JP2014083478A - Dust collecting equipment - Google Patents

Abstract

To provide a dust collecting device capable of increasing dust collection efficiency.
A dust collector 12 collects dust contained in air. The dust collector 12 includes a box-shaped housing 30, a cylindrical dust collecting portion 41 that is provided inside the housing 30 and has an inner diameter that decreases toward the bottom, and an upper center of the dust collecting portion 41. A cylindrical exhaust part 42 that extends upward and a cylindrical introduction part 43 that is provided above and around the exhaust part 42 and extends upward. Air is blown out in a spiral along the inner wall surface of the dust collector 41.
[Selection] Figure 2

Description

  The present invention relates to a dust collector. Specifically, the present invention relates to a dust collector that collects dust contained in air.

Conventionally, when building work such as building renovation work or new construction work, in order to ensure the working environment of workers, the air in the building is often ventilated by discharging it outside using a blower. .
Here, since a large amount of dust is generated depending on the construction content, a dust collector may be connected to the blower. This dust collector is provided with a filter, and exhausting through the filter prevents dust from being discharged outside the building.

  However, when such a dry filtration type filter is used, there is a problem that the filter is severely clogged, the filter needs to be frequently replaced, and the working efficiency is lowered.

  Therefore, the following dust collector has been proposed (see Patent Document 1). That is, this dust collector has a structure that separates dust in the air by sucking air containing dust and blowing it on the water surface. In addition, the dust collector includes a float that is provided with a groove on the surface and floats on the water surface in a rotatable manner, and a dust discharge port that covers the float.

  According to this dust collector, when the blower is driven, air containing dust is sucked into the blower and discharged from the dust discharge port toward the water surface, and the dust in the air is collected on the water surface. At this time, since the discharged air flows through the groove on the floating surface, the floating rotates and stirs the water. Therefore, since it is not necessary to provide a filter, work efficiency can be prevented from being lowered.

JP-A-8-257433

  However, the dust collector as described above has a problem that dust collection efficiency is low.

  An object of this invention is to provide the dust collector which can improve the collection efficiency of dust.

  The dust collector according to claim 1 is a dust collector (for example, a dust collector 12 to be described later) that collects dust contained in air, and is a box-shaped housing (for example, a housing 30 to be described later). ), A cylindrical dust collecting portion (for example, a dust collecting portion 41 described later) that is provided inside the housing and has an inner diameter that decreases toward the lower side, and an upper portion provided at the upper center of the dust collecting portion. A cylindrical exhaust part (for example, an exhaust part 42 described later) extending in the direction of a cylinder, and a cylindrical introduction part (for example, an introductory part 43 described later) provided above and around the exhaust part and extending upward. ), And the introduction part blows out air in a spiral shape along the inner wall surface of the dust collection part.

  According to this invention, water is stored at the bottom of the housing, the stirring blade is disposed in the water, and in this state, air containing dust is fed into the introduction section. Then, the sent air is blown out from the introduction part into the dust collecting part, and is discharged downward from the lower end of the dust collecting part, and is blown to the water accumulated in the lower part of the casing. Thereby, much of the dust contained in the air is collected in the water. Thereafter, the air from which the dust has been removed is discharged from the upper part of the dust collecting part to the outside through the exhaust part.

  At this time, since the air is blown out spirally along the inner wall surface of the dust collecting portion by the introducing portion, the dust contained in the air falls below the dust collecting portion by the centrifugal force in addition to the gravity. The collection efficiency can be increased.

  The dust collector according to claim 2 is provided in a windmill (for example, a windmill 51 described later) rotatably provided inside the exhaust part, and inside the housing and below the dust collector. And a stirring blade (for example, a stirring blade 53 to be described later) connected to a rotating shaft (for example, a rotation shaft 52 to be described later) of the windmill.

In the dust collector having the structure as described in Patent Document 1 above, since the float covers most of the water surface, there is a problem that the area of the water surface is reduced and the dust collection efficiency is reduced. .
In addition, in order to rotate the float, it is necessary to narrow the air flow path between the dust discharge port and the float to some extent and to ensure that air flows through the groove on the float surface. There was a risk of clogging.

However, according to this invention, a windmill rotates with the air which flows through an exhaust part. As the windmill rotates, the agitating blades also rotate, the water accumulated in the lower part of the dust collecting part is agitated, and the dust collected on the water surface settles in the water.
Therefore, since the area of the water surface is not reduced as in the prior art, dust can be sufficiently collected on the water surface, and the dust collection efficiency can be further increased.
Further, since the air flow path is not narrowed as in the prior art, it is possible to prevent the air flow path from being clogged with dust.

  According to the present invention, the windmill is rotated by the air flowing through the exhaust part. As the windmill rotates, the agitating blades also rotate, the water accumulated in the lower part of the dust collecting part is agitated, and the dust collected on the water surface settles in the water. Therefore, since the area of the water surface is not reduced as in the prior art, dust can be collected sufficiently on the water surface, and the dust collection efficiency can be increased. Further, since the air flow path is not narrowed as in the prior art, it is possible to prevent the air flow path from being clogged with dust.

