CN220589397U - Power station dust collector - Google Patents

Abstract

The utility model provides a power station dust removal device, comprising: the dust box comprises a dust box body and a fixed frame, wherein the right side above the dust box body is provided with the fixed frame, an exhaust pipe is arranged above the fixed frame, the left side above the exhaust pipe is connected with a dust inlet pipe, a dust suction fan is arranged in the middle of the fixed frame, the left side below of the dust box body is connected with a water tank, a water pump is arranged in the middle of the upper side of the water tank, an air outlet pipe is arranged above the right side inside the dust box body, a main water pipe is arranged above the left side inside the dust box body, a plurality of atomization dust-settling spray heads are arranged below the main water pipe, a vent is formed in the middle of the upper side of the back of the dust box body in a penetrating manner, and a dust blocking net is arranged in the middle of the vent. Through setting up into dirt pipe, exhaust column, dust absorption fan and play tuber pipe, can be convenient for with the dust extraction in the power station air to the dust fall incasement portion, through setting up the water tank, water pump, main water pipe and atomizing dust fall shower nozzle, can be convenient for spray dust fall processing to the inside dust of dust fall case.

Description

Power station dust collector

Technical Field

The utility model belongs to the technical field of power station dust removal, and particularly relates to a power station dust removal device.

Background

The intelligent heat network power station is an intelligent energy comprehensive utilization station integrating multiple energy and heat energy storage and distribution systems, can efficiently convert and utilize renewable energy and waste energy, and can realize energy supply and distribution through intelligent control and optimal management. The reasons for dust generation of intelligent heat supply network power stations mainly comprise the factors of particles in the surrounding environment, gas particles in the combustion process, abrasion matters generated by equipment operation and the like. Such dust may flow into the interior of the power plant with the air and deposit on equipment, piping and structures, causing dust accumulation and secondary pollution, affecting the normal operation and heat exchange effects of the power plant equipment. However, the intelligent heat grid power station in the prior art has some disadvantages in terms of dust handling in the air. The following are these disadvantages:

deposition and stacking: smart grid power stations are typically located in industrial areas or urban environments, around which there may be more dust and particulate matter. These dust and particulates are easily deposited and accumulated on equipment, piping and structures of the power station. Over time, these deposits can increase wear and contamination of the plant equipment, reducing its operating efficiency.

Foreign matter blockage: the accumulation of dust and particulate matter can also cause clogging of pipes and filters. When dust in the air enters the plant equipment or the filter, if no effective protective measures are taken, the pipeline can be blocked, and the normal operation and the heat exchange effect of the equipment can be affected.

Air pollution during operation: when the intelligent power station has more dust and particulate matters during operation, the matters may be brought into the combustion process, causing secondary pollution. The combustion of dust can produce harmful gases and particulate matter, potentially affecting the environment and human health.

The maintenance cost is high: maintenance costs can increase significantly due to dust and particulate matter damage and blockage problems to intelligent heat grid power plant equipment. Regular cleaning and replacement of filters, cleaning of pipes, etc. require labor and resources and increase downtime and maintenance costs.

Energy efficiency decreases: the deposition of dust and particulate matter reduces the heat exchange efficiency of the device and requires additional energy to maintain proper operation of the device. This results in reduced energy efficiency, affecting the overall performance and economic efficiency of the plant.

Environmental impact: dust and particulate matter in the air may also negatively affect the surrounding environment. They may reduce air quality, affecting the health and quality of life of surrounding residents.

In summary, the intelligent heat grid power station in the prior art has some drawbacks in terms of dust treatment in the air. These problems need to be addressed by further research and technical innovations to improve the efficiency of the power station, reduce maintenance costs and reduce environmental impact.

Disclosure of Invention

Aiming at the defects existing in the prior art, the utility model aims to provide a power station dust removing device which solves the problems in the background art.

The utility model is realized by the following technical scheme: a power station dust extraction device comprising: the dust box comprises a dust box and a fixed frame, wherein the right side above the dust box is provided with the fixed frame, the upper part of the fixed frame is provided with an exhaust pipe, and the left side above the exhaust pipe is connected with a dust inlet pipe;

a dust suction fan is arranged in the middle of the fixed frame, a water tank is connected to the lower left side of the dust fall box, a water pump is arranged in the middle of the upper part of the water tank, and an air outlet pipe is arranged on the upper right side of the inside of the dust fall box;

the dust fall box is characterized in that a main water pipe is arranged above the left side inside the dust fall box, a plurality of atomization dust fall spray heads are arranged below the main water pipe, a vent is formed in the middle of the upper side of the back of the dust fall box in a penetrating manner, and a dust blocking net is arranged in the middle of the vent.

