data to the remote terminal for reminding and monitoring.
In some embodiments, the programmable control box comprises a box body and a circuit board arranged in the box body, and a programmable controller, a touch screen, a contactor, a thermal relay, a protection switch and a wireless module are arranged on the circuit board.
In some embodiments, the dosing bin is a closed bin.
The utility model has the advantages of low cost and high sludge dewatering rate. Because the whole structure has a brand new control mode, the working principle is that the whole structure is proportionally combinedDry powder chemical agents are added to the dosing tankThen, the equipment can know according to the data displayed by the water level value of the liquid level sensor arranged in the dosing tank, if the water level value is lower than a set value, the programmable system opens a water inlet electromagnetic valve to enable tap water to enter the dosing tank, and simultaneously controls a stirrer in the dosing tank to start stirring medicaments; when the water level of the medicine chest reaches a certain liquid level height, the programmable system stops the electromagnetic valve to stop dispensing and water feeding according to the data of the liquid level sensor, and the programmable system delays to stop the stirrer to stir the medicine after dispensing is finished; when the sewage level of the building site sewage pool reaches the set liquid level of the floating ball, the programmable control sewage lifting pump feeds yellow mud water to equipment, the programmable system controls the dosing metering pump to dose a medicament into a yellow mud water pipeline according to the data of the water inlet flow meter, and the medicament and the yellow mud water are fully mixed by the pipeline mixer and enter the sedimentation tank. In the operation process, when the medicine box liquid level sensor detects low liquid level data, the programmable system sends out a medicine shortage alarm and stops the lifting pump to suck yellow mud water, and when the floating ball of the yellow mud water tank is in a low liquid level signal, the programmable system stops the water inlet lifting pump and stops the medicine adding metering pump. The programmable control system transmits data to the wireless acquisition module, the wireless acquisition module sends the data to the cloud server, and the cloud server sends the data to the remote terminal for reminding and monitoring, so that the processing efficiency is greatly improved, and the labor and management cost are saved. The effects of low cost and high sludge dewatering rate are realized.
Drawings
FIG. 1 is a perspective view of the present invention;
FIG. 2 is a front view structural diagram of the present invention;
FIG. 3 is a rear view structural diagram of the present invention;
fig. 4 is a top view structural diagram of the present invention.
Detailed Description
The following describes the present invention in further detail with reference to the accompanying drawings.
As shown in fig. 1-4, a novel construction site yellow muddy water treatment device comprises a base 1, a frame 2 arranged on the base 1, a dosing tank 3 arranged on the base 1 in the frame 2, a liquid level sensor 4 and an electromagnetic valve 5 arranged on the dosing tank 3, a stirrer 6 and a metering pump 7 arranged on the dosing tank 3, a muddy water inlet pipe 8 arranged on the electromagnetic valve 5 and extending out of the frame 2, a pipeline valve 9 arranged on the muddy water inlet pipe 8, a drain pipe 10 arranged on the metering pump 7 and extending out of the frame 2, and a programmable control box 11 arranged on the frame 2. An electromagnetic flowmeter and a pressure sensor are arranged on the mud inlet pipe 8. The programmable control box 11 is respectively connected with the liquid level sensor 4, the electromagnetic valve 5, the stirrer 6, the metering pump 7, the pipeline valve 9, the electromagnetic flowmeter 12 and the pressure sensor 13. The programmable control box 11 is wirelessly connected with a remote terminal. The mud inlet pipe 8 is connected with a sewage lift pump outside the frame 2. Therefore, the electromagnetic flowmeter is connected with the metering pump 7 and the pressure sensor through the pipeline valve 9. The stirrer 6 is arranged above the dosing barrel and connected with the sampling mounting bracket. The liquid level sensor 4 is arranged in the dosing tank 3 and connected by a flange. The pressure sensor is arranged on the pipeline. The metering pump 7 is arranged above the dosing tank 3 and is connected with the pipeline mixer, the programmable control box 11 collects signals of the liquid level sensor 4 and information of the pressure sensor, and the signals are connected by using a shielding wire. The programmable control box 11 comprises a programmable acquisition output and input data and wireless module sampling 485 communication line. The wireless acquisition module sends data to the cloud server, and the cloud server sends the data to the remote terminal for reminding and monitoring. The programmable control box 11 comprises a box body, a circuit board arranged in the box body, and a programmable controller, a touch screen, a contactor, a thermal relay, a protection switch and a wireless module which are arranged on the circuit board. The dosing box 3 is a closed box.
