CN215924508U - High-efficient sewage treatment plant - Google Patents

Abstract

The utility model discloses a high-efficiency sewage treatment device, which comprises: the equipment comprises an equipment base, a processing efficiency control structure and a control device, wherein the equipment base is provided with the processing efficiency control structure; wherein, the processing efficiency control structure comprises: the device comprises a cooling water tower, a treatment cavity, a water inlet pipe, a water distribution valve, four pairs of water distribution pipes, a plurality of water spraying nozzles, a pair of control valves, four pairs of heating and ventilating return pipes, laminated fillers, a direct water supply pipe, a pressure fan, a control box, an exhaust pipe, an air inlet box, a water collecting tank and a drain pipe; the utility model relates to the technical field of environmental protection equipment of a thermal power plant, and the scheme has the beneficial effects that: the problem of current sewage treatment circulating water equipment operation mode receive ambient temperature influence, influence the nitrobacteria activity when the temperature is lower especially winter tower pond temperature when lower and lead to circulating water blowdown water treatment capacity to descend, influence the use is solved.

Description

High-efficient sewage treatment plant

Technical Field

The utility model relates to the technical field of environmental protection equipment of a thermal power plant, in particular to a high-efficiency sewage treatment device.

Background

The circulating cooling water treatment ensures that equipment such as a cooling water tower, a cold water machine and the like are in the best running state, effectively controls microbial flora, inhibits the generation of scale, prevents the corrosion of pipeline equipment, and plays an important role in the fields of environmental protection of a thermal power plant, steam turbines, chemical running and the like.

SUMMERY OF THE UTILITY MODEL

In order to achieve the purpose, the utility model is realized by the following technical scheme: an efficient sewage treatment device, comprising: the equipment comprises an equipment base, a processing efficiency control structure and a control device, wherein the equipment base is provided with the processing efficiency control structure;

wherein, the processing efficiency control structure comprises: the device comprises a cooling water tower, a treatment cavity, a water inlet pipe, a water distribution valve, four pairs of water distribution pipes, a plurality of water spraying nozzles, a pair of control valves, four pairs of heating and ventilating return pipes, laminated fillers, a direct water supply pipe, a pressure fan, a control box, an exhaust pipe, an air inlet box, a water collecting tank and a drain pipe;

the cooling water tower is arranged at the middle position above the equipment base, the treatment cavity is arranged at the inner position of the cooling water tower, the water inlet pipe is embedded at the upper position of the left side wall surface of the cooling water tower, the shunt valve is arranged on the right end pipe orifice of the water inlet pipe, four pairs of water distribution pipes are embedded on the inner wall surface of the treatment cavity, the shunt valve is connected with the four pairs of water distribution pipes, a plurality of water spraying nozzles are arranged on the four pairs of water distribution pipes, a pair of control valves are embedded on the right side wall surface of the cooling water tower, a pair of control valves are connected with the four pairs of water distribution pipes, four pairs of heating and ventilating return pipes are arranged on the control valves, the laminated filler is arranged on the inner wall surface of the treatment cavity, the direct-compensating water pipe is embedded at the lower position of the left side wall surface of the cooling water tower, the pressure fan is embedded at the left position of the upper wall surface of the cooling water tower, the control box is arranged at the rear position of the cooling water tower, the pressure fan is connected with the control box, and the exhaust pipe is embedded at the right position of the pressure fan, the air inlet box is embedded in the lower position of the right side wall surface of the cooling water tower, the water collecting tank is arranged on the upper wall surface of the equipment base, the water discharging pipe is embedded in the equipment base, and the right end of the water discharging pipe is connected with the water collecting tank.

Preferably, the shunt valve is a multi-pipe-opening type intelligent shunt valve.

Preferably, the four pairs of water distribution pipes are of staggered installation structures.

Preferably, the control valve is provided with an adjusting ring for adjusting the flow rate.

Preferably, the exhaust pipe and the air inlet box are provided with dust screens.

