KR200388725Y1 - Dust collector - Google Patents

Abstract

The present invention relates to a dust collector that collects dust generated in an industrial site and keeps the work site in a comfortable state at all times, and cleans the dust inhaled by water by the suction pressure generated by the operation of the blower. Only air is discharged back to the outside.

To this end, a certain amount of water (3) is filled inside and the tank (1) into which the outside polluted air flows, and both ends are fixedly installed between the side walls of the tank and submerged in the water; A second blade piece (4) forming an inlet (5) and a discharge hole (6) between the first blade piece and having a shape opposite to that of the first blade piece and fixedly disposed between sidewalls of the tank; A partition 9 installed inclined inside to partition the air inlet 7 and the outlet 8, a suction hose 10 connected to an air inlet 7 formed at one side of the tank, and the air outlet 8 Installed in the blower fan is configured to generate a suction force in accordance with the rotation of the blower.

Description

Dust collector {omitted}

The present invention relates to a dust collector that collects dust generated in an industrial site and keeps the work site in a comfortable state at all times. More specifically, the dust sucked by the suction pressure generated by the operation of a blower is completely removed by water. The present invention relates to a dust collector for allowing only clean air to be discharged to the outside in a removed state.

In general, as the air pollution becomes serious due to the development of the industry, it is mandatory to install a dust collector that collects dust generated at the work site according to the size of the plant, which is classified into dry and wet according to its function. .

The dry dust collector is provided with a plurality of filter cloths (also called "bag filters") to collect fine dust contained in the air and collect dust collected by the cyclone principle in the process of blowing the filter cloth at regular intervals. Such a dry dust collector has a large pressure loss and a problem in the drainage of the washing water, and thus it is not widely used except in the case of quenching or absorbing gas.

On the other hand, the wet dust collector sprays water in the form of a spray by a nozzle at the point where the contaminated air sucked with the dust passes, and only the clean air freely dropped and removed with the dust sprayed water is removed. It is intended to be discharged.

Therefore, the wet dust collector has a feature that enables the collection of fine dust of 1 μm or less as well as large particles.

However, the conventional wet dust collector having such a structure has various problems as follows.

First, since a separate pump is used to pump water to the polluted air, the manufacturing cost of the dust collector was excessively consumed, and noise was generated largely according to the driving of the pump.

Second, expensive nozzles had to be used to spray the water conveyed by the pump to the point where the contaminated air passes, so the production cost was increased and maintenance was difficult because the nozzles were frequently blocked by dust. .

The present invention has been made to solve such a conventional problem, the structure is improved to suck the contaminated air into the tank compartment partitioned by a plurality of blade pieces to remove the dust contained in the air only clean air The purpose is to allow the discharge to the outside.

According to an aspect of the present invention for achieving the above object, the first wing piece is fixed to both ends of the tank is filled with a certain amount of water and the outside contaminated air is introduced, and both ends are fixed between the side wall of the tank And a second blade piece having an opposite shape to the first blade piece and both ends of which are fixed between the side walls of the tank to form an inlet and a discharge port between the first blade piece, the air blade being inclined inside the tank. A dust collector comprising a partition wall partitioning a discharge port, a suction hose connected to an air intake port formed at one side of the tank, and a blowing fan installed at the air discharge port to generate a suction force according to the rotation of the blower.

Hereinafter, with reference to Figures 1 to 4 showing the present invention as an embodiment in more detail as follows.

Figure 1 is a longitudinal cross-sectional view showing an embodiment of the present invention and Figure 2 is a perspective view showing another embodiment of the present invention and Figure 3 is a longitudinal cross-sectional view of the state before the present invention is another embodiment is operated, the present invention is the shape of the enclosure A predetermined amount of water is filled in the tank 1 into which the contaminated air is introduced, and both ends of the first blade piece 2 are fixedly installed between the side walls of the tank 1 so as to be locked in the water 3. On both sides of the first blade piece, both ends of the second blade piece 4 are fixed to the side walls, and the suction port 5 and the discharge port 6 are formed therebetween.

In addition, a partition 9 partitioning the air inlet 7 and the outlet 8 is inclined in the tank 1, and an intake hose 10 is formed in the air inlet 7 formed at one side of the tank 1. ) Is connected to the air discharge port 8 is provided with a blowing fan 11 for generating a suction force in accordance with the rotation of the blower.

