CN219174237U - Sewage treatment structure and treatment system thereof - Google Patents

Abstract

The utility model discloses a sewage treatment structure, and aims to solve the defect that the energy consumption is high due to the fact that the existing sewage treatment structure and a system thereof need to detect sewage properties through a circulating pipeline. The utility model comprises an adjusting tank, a PH detection device, a water pump, a drain valve and a switch valve which are sequentially connected, wherein the PH detection device is connected between a water outlet of the adjusting tank and a water inlet of the water pump, and the switch valve is communicated with a reaction tower. Through setting up PH detection device on the trunk line, avoid producing the energy consumption that additionally sets up detection circulation pipeline, PH detection device is located the anterior segment of water pump, and the water disturbance degree is lower, and more easily PH detection device obtains more accurate quality of water information.

Description

Sewage treatment structure and treatment system thereof

Technical Field

The utility model relates to the field of beer manufacture, in particular to a sewage treatment structure and a sewage treatment system.

Background

Sewage carrying solid suspended matter is produced in the beer production process. In the treatment of such wastewater, the detection of the water properties is very important.

At present, the beer sewage is pumped out of the regulating tank through a circulating pipeline and is pumped back to the regulating tank for storing the sewage after being detected by a water pump, and the mode is that the water pump in the circulating pipeline needs to continuously operate at first, so that the energy consumption is high.

The present application aims at the above-mentioned deficiency, and aims at providing a novel sewage treatment structure and system thereof, and the energy consumption of independently maintaining the circulation pipeline is reduced by incorporating the probe for detection into the main pipeline.

Disclosure of Invention

The utility model overcomes the defect of high energy consumption caused by the fact that the existing sewage treatment structure and the system thereof need to detect the sewage property through the circulating pipeline, and provides the sewage treatment structure and the treatment system thereof, which can integrate the detection probe into the main pipeline to reduce the energy consumption of independently maintaining the circulating pipeline.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the utility model provides a sewage treatment structure, includes equalizing basin, PH detection device, water pump, blowoff valve and the ooff valve of connecting in order, and PH detection device connects between the delivery port of equalizing basin and the water inlet of water pump, and ooff valve intercommunication reaction tower.

The application provides a sewage treatment structure, incorporates PH detection device in the trunk line. In the prior art, a circulation pipeline is required to be additionally arranged on the sewage pipeline, and the power is provided by a water pump to maintain a flowing state suitable for the PH detection device so as to improve the detection precision of the PH detection device. In the prior art, the circulating pipeline is started, and because the turbulence of the water flow in the main pipeline is too much, the accuracy of the PH detection device is lower, and the feeding device cannot be fed back in time. Therefore, this application sets up PH detection device between equalizing basin and water pump, and the fluid of pipeline before the water pump is for it receives the negative pressure from the water pump, and its inside rivers disorder degree is lower, and because be close to the equalizing basin, PH value in the equalizing basin that corresponds can be accurate survey. The sewage pumped by the water pump sequentially passes through the sewage discharge valve and the switch valve. The accumulated sludge is discharged through a sludge pump or a sludge truck through an interface of the blow-down valve, and when the blow-down valve is closed. The water flow enters the reaction tower through the switch valve.

Preferably, the device also comprises a maintenance discharge valve, wherein the maintenance discharge valve is positioned between the PH detection device and the water pump and between the drain valve and the switch valve.

Preferably, a drain pipe is connected to the drain valve. The sewage pipe can be connected with a sewage pump or a sewage truck, and when the sewage treatment structure flow is reduced or even blocked, the sewage is dredged through the extra power provided by the sewage pump.

Preferably, the water pump also comprises a pressure gauge, and the pressure gauge is connected between the water pump and the drain valve. The pressure gauge can reflect the water flow pressure of the pipeline, and when the water flow pressure of the pipeline does not accord with a preset range, sewage can be discharged through the sewage discharging valve.

Preferably, the PH detection device comprises a metal protection cover. In the maintenance process, the PH detection device can collide with the pipeline wall, and the loss of the probe is reduced through the arranged metal protection cover.

A sewage treatment system comprising at least two sewage treatment structures as described hereinbefore, adjacent sewage treatment structures being in communication via a bypass conduit. The adjacent sewage treatment structures play a complementary role, so that the water quantity passing through the water pump is guaranteed to be similar in the pipelines of the two structures, the normal operation of the water pump is favorably maintained, and the water quantity received in the reaction tower from the corresponding regulating tanks of the two sewage treatment structures is guaranteed to be similar. The water yield difference of adjacent regulating ponds caused by the power difference of the water pumps is avoided.

Preferably, the reaction tower is communicated with a water inlet pipe, and the adjacent sewage treatment structure is connected with the water inlet pipe through a three-way valve.

Compared with the prior art, the utility model has the beneficial effects that: through setting up PH detection device on the trunk line, avoid producing the energy consumption that additionally sets up detection circulation pipeline, PH detection device is located the anterior segment of water pump, and the water disturbance degree is lower, and more easily PH detection device obtains more accurate quality of water information.

Drawings

FIG. 1 is a system diagram of the present utility model;

in the figure:

the PH detection device comprises an adjusting tank 1, a PH detection device 2, a water pump 3, a blow-down valve 4, a switch valve 5, a reaction tower 6, an overhaul discharge valve 7, a water pump connecting expansion joint 8, a water pump connecting reducer 9, a pressure gauge 10 and a bypass pipeline 11.

Detailed Description

The disclosure is further described below with reference to the drawings and examples.