As a preferred implementation mode, the left side of the upper surface of the water tank is provided with a water inlet pipe, the middle of the lower part of the back of the dust settling tank is provided with a water outlet pipe, a valve is arranged above the water outlet pipe, and the valve is opened, so that water in the dust settling tank can be discharged through the water outlet pipe.

As a preferable implementation mode, two universal wheels are respectively arranged on the left side below the water tank and the right side below the dust fall tank, and the water pump is connected with the lower part inside the water tank through a water suction pipe.

As a preferable implementation mode, the water pump is connected with the main water pipe through the transmission pipe, the left side of the main water pipe is fixed with the inside of the dust fall box, the right side of the main water pipe is fixed with the left side of the air outlet pipe, and the water pump can transmit water to the main water pipe through the transmission pipe.

As a preferred implementation mode, the exhaust port of the dust suction fan is connected with the exhaust pipe, the exhaust port of the dust suction fan is connected with the air outlet pipe, the left side surface of the dust inlet pipe is provided with a foreign matter separation net, and the foreign matter separation net can prevent mixed foreign matters in the air from entering the dust inlet pipe.

As a preferable implementation mode, the foreign matter separation net is formed by combining a plurality of stainless steel wires in a crossing way, and the front view surface of the exhaust pipe is of an L-shaped structure.

As a preferable implementation mode, the dust-blocking net is formed by combining a plurality of layers of glass fiber mesh cloth, and the model of the dust suction fan is TWYX model dust suction fan.

After the technical scheme is adopted, the utility model has the beneficial effects that: through setting up into dirt pipe, exhaust column, dust absorption fan and play tuber pipe, can be convenient for with the dust extraction in the power station air to the dust fall incasement portion, through setting up the water tank, water pump, main water pipe and atomizing dust fall shower nozzle, can be convenient for spray dust fall processing to the inside dust of dust fall case.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

Fig. 1 is a schematic diagram of the overall structure of a power station dust removing device of the present utility model.

Fig. 2 is a schematic diagram of an interior front view of a dust settling tank in a power station dust removing device of the present utility model.

Fig. 3 is a schematic diagram of a rear view of a dust box in a dust removing device of a power station according to the present utility model.

Fig. 4 is a schematic diagram of a dust inlet pipe in a power station dust removing device in left view.

In the figure, 100-dust box, 200-fixed frame, 300-exhaust pipe, 400-dust inlet pipe, 500-dust suction fan, 600-water tank, 700-water pump, 800-water inlet pipe, 900-universal wheel, 110-air outlet pipe, 120-main water pipe, 130-atomization dust-settling nozzle, 140-drain pipe, 150-foreign matter screen, 160-dust-blocking screen and 170-ventilation opening.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1 to 4, the present utility model provides a technical solution: a power station dust extraction device comprising: the dust box 100 and the fixed frame 200, the right side above the dust box 100 is provided with the fixed frame 200, the upper part of the fixed frame 200 is provided with the exhaust pipe 300, and the left side above the exhaust pipe 300 is connected with the dust inlet pipe 400;

a dust suction fan 500 is arranged in the middle of the fixed frame 200, a water tank 600 is connected to the lower left side of the dust fall box 100, a water pump 700 is arranged in the middle of the upper part of the water tank 600, and an air outlet pipe 110 is arranged on the upper right side of the inside of the dust fall box 100;

the main water pipe 120 is arranged above the left side inside the dust box 100, a plurality of atomization dust-settling spray heads 130 are arranged below the main water pipe 120, a vent 170 is arranged in the middle of the upper part of the back of the dust box 100 in a penetrating way, and a dust-blocking net 160 is arranged in the middle of the vent 170.

A water inlet pipe 800 is installed at the left side of the upper surface of the water tank 600, a water outlet pipe 140 is installed in the middle of the lower back side of the dust settling tank 100, a valve is installed above the water outlet pipe 140, and the valve is opened, so that water in the dust settling tank 100 can be discharged through the water outlet pipe 140.

Two universal wheels 900 are respectively installed on the left side below the water tank 600 and the right side below the dust fall box 100, the water pump 700 is connected with the lower inside of the water tank 600 through a water suction pipe, and the water tank 600 and the dust fall box 100 can flexibly move through the four universal wheels 900.

The water pump 700 is connected with the main water pipe 120 through a transmission pipe, the left side of the main water pipe 120 is fixed with the inside of the dust fall box 100, the right side of the main water pipe is fixed with the left side of the air outlet pipe 110, and the water pump 700 can transmit water to the main water pipe 120 through the transmission pipe.