At this time, it is more preferable to install the filter 12 on the air discharge port 8 so that the water 3 in the tank 1 is not discharged to the outside by the suction force generated by the driving of the blower fan 11. Do.

In an embodiment of the present invention, as shown in FIG. 1, two airfoils partitioning the air intake side and the discharge side are configured as two, but the airfoil may be configured in three as shown in FIGS.

That is, the second blade piece 4 and the third blade piece 13 are formed by providing a third blade piece 13 formed smaller in size between the first blade piece 2 and the second blade piece 4 soaked in water 3. The suction port 5 may be formed between them.

In this case, the water flow port 14 formed between the first blade piece 2 and the third blade piece 13 is formed by the water 3 on the suction side when the blower fan 11 is driven as shown in FIGS. 3 and 4. Since it moves to the discharge side through, it can be advantageously applied to the region where the water level fluctuation is large, such as high temperature region.

Referring to the operation of the present invention configured as described above are as follows.

First, before the blower fan 11 is operated, the water level contained in the tank 1 is maintained in a horizontal state as shown in Figs.

In this state, when the contaminated air is sucked into the tank 1 to remove dust, power is applied to rotate the blower (not shown) of the blower fan 11.

Accordingly, the suction force is generated in the tank 1 so that the water 3 positioned higher than the first blade 2 or the third blade 13 is discharged to the discharge side through the suction port 5 or the water flow port 14. As it moves, the water level on the inlet side is lowered.

At this time, in Figures 2 to 4 shown in another embodiment of the present invention, a larger amount of water (3) at the intake side of the contaminated air is moved to the discharge side through the water flow port 14 so that the water level at the discharge side is increased. This results in more useful applications in areas with high water level fluctuations.

As such, when the suction hose 10 is positioned at the contaminated portion while the water level of the polluted air suction port 7 is lowered, the external polluted air is sucked by the suction force generated by driving the blower fan 11. It is sucked into the tank 1 through.

When the externally contaminated air is introduced into the tank 1 by the operation as described above, the introduced contaminated air is formed between the suction port 5 or the second and third blade pieces formed between the first and second blade pieces 2 and 4. (4) The inside of the second blade piece (4) by the vortices created by the difference in specific gravity in the space between the first and second blade pieces (2) and (4) drawn through the suction port (5) formed between the (13) Since the water hits the discharge side along the curved surface, the contaminants (dust) contained in the polluted air are removed by the water 3.

In this way, after the dust is removed while being rotted in water, the air, which is clean by the suction force generated by the driving of the blower fan 11, is discharged to the outside through the air discharge port 8, at which time the air discharge port 8 In the case of installing the filter 12 on the upper surface, even if a strong suction force is generated by the driving of the blower fan 11, the phenomenon in which the water 3 is discharged to the outside through the air outlet 8 is prevented.

As described above, the dust collector of the present invention introduces contaminated air into the tank partitioned by a plurality of blade pieces without using a nozzle so that the dust is rotted and removed by water, and then only clean air is discharged to the outside. Therefore, the configuration is simplified to reduce the production cost, and thus it is possible to supply the dust collector at a low price.

In addition, since the pump does not need to be used, the effect of minimizing the occurrence of noise when operating the dust collector is also obtained.

1 is a longitudinal sectional view showing an embodiment of the present invention

2 is a perspective view showing another embodiment of the present invention

Figure 3 is a longitudinal cross-sectional view of the state before the present invention is operated

Figure 4 is a state in which the subject innovation works

Explanation of symbols for the main parts of the drawings

1: tank 2: first wing

4: second wing 5: suction port

6 outlet 7 air inlet

8 air outlet 9 bulkhead

10: suction hose 11: blowing fan

12 filter 13 third wing

14: water flow port

Claims (3)

The tank is filled with a certain amount of water and the outside contaminated air is introduced, and both ends are fixedly installed between the sidewalls of the tank so as to be submerged in water, and both ends are formed in opposite shapes with the first blade. A second blade piece fixedly installed between the side walls of the tank to form a suction port and a discharge port between the first blade piece, a partition wall disposed inclined inside the tank to partition an air suction port and a discharge port, and formed at one side of the tank; A dust collector comprising: a suction hose connected to an air intake port, and a blower fan installed at the air discharge port to generate a suction force according to the rotation of the blower. The method of claim 1, A dust collector characterized in that a third blade piece is provided between the first blade piece and the second blade piece. The method of claim 1, Dust collector, characterized in that the filter is installed on the air discharge port to suppress the discharge of water.