CN212068229U - Dust collector of boiler factory building - Google Patents

Abstract

The utility model discloses a dust collector of boiler plant belongs to dust removal technical field. The device comprises a purification cavity, a dust removal cavity, a soft water chamber and a circuit bin; the soft water chamber and the circuit bin are arranged below the dust removal cavity in parallel; the top of the purification cavity is provided with a negative pressure fan and an electrode connected with a negative oxygen ion generating circuit; the soft water chamber is provided with a floating atomizing sheet connected with the ultrasonic oscillation circuit and a mist dispersing air channel communicated with the soft water chamber. The utility model discloses not only can purify the great air of smoke and dust in the boiler room, release the beneficial negative oxygen ion to the human body to the noise is low, and is pollution-free.

Description

Dust collector of boiler factory building

Technical Field

The utility model relates to dust removal technical field, in particular to dust collector of boiler factory building.

Background

In the live production of industry, the boiler room is whole enterprise heating system's heart, and environmental problem in the boiler room influences the development state of whole enterprise, because the interior environment of boiler room is dry, and the smoke and dust is big, often can look for the more big furnace driver of age to lead to considerable furnace driver not to possess the understanding principle, understand the technique, correct operation, can maintain and handle the technical ability of accident, and guarantee that the environment in the boiler room is clean and tidy the progress of enterprise, be the first step of improvement furnace driver technical ability.

The environment of factory building is often not as desired than other factory building environment in the enterprise, and not only dry, but also have the coal dust ash that raises, when handling the coal ash that the boiler burns out, can make smoke and dust concentration, CO concentration of whole factory building etc. sharply rise, can produce harm to the health of driver's stove personnel.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a solve the problem that dry, smoke and dust concentration is high in above-mentioned traditional boiler room, and provide a dust collector of boiler factory building. The utility model discloses not only increased the air humidity in the boiler room, reduced harmful gas's such as carbon monoxide concentration, can alleviate the inside smoke and dust concentration of factory building moreover.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a dust removal device of a boiler plant comprises a purification cavity, a dust removal cavity, a soft water chamber and a circuit bin; the dust removal cavity is positioned below the purification cavity and is separated from the purification cavity by an activated carbon adsorption layer; the soft water chamber and the circuit bin are arranged below the dust removal cavity in parallel;

a negative oxygen ion generating circuit and an ultrasonic oscillation circuit are arranged in the circuit bin;

the inner side wall of the purification cavity is provided with an insulating layer, the top of the purification cavity is provided with an insulating shutter, the bottom of the purification cavity is provided with an insulating mesh plate, and electrodes are embedded on the insulating mesh plate; the electrode is connected with the negative oxygen ion generating circuit, the electrode comprises a trunk of the electrode and branches arranged on two sides of the trunk, and the tip of each branch is a discharge tip; a negative pressure fan is arranged between the insulating shutter and the insulating mesh plate;

the side wall of the dust removing cavity is provided with an air inlet, and the air inlet is sequentially provided with an active carbon adsorption layer, a filter screen and an inlet shutter from inside to outside;

the soft water chamber is internally provided with a floating atomizing sheet which is connected with the ultrasonic oscillation circuit, and the soft water chamber is provided with a mist dispersing air channel penetrating through the soft water chamber; the air inlet of the fog dispersing air duct is positioned at the bottom of the soft water chamber and communicated with the outside; the end part of the air outlet of the mist dispersing air duct is higher than the bottom of the dust removing cavity; the upper part of the fog dispersing air channel is provided with a plurality of fog overflow holes communicated with the soft water chamber, and the interior of the fog dispersing air channel is provided with a fan.

Furthermore, the air inlet of the fog dispersing air duct is of a gradually expanding opening structure, and the air outlet of the fog dispersing air duct is of a gradually contracting taper pipe structure.

The utility model adopts the beneficial effect that above-mentioned technical scheme produced lies in:

1. the utility model discloses an air-out end at top has taken negative oxygen ion generation module, not only can purify the gas once more to release the beneficial negative oxygen ion of human body.

2. The utility model adopts the negative pressure fan at the air outlet end of the top, the air inlet volume is obviously enhanced within a certain time, and the noise is low and the pollution is avoided; the effect of treating the air is significantly enhanced compared to a general fan.

3. The utility model discloses the ultrasonic wave of setting up breaks up soft water and forms the fog to harmful acid gas and unnecessary tiny dust in the absorption air strengthen the treatment effect to acid gas.