In the present disclosure, terms such as "fixedly coupled," "connected," and the like are to be construed broadly and refer to either a fixed connection or an integral or removable connection; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the terms in the disclosure may be determined according to circumstances, and should not be interpreted as limiting the disclosure, for relevant scientific research or a person skilled in the art.

Examples:

a sewage treatment structure is shown in fig. 1, and comprises an adjusting tank 1, a PH detection device 2, a water pump 3, a blow-down valve 4 and a switch valve 5 which are sequentially connected, wherein the PH detection device 2 is connected between a water outlet of the adjusting tank 1 and a water inlet of the water pump 3, and the switch valve 5 is communicated with a reaction tower 6.

In some embodiments, a service drain valve 7 is also included, the service drain valve 7 being located between the PH detection device 2 and the water pump 3 and between the blowdown valve 4 and the on-off valve 5. When the maintenance is needed, the water stored in the pipeline is discharged through the maintenance discharge valve 7, so that the maintenance is convenient. The blow-down valve 4 is connected with a blow-down pipe. The sewage pipe can be connected with a sewage pump or a sewage truck, and when the sewage treatment structure flow is reduced or even blocked, the sewage is dredged through the extra power provided by the sewage pump. In other embodiments, a pressure gauge 10 is further included, the pressure gauge 10 being connected between the water pump 3 and the drain valve 4. The pressure gauge 10 can reflect the water flow pressure of the pipeline, and when the water flow pressure of the pipeline does not accord with the preset range, the sewage can be discharged through the sewage discharging valve 4.

In some embodiments, there is a water pump connection expansion joint 8 between the PH detection device 2 and the water pump 3; the two ends of the water pump 3 are respectively connected with a water pump connecting reducer pipe 9.

The PH detection device 2 comprises a metal protection cover. In the overhaul process, the PH detection device 2 possibly collides with the pipeline wall, and the loss of the probe is reduced through the arranged metal protection cover. The PH detection device 2 comprises an outer metal comprising a shell and an inner PH probe.

The application provides a sewage treatment structure, which incorporates a PH detection device 2 into a main pipeline. In the prior art, a circulation line is required to be additionally provided in the sewage line, and the power is supplied by the water pump 3 to maintain a flow state suitable for the PH detecting device 2, so as to improve the detecting accuracy of the PH detecting device 2. In the prior art, the circulating pipeline is required to be started, and because the turbulence of the water flow in the main pipeline is too much, the accuracy of the PH detection device 2 is lower, and the feeding device cannot be fed back in time. Therefore, the PH detection device 2 is arranged between the regulating tank 1 and the water pump 3, the PH detection device receives the negative pressure from the water pump 3 for the fluid in the pipeline in front of the water pump 3, the disturbance degree of the water flow in the PH detection device is low, and the PH value in the corresponding regulating tank 1 can be accurately measured due to the proximity to the regulating tank 1. The power is provided by the water pump 3, and pumped sewage sequentially passes through the sewage discharge valve 4 and the switch valve 5. The accumulated sludge is discharged through the port of the blow-down valve 4 by a sludge pump or a sludge car, and when the blow-down valve 4 is closed. The water flow enters the reaction tower 6 through the switch valve 5. Through having simplified corresponding circulation pipeline, also greatly reduced the complexity of pipeline, convenient maintenance.

A sewage treatment system comprising at least two sewage treatment structures as described hereinbefore, adjacent sewage treatment structures being in communication via a bypass conduit 11. The adjacent sewage treatment structures have complementary effects, so that the water quantity passing through the water pump 3 is ensured to be similar in the pipelines of the two structures, the normal operation of the water pump 3 is favorably maintained, and the water quantity in the regulating tanks 1 corresponding to the two sewage treatment structures received in the reaction tower 6 is ensured to be similar. The water yield difference of the adjacent regulating ponds 1 caused by the power difference of the water pump 3 is avoided. The reaction tower 6 is communicated with a water inlet pipe, and the adjacent sewage treatment structure is connected with the water inlet pipe through a three-way valve. And on-off valves for adjusting the opening and closing of the pipeline are arranged between the adjusting tank 1 and the PH detection device 2 and on the bypass pipeline.

The above-described embodiments are merely preferred embodiments of the present utility model, and the present utility model is not limited in any way, and other variations and modifications may be made without departing from the technical aspects set forth in the claims.

Claims (7)

1. The utility model provides a sewage treatment structure, its characterized in that includes equalizing basin, PH detection device, water pump, blowoff valve and the ooff valve of connecting in order, and PH detection device connects between the delivery port of equalizing basin and the water inlet of water pump, ooff valve intercommunication reaction tower.

2. The wastewater treatment structure of claim 1, further comprising a service drain valve positioned between the PH detecting device and the water pump and between the blowdown valve and the on-off valve.

3. A sewage treatment structure according to claim 1, wherein the drain valve is connected to a drain pipe.

4. The wastewater treatment structure of claim 1, further comprising a pressure gauge connected between the water pump and the blowdown valve.

5. A sewage treatment structure according to any one of claims 1 to 4, wherein the PH detecting means comprises a metal shield.

6. A wastewater treatment system comprising at least two wastewater treatment structures according to claim 5, wherein adjacent wastewater treatment structures are in communication via a bypass conduit.

7. The wastewater treatment system of claim 6, wherein the reaction tower is connected to a water inlet pipe, and adjacent wastewater treatment structures are connected to the water inlet pipe by a three-way valve.

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