The suction opening of the dust suction fan 500 is connected with the suction pipe 300, the exhaust opening thereof is connected with the air outlet pipe 110, the foreign matter separation net 150 is installed on the left side surface of the dust inlet pipe 400, and the foreign matter separation net 150 can prevent the foreign matters mixed in the air from entering the dust inlet pipe 400.

The foreign matter separation net 150 is formed by combining a plurality of stainless steel wires in a crossing way, and the front view surface of the exhaust pipe 300 is of an L-shaped structure.

The dust blocking net 160 is formed by combining multiple layers of glass fiber mesh cloth, the model of the dust suction fan 500 is TWYX model dust suction fan, and the dust blocking holes 160 can block dust mixed in air.

Referring to fig. 1 to 4, as a first embodiment of the present utility model: when the dust box 100 and the water tank 600 are used, the dust box 100 and the water tank 600 can be moved to a dust collection place through the four universal wheels 900, then the dust collection fan 500 is started, the dust collection fan 500 can extract dust in air through the exhaust pipe 300 and the dust inlet pipe 400 and discharge the dust into the dust box 100 through the air outlet pipe 110, water can be added into the water tank 600 through the water inlet pipe 800 in advance, after the dust enters the dust box 100, the water pump 700 can be started, the water pump 700 can extract the water in the water tank 600 through the water suction pipe and convey the water to the inside of the main water pipe 120 through the conveying pipe, and then the water pump 700 can spray the dust to the inside of the dust box 100 through the plurality of atomization dust-falling spray nozzles 130, so that dust in the dust box 100 is sprayed and dust is reduced, and particles in the dust are accelerated to settle.

Referring to fig. 3, as a second embodiment of the present utility model: because the ventilation opening 170 is formed in the middle of the upper part of the back of the dust box 100, the dust blocking net 160 is arranged in the middle of the ventilation opening 170, and then the air in the dust box 100 can be discharged through the ventilation opening 170, and meanwhile, the dust blocking net 160 can block dust mixed in the air and prevent the dust from being discharged through the ventilation opening 170 together with the air.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (7)

1. A power station dust extraction device comprising: dust fall case (100) and fixed frame (200), its characterized in that are installed on dust fall case (100) top right side: an exhaust pipe (300) is arranged above the fixed frame (200), and a dust inlet pipe (400) is connected to the left side above the exhaust pipe (300);

a dust suction fan (500) is arranged in the middle of the fixed frame (200), a water tank (600) is connected to the lower left side of the dust fall box (100), a water pump (700) is arranged in the middle of the upper part of the water tank (600), and an air outlet pipe (110) is arranged on the upper right side of the inside of the dust fall box (100);

the dust fall box is characterized in that a main water pipe (120) is arranged above the left side inside the dust fall box (100), a plurality of atomization dust fall spray heads (130) are arranged below the main water pipe (120), a vent (170) is formed in the middle of the upper part of the back of the dust fall box (100), and a dust blocking net (160) is arranged in the middle of the vent (170).

2. A plant dust collector as set forth in claim 1, wherein: a water inlet pipe (800) is arranged on the left side of the upper surface of the water tank (600), a water outlet pipe (140) is arranged in the middle of the lower part of the back of the dust settling tank (100), and a valve is arranged above the water outlet pipe (140).

3. A plant dust collector as claimed in claim 2, characterized in that: two universal wheels (900) are respectively arranged on the left side below the water tank (600) and the right side below the dust box (100), and the water pump (700) is connected with the lower part inside the water tank (600) through a water suction pipe.

4. A plant dust collector as set forth in claim 1, wherein: the water pump (700) is connected with the main water pipe (120) through a transmission pipe, the left side of the main water pipe (120) is fixed with the inside of the dust fall box (100), and the right side of the main water pipe is fixed with the left side of the air outlet pipe (110).

5. A plant dust collector as set forth in claim 1, wherein: an exhaust port of the dust suction fan (500) is connected with the exhaust pipe (300), an exhaust port of the dust suction fan is connected with the air outlet pipe (110), and a foreign matter separation net (150) is arranged on the left side surface of the dust inlet pipe (400).

6. A plant dust collector as set forth in claim 5, wherein: the foreign matter separation net (150) is formed by combining a plurality of stainless steel wires in a crossing mode, and the front view surface of the exhaust tube (300) is of an L-shaped structure.

7. A plant dust collector as set forth in claim 1, wherein: the dust blocking net (160) is formed by combining multiple layers of glass fiber mesh cloth, and the dust suction fan (500) is of a TWYX type.