Preferably, the laminated filler is mounted on the inner wall surface of the treatment cavity through a fixing block.

Advantageous effects

The utility model provides a high-efficiency sewage treatment device, which has the following beneficial effects: the present case has used treatment effeciency control structure, through on the basis of conventional equipment, increases return water part control structure, need not to increase equipment, through the direct butt joint processing apparatus of circulating water return, both can improve circulating water treatment capacity, solved current sewage treatment circulating water equipment operation mode and influenced by ambient temperature, influence nitrobacteria activity when temperature is lower especially winter tower pond temperature and lead to circulating water blowdown treatment capacity to descend, influence the problem of use.

Drawings

FIG. 1 is a schematic view of a high efficiency sewage treatment apparatus according to the present invention.

FIG. 2 is a schematic diagram of a right-view structure of the high-efficiency sewage treatment device of the present invention.

In the figure: 1-equipment base; 2-a cooling water tower; 3-a treatment chamber; 4-water inlet pipe; 5-a shunt valve; 6-water distribution pipe; 7-water spraying nozzles; 8-a control valve; 9-heating and ventilating water return pipe; 10-stacked fillers; 11-direct water supply pipe; 12-a pressure fan; 13-a control box; 14-an exhaust pipe; 15-an air inlet box; 16-a water collecting tank; 17-a drain pipe; 18-an adjustment ring; 19-dust screen; and 20, fixing blocks.

Detailed Description

All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example (b): referring to fig. 1-2, the main components of the present invention are: the equipment base 1 is characterized in that a processing efficiency control structure is arranged on the equipment base 1;

in the specific implementation process, the processing efficiency control structure comprises: the device comprises a cooling water tower 2, a treatment cavity 3, a water inlet pipe 4, a water distribution valve 5, four pairs of water distribution pipes 6, a plurality of water spraying nozzles 7, a pair of control valves 8, four pairs of heating and ventilating water return pipes 9, laminated fillers 10, a direct water supply pipe 11, a pressure fan 12, a control box 13, an exhaust pipe 14, an air inlet box 15, a water collecting tank 16 and a water discharge pipe 17;

a cooling water tower 2 is arranged at the middle position above an equipment base 1, a treatment cavity 3 is arranged at the inner position of the cooling water tower 2, a water inlet pipe 4 is embedded at the upper position of the left side wall surface of the cooling water tower 2, a water dividing valve 5 is arranged at the right end pipe orifice of the water inlet pipe 4, four pairs of water distribution pipes 6 are embedded at the inner wall surface of the treatment cavity 3, the water dividing valve 5 is connected with the four pairs of water distribution pipes 6, a plurality of water spraying nozzles 7 are arranged on the four pairs of water distribution pipes 6, a pair of control valves 8 are embedded at the right side wall surface of the cooling water tower 2, a pair of control valves 8 are connected with the four pairs of water distribution pipes 6, four pairs of heating and ventilating return water pipes 9 are arranged on the control valves 8, a laminated filler 10 is arranged at the inner wall surface of the treatment cavity 3, a direct water supply pipe 11 is embedded at the lower position of the left side wall surface of the cooling water tower 2, a pressure fan 12 is embedded at the left position of the upper wall surface of the cooling water tower 2, and a control box 13 is arranged at the rear position of the cooling water tower 2, pressure fan 12 is connected with control box 13, and blast pipe 14 inlays the dress in pressure fan 12 right side position, and intake box 15 inlays the dress and leans on lower position at cooling tower 2 right side wall, and catch basin 16 is seted up on equipment base 1 upper wall, and drain pipe 17 inlays the dress in equipment base 1, and drain pipe 17 right-hand member is connected with catch basin 16.

