CN219149630U - Intelligent spraying cooling dust fall system - Google Patents

Abstract

The utility model discloses an intelligent spray cooling dust fall system which comprises a water supply module, a pressurizing module, a distribution module, a control module and a compressed air module, wherein the control module is respectively connected with the water supply module, the pressurizing module and the compressed air module through signal lines, the water supply module, the pressurizing module and the distribution module are sequentially connected through water pipelines, and the compressed air module is connected with the distribution module through a gas pipeline. The intelligent spraying cooling dust fall system adopting the structure has high automation, accurate control, saves resources and reduces the wall-hanging degree of the equipment wetland caused by spraying.

Description

Intelligent spraying cooling dust fall system

Technical Field

The utility model relates to the technical field of spraying systems, in particular to an intelligent spraying cooling dust fall system.

Background

The intelligent control cooling and dust fall spraying system has a great development space in the next years. At present, many spraying system design processes are not enough, the problem of low intelligent degree generally exists, the feedback mechanism is poor, automatic adjustment cannot be carried out according to the current state of the emission equipment, the cooling and dust falling operation is unreasonable, and the phenomenon of wall hanging of the wetland of enterprise equipment is easily caused.

Disclosure of Invention

The utility model aims to provide an intelligent spray cooling dust fall system, which solves the problem of poor adjustment capability of the current spray system.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

an intelligent spray cooling and dust settling system comprises

The water supply module adopts a clean water tank for supplying water, an electromagnetic valve is arranged at the water inlet end of the clean water tank, a float flowmeter and a one-way valve are sequentially arranged at the water outlet end, and a water level limit switch is arranged on the tank wall;

the pressurizing module is used for pressurizing the water body by means of a pressurizing pump, Y-shaped filters are arranged at two ends of the pressurizing pump, and an electric valve, a water pressure gauge, a pressure transmitter and a vortex shedding flowmeter are sequentially arranged at the water outlet end of the pressurizing pump;

the distribution module is used for arranging a plurality of spray guns on the flue gas pipeline, the tail ends of the spray guns are respectively connected with the water pipeline and the gas pipeline, and the pipelines are provided with one-way valves;

the compressed air module is used for providing pressurized air for the gas pipeline and promoting water atomization;

the control module receives the operation data of the upstream discharge equipment by virtue of the receiving unit, analyzes the operation data by virtue of the calculating unit, issues an adjustment strategy and receives the equipment state information in the spraying system by virtue of the monitoring unit; the control module is used for completing state monitoring and instruction control with other modules in the system by means of signal lines.

The spraying system adopting the structure has the following advantages:

1. the automatic adjusting capability is strong, the spray adjustment can be automatically carried out according to upstream discharge equipment, and the temperature and smoke dust of a smoke pipeline are reasonably controlled;

2. the intelligent degree is high, the running state of the spraying system is automatically monitored, manual adjustment is not needed, and the system stability is high;

3. the spraying effect is good, the water and gas are transmitted separately, the atomization is fine and smooth, and the dust settling effect is good;

4. the resources are saved, the spraying parameters are adjusted in real time, the control is accurate, and the electricity and water are saved.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present utility model.

Reference numerals

1. A water supply module; 2. a pressurizing module; 3. a distribution module; 4. an electromagnetic valve; 5. a limit switch; 6. a float flow meter; 7. a vortex shedding flowmeter; 8. an electric valve; 9. a Y-type filter; 10. a pressurizing pump; 11. a one-way valve; 12. a water pressure gauge; 13. a pressure gauge; 14. a pressure transmitter; 15. a spray gun.

Detailed Description

The technical scheme of the utility model is further described below with reference to the accompanying drawings and examples.

An intelligent spray cooling dust fall system as shown in the figure comprises a water supply module 1, a pressurizing module 2, a distributing module 3, a control module and a compressed air module. The control module is respectively connected with the water supply module 1, the pressurizing module 2 and the compressed air module through signal lines, the water supply module 1, the pressurizing module 2 and the distributing module 3 are sequentially connected through water pipelines, and the compressed air module is connected with the distributing module 3 through a gas pipeline. The Y-shaped filter 9 and the pressure gauge 13 are arranged on the gas pipeline.