The working principle is that after the dry powder chemical agents are added into the dosing tank 3 according to the proportion, the equipment can know according to the data displayed by the water level value of the liquid level sensor 4 arranged in the dosing tank 3, if the water level value is lower than a set value, the programmable system opens the water inlet electromagnetic valve 5 to enable tap water to enter the dosing tank, and simultaneously controls the stirrer 6 in the dosing tank to start stirring the agents; when the water level of the medicine chest reaches a certain liquid level height, the programmable system stops the electromagnetic valve 5 to stop the medicine dispensing and water feeding according to the data of the liquid level sensor 4, and the programmable system delays to stop the stirrer 6 to stir the medicine after the medicine dispensing is finished; when the sewage level of the sewage pool of the construction site reaches the set liquid level of the floating ball, the programmable control sewage lifting pump feeds yellow mud water to equipment, the programmable system controls the dosing metering pump 7 to dose a medicament into a yellow mud water pipeline according to the data of the water inlet flow meter, and the medicament and the yellow mud water are fully mixed by the pipeline mixer and enter the sedimentation tank. In the operation process, when the medicine chest liquid level sensor 4 detects low liquid level data, the programmable system sends out a medicine shortage alarm and stops the lifting pump to suck yellow mud water, and when the floating ball of the yellow mud water tank is in a low liquid level signal, the programmable system stops the water inlet lifting pump and stops the medicine adding metering pump 7. The programmable control system transmits data to the wireless acquisition module, the wireless acquisition module sends the data to the cloud server, and the cloud server sends the data to the remote terminal for reminding and monitoring, so that the processing efficiency is greatly improved, and the labor and management cost are saved. The effects of low cost and high sludge dewatering rate are realized.
What has been described above are merely some embodiments of the present invention. It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the inventive concept herein, and it is intended to cover all such modifications and variations as fall within the scope of the utility model.
Claims (3)
1. A novel construction site yellow mud water treatment device is characterized by comprising a base, a frame arranged on the base, a dosing tank arranged on the base in the frame, a liquid level sensor and an electromagnetic valve arranged on the dosing tank, a stirrer and a metering pump arranged on the dosing tank, a mud water inlet pipe extending out of the frame and a pipeline valve arranged on the mud water inlet pipe, a drain pipe extending out of the frame and a programmable control box arranged on the frame, wherein the electromagnetic valve is provided with the mud water inlet pipe and the pipeline valve;
the mud inlet pipe is provided with an electromagnetic flowmeter and a pressure sensor;
the programmable control box is respectively connected with the liquid level sensor, the electromagnetic valve, the stirrer, the metering pump, the pipeline valve, the electromagnetic flowmeter and the pressure sensor;
the programmable control box is in wireless connection with the remote terminal.
2. The novel construction site yellow muddy water treatment device according to claim 1, wherein the programmable control box comprises a box body, a circuit board arranged in the box body, and a programmable controller, a touch screen, a contactor, a thermal relay, a protection switch and a wireless module which are arranged on the circuit board.
3. The novel construction site yellow muddy water treatment device according to claim 2, wherein the dosing box is a closed box.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202023350795.9U CN216129364U (en) | 2020-12-31 | 2020-12-31 | Novel building site yellow muddy water treatment device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202023350795.9U CN216129364U (en) | 2020-12-31 | 2020-12-31 | Novel building site yellow muddy water treatment device |
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Publication Number | Publication Date |
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CN216129364U true CN216129364U (en) | 2022-03-25 |
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CN202023350795.9U Active CN216129364U (en) | 2020-12-31 | 2020-12-31 | Novel building site yellow muddy water treatment device |
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CN (1) | CN216129364U (en) |
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2020
- 2020-12-31 CN CN202023350795.9U patent/CN216129364U/en active Active
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