It should be noted that, when the treatment efficiency control structure is used, the cooling water after sewage treatment is injected into the cooling water tower 2 through the water inlet pipe 4, distributed into four pairs of water distribution pipes 6 through the shunt valve 5, sprayed into the treatment chamber 3 through the water spray nozzle 7 installed on the water distribution pipe 6, and the water is uniformly sprayed onto the laminated filler 10 to form a water film, and simultaneously exchanges heat with the dry air entering the cooling water tower 2 from the air inlet box 15, and evaporates into the air to take away heat, and the cooling water is stored in the lower water collecting tank 16, when the air in the treatment chamber is saturated, the control box 13 controls the pressure fan 12 to start and pressurize, and discharges the internal damp and hot air through the exhaust pipe 14, so as to ensure the treatment efficiency, when the temperature becomes low in winter, the cooling water is directly introduced to the inlet of the circulating water treatment system through the warm-ventilation water return pipe 9 through the regulating control valve 8, the inlet water temperature of the circulating water treatment system is guaranteed to be increased, so that the activity of nitrobacteria is kept, the circulating water treatment capacity is improved, and the treatment effect and efficiency are guaranteed.

In the specific implementation process, further, the shunt valve 5 is a multi-pipe-mouth intelligent shunt valve.

In the specific implementation process, further, the four pairs of water distribution pipes 6 are in a staggered installation structure.

In the specific implementation, furthermore, the control valve 8 is provided with an adjusting ring 18 for adjusting the flow rate.

In the specific implementation process, the exhaust pipe 14 and the intake box 15 are further provided with dust screens 19.

In the specific implementation process, further, the laminated filler 10 is mounted on the inner wall surface of the treatment chamber 3 through a fixing block 20.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. An efficient sewage treatment device, comprising: the equipment base is characterized in that a processing efficiency control structure is arranged on the equipment base;

wherein, the processing efficiency control structure comprises: the device comprises a cooling water tower, a treatment cavity, a water inlet pipe, a water distribution valve, four pairs of water distribution pipes, a plurality of water spraying nozzles, a pair of control valves, four pairs of heating and ventilating return pipes, laminated fillers, a direct water supply pipe, a pressure fan, a control box, an exhaust pipe, an air inlet box, a water collecting tank and a drain pipe;

the cooling water tower is arranged at the middle position above the equipment base, the treatment cavity is arranged at the inner position of the cooling water tower, the water inlet pipe is embedded at the upper position of the left side wall surface of the cooling water tower, the shunt valve is arranged on the right end pipe orifice of the water inlet pipe, four pairs of water distribution pipes are embedded on the inner wall surface of the treatment cavity, the shunt valve is connected with the four pairs of water distribution pipes, a plurality of water spraying nozzles are arranged on the four pairs of water distribution pipes, a pair of control valves are embedded on the right side wall surface of the cooling water tower, a pair of control valves are connected with the four pairs of water distribution pipes, four pairs of heating and ventilating return pipes are arranged on the control valves, the laminated filler is arranged on the inner wall surface of the treatment cavity, the direct-compensating water pipe is embedded at the lower position of the left side wall surface of the cooling water tower, the pressure fan is embedded at the left position of the upper wall surface of the cooling water tower, the control box is arranged at the rear position of the cooling water tower, the pressure fan is connected with the control box, and the exhaust pipe is embedded at the right position of the pressure fan, the air inlet box is embedded in the lower position of the right side wall surface of the cooling water tower, the water collecting tank is arranged on the upper wall surface of the equipment base, the water discharging pipe is embedded in the equipment base, and the right end of the water discharging pipe is connected with the water collecting tank.

2. The efficient sewage treatment device of claim 1 wherein the diverter valve is a multi-port intelligent diverter valve.

3. The high efficiency sewage treatment plant according to claim 1 wherein said four pairs of distribution pipes are staggered.

4. The high efficiency wastewater treatment device according to claim 1, wherein the control valve is provided with an adjusting ring for adjusting the flow rate.

5. The efficient sewage treatment device of claim 1 wherein the exhaust pipe and the air intake box are provided with dust screens.

6. The efficient sewage treatment device according to claim 1, wherein the laminated filler is mounted on an inner wall surface of the treatment chamber through a fixing block.

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