The control module runs autonomously by depending on intelligent equipment, and an automatic control program is installed on the intelligent equipment. The control module comprises a receiving unit, a calculating unit and a monitoring unit, wherein the receiving unit is used for receiving the operation data of the upstream discharge equipment, the calculating unit is used for analyzing the operation data and issuing an adjustment strategy, and the monitoring unit is used for receiving the equipment state information in the spraying system. The control module analyzes the operation data of the emission device by means of big data and cloud computing technology, calculates the temperature to be reached by the flue gas pipeline and the emission amount of smoke dust, and makes a corresponding adjustment strategy according to the temperature and the emission amount, and the spraying system device and the adjustment strategy are adjusted in real time, so that the accurate control of spraying is achieved.

The water supply module 1 comprises a clean water tank, wherein an electromagnetic valve 4 is arranged at the water inlet end of the clean water tank, a float flowmeter 6 and a one-way valve 11 are sequentially arranged at the water outlet end of the clean water tank, and a limit switch 5 is arranged on the inner wall of the clean water tank, wherein the limit switch 5 comprises but is not limited to sensor equipment.

The pressurizing module 2 comprises a pressurizing pump 10, Y-shaped filters 9 are arranged at two ends of the pressurizing pump 10, and an electric valve 8, a water pressure meter 12, a pressure transmitter 14 and a vortex shedding flowmeter 7 are sequentially arranged at the water outlet end of the pressurizing pump 10.

The distribution module 3 comprises a spray gun 15, the spray gun 15 is arranged on the inner wall of the flue gas pipeline, the tail end of the spray gun 15 is respectively connected with a water pipeline and a gas pipeline, and the water pipeline and the gas pipeline of the distribution module 3 are respectively provided with a one-way valve 11.

The air compression module comprises an air compressor, a dryer, an air storage tank and other devices.

Specifically, the control module is electrically connected with the electromagnetic valve 4, the limit switch 5, the float flowmeter 6, the booster pump 10, the electric valve 8, the pressure transmitter 14 and the vortex shedding flowmeter 7 through signal wires respectively. The electromagnetic valve 4 and the limit switch 5 are used for controlling the water storage capacity of the clean water tank, the float flowmeter 6 is matched with the one-way valve 11 to monitor the water outlet speed of the clean water tank, and the booster pump 10 is matched with the electric valve 8, the pressure transmitter 14 and the vortex shedding flowmeter 7 to control the pressure and the volume of the water body. In summary, the control module completes state monitoring and instruction control with other modules in the system by means of signal wires, achieves intelligent control of the system, improves operation accuracy, has good cooling and dust reducing effects, saves resources, and reduces the wall-hanging degree of the equipment wetland caused by spraying.

The foregoing is a specific embodiment of the present utility model, but the scope of the present utility model should not be limited thereto. Any changes or substitutions that would be obvious to one skilled in the art are deemed to be within the scope of the present utility model, and the scope is defined by the appended claims.

Claims (1)

1. An intelligence sprays cooling dust fall system, its characterized in that: comprising

The water supply module adopts a clean water tank for supplying water, an electromagnetic valve is arranged at the water inlet end of the clean water tank, a float flowmeter and a one-way valve are sequentially arranged at the water outlet end, and a water level limit switch is arranged on the tank wall;

the pressurizing module is used for pressurizing the water body by means of a pressurizing pump, Y-shaped filters are arranged at two ends of the pressurizing pump, and an electric valve, a water pressure gauge, a pressure transmitter and a vortex shedding flowmeter are sequentially arranged at the water outlet end of the pressurizing pump;

the distribution module is used for arranging a plurality of spray guns on the flue gas pipeline, the tail ends of the spray guns are respectively connected with the water pipeline and the gas pipeline, and the pipelines are provided with one-way valves;

the compressed air module is used for providing pressurized air for the gas pipeline and promoting water atomization;

the control module receives the operation data of the upstream discharge equipment by virtue of the receiving unit, analyzes the operation data by virtue of the calculating unit, issues an adjustment strategy and receives the equipment state information in the spraying system by virtue of the monitoring unit; the control module is used for completing state monitoring and instruction control with other modules in the system by means of signal lines.

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