Drawings

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

In the figure: 1. negative pressure fan, 2, purification chamber, 3, dust removal chamber, 4, upper wall board, 5, floating atomizing piece, 6, dispersing fog wind channel, 7, insulating shutter, 8, active carbon adsorption layer, 9, import shutter, 10, soft water chamber.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1, the apparatus includes a purification chamber 2, a dust removal chamber 3, a soft water chamber 10 and a circuit cabin; the dust removal cavity is positioned below the purification cavity and is separated from the purification cavity by an activated carbon adsorption layer; the soft water chamber and the circuit bin are arranged below the dust removal cavity in parallel, and the soft water chamber and the dust removal cavity are separated by an upper wall plate of the soft water chamber.

The circuit cabin is internally provided with a negative oxygen ion generating circuit and an ultrasonic oscillation circuit.

The inner side wall of the purification cavity is provided with an insulating layer, the top of the purification cavity is provided with an insulating shutter 7, the bottom of the purification cavity is provided with an insulating mesh plate, and the insulating mesh plate is provided with an embedded structure for placing electrodes; the electrode is connected with the negative oxygen ion generating circuit, the electrode comprises a trunk of the electrode and branches arranged on two sides of the trunk, and the tip of each branch is a discharge tip; a negative pressure fan is arranged between the shutter and the insulating mesh plate.

The side wall of the dust removing cavity is provided with an air inlet, and the air inlet is sequentially provided with an active carbon adsorption layer, a filter screen and an inlet shutter from inside to outside;

a floating atomizing sheet is arranged in the soft water chamber, the floating atomizing sheet is connected with the ultrasonic oscillation circuit, and the soft water chamber is provided with a mist dispersing air channel penetrating through the soft water chamber; the air inlet of the fog dispersing air duct is positioned at the bottom of the soft water chamber and communicated with the outside; the end part of the air outlet of the mist dispersing air duct is higher than the bottom of the dust removing cavity; the upper part of the fog dispersing air channel is provided with a plurality of fog overflow holes communicated with the soft water chamber, and the interior of the fog dispersing air channel is provided with a fan.

The air inlet of the fog dispersing air duct is of a gradually expanding opening structure, and the air outlet of the fog dispersing air duct is of a gradually contracting taper pipe structure; the end position of the air outlet of the mist dispersing air channel is higher than the bottom of the dust removing cavity.

Referring to fig. 1, after the device is electrified and normally operates, the negative pressure fan is started, external air is brought into the dust removal cavity through pressure difference formed inside the dust removal cavity, and large-particle air impurities are filtered for the first time through the filter screen and the activated carbon adsorption layer in the process;andmeanwhile, the floating atomizing sheet starts to work to scatter soft water to form mist which enters the dust removing cavity through the mist scattering air channel; the formed mist can not only remove dust and acid, but also humidify air. Air impurities which are not completely removed through the dust removal cavity are generated through the negative oxygen ions arranged at the topAnd the module is further removed, and clean air is discharged through the negative pressure fan.

Claims (2)

1. A dust removal device for a boiler plant is characterized by comprising a purification cavity, a dust removal cavity, a soft water chamber and a circuit cabin; the dust removal cavity is positioned below the purification cavity and is separated from the purification cavity by an activated carbon adsorption layer; the soft water chamber and the circuit bin are arranged below the dust removal cavity in parallel;

a negative oxygen ion generating circuit and an ultrasonic oscillation circuit are arranged in the circuit bin;

the inner side wall of the purification cavity is provided with an insulating layer, the top of the purification cavity is provided with an insulating shutter, the bottom of the purification cavity is provided with an insulating mesh plate, and electrodes are embedded on the insulating mesh plate; the electrode is connected with the negative oxygen ion generating circuit, the electrode comprises a trunk of the electrode and branches arranged on two sides of the trunk, and the tip of each branch is a discharge tip; a negative pressure fan is arranged between the insulating shutter and the insulating mesh plate;

the side wall of the dust removing cavity is provided with an air inlet, and the air inlet is sequentially provided with an active carbon adsorption layer, a filter screen and an inlet shutter from inside to outside;

the soft water chamber is internally provided with a floating atomizing sheet which is connected with the ultrasonic oscillation circuit, and the soft water chamber is provided with a mist dispersing air channel penetrating through the soft water chamber; the air inlet of the fog dispersing air duct is positioned at the bottom of the soft water chamber and communicated with the outside; the end part of the air outlet of the mist dispersing air duct is higher than the bottom of the dust removing cavity; the upper part of the fog dispersing air channel is provided with a plurality of fog overflow holes communicated with the soft water chamber, and the interior of the fog dispersing air channel is provided with a fan.

2. The dust removing device for the boiler plant according to claim 1, wherein the air inlet of the mist dispersing air duct is of a gradually expanding opening structure, and the air outlet of the mist dispersing air duct is of a gradually contracting taper pipe structure.

Images