It is a perspective view of the exhaust system to which the dust collector concerning one embodiment of the present invention was applied. It is a longitudinal cross-sectional view of the dust collector which concerns on the said embodiment. It is AA sectional drawing of FIG.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a perspective view of an exhaust system 1 to which a dust collector according to an embodiment of the present invention is applied.
The exhaust system 1 collects dust generated in the concrete housing hanging work by the worker S.
The exhaust system 1 includes an air blower 10 installed in the vicinity of a work place of the worker S, an introduction wind pipe 11 extending from the exhaust side of the blower 10, and the introduction wind pipe 11 connected to the air. A dust collecting device 12 that collects dust contained in the exhaust gas, and an exhaust wind pipe 14 that extends from the dust collecting device 12 and passes through the sliding window 13 to reach the outside of the building.

  In the exhaust system 1, when the blower 10 is driven, air containing dust (indicated by an arrow M in FIG. 1) is sucked by the blower 10 and sent to the dust collector 12 through the introduction wind pipe 11. In the dust collector 12, dust in the air is collected and removed, and the air (shown by the white arrow N in FIG. 1) after removing the dust is discharged to the outside of the building through the exhaust wind pipe 14. Is done.

2 is a longitudinal sectional view of the dust collector 12, and FIG. 3 is an AA sectional view of FIG.
The dust collector 12 includes a box-shaped housing 30, a dust collecting mechanism 40 provided inside the housing 30, and a stirring mechanism 50 provided at the lower part of the dust collecting mechanism 40.

The housing 30 is obtained by processing a commercially available poly bucket, and includes a cylindrical main body 31 whose lower end is closed and a lid portion 32 that closes the upper end of the main body 31.
The lid portion 32 is provided with an air introduction chamber 33 to which the introduction wind pipe 11 is connected and an exhaust chamber 34 to which the exhaust wind pipe 14 is connected.

The dust collecting mechanism 40 includes a cylindrical dust collecting portion 41 whose inner diameter becomes narrower toward the lower side, a cylindrical exhaust portion 42 provided at the upper center of the dust collecting portion 41 and extending upward, and a dust collecting portion 41 And four introduction parts 43 provided at the upper part and around the exhaust part 42.
The exhaust part 42 extends along the central axis of the dust collection part 41 and is connected to the exhaust chamber 34 described above.

  Each introduction portion 43 is provided along the inner peripheral surface of the dust collection portion 41 and inclined with respect to the central axis of the dust collection portion 41, and is connected to the air introduction chamber 33 described above. Each introducing portion 43 blows out the air introduced from the wind tube 11 in a spiral shape along the inner wall surface of the dust collecting portion 41.

  The stirring mechanism 50 includes a windmill 51 rotatably provided in the exhaust part 42 and a stirring blade provided in the housing 30 and below the dust collecting part 41 and connected to the rotating shaft 52 of the windmill 51. 53.

The above dust collector 12 operates as follows.
Water is stored in the bottom of the housing 30 of the dust collector 12, and the stirring blade 53 is placed in the water. In this state, air containing dust is indicated through the air introduction chamber 33 (indicated by an arrow M in FIGS. 2 and 3). Is fed into the introduction part 43. Then, the sent air blows out from the introduction part 43 into the dust collecting part 41, and the blown air flows in a spiral shape along the inner peripheral surface of the dust collecting part 41, The dust collects from the lower end of the dust collecting portion 41 downward and is sprayed on the water stored in the lower portion of the housing 30. Thereby, much of the dust contained in the air is collected on the water surface. Thereafter, the air from which the dust has been removed (indicated by the white arrow N in FIG. 2) is discharged from the upper part of the dust collecting part 41 through the exhaust part 42 and the exhaust chamber 34 to the outside.

  At this time, the windmill 51 is rotated by the air flowing through the exhaust part 42 (indicated by an arrow P in FIG. 2). As the windmill 51 rotates, the agitating blade 53 also rotates (indicated by an arrow Q in FIGS. 2 and 3), and the water accumulated in the lower portion of the dust collecting portion 41 is agitated, and the dust collected on the water surface is submerged. It will settle to.

According to this embodiment, there are the following effects.
(1) Since the air is blown out in a spiral shape along the inner wall surface of the dust collecting portion 41 by the introducing portion 43, dust contained in the air falls below the dust collecting portion 41 by centrifugal force in addition to gravity. , Dust collection efficiency can be increased.

(2) Since the area of the water surface is not reduced as in the conventional case, dust can be sufficiently collected on the water surface, so that dust collection efficiency can be further increased.
Further, since the air flow path is not narrowed as in the prior art, it is possible to prevent the air flow path from being clogged with dust.

  (3) Since a poly bucket is used as the housing, it can be easily manufactured, can be sealed without scattering dust, and can be easily opened and closed.

(4) In the conventional general centrifugal dust collector, since the diameter of the introduction part into which air is introduced is small, it cannot be used at the construction site. That is, since the diameter of the wind pipes 11 and 14 for ventilation used at the construction site is at least 200 mm, when these wind pipes 11 and 14 are connected to a conventional centrifugal dust collector, an air flow path is formed at the connection portion. Would be abruptly reduced, and there was a risk that heavy dust would accumulate at this connection. In addition, the dust collector used in the renovation work is not limited to a place of use unlike a factory or a work place, and therefore, it is required to be small and easily movable. In particular, indoor renovation work requires a small dust collector that is low in height and does not leak dust.
According to the dust collector 12 of the present invention, since the air introduction chamber 33 is provided, the air flow path does not suddenly narrow, so that heavy dust does not accumulate. Moreover, since the dust collector 12 is small and the height of the device is low and light, the dust collector 12 can be easily moved and can be used for indoor renovation work.

  It should be noted that the present invention is not limited to the above-described embodiment, and modifications, improvements, etc. within a scope that can achieve the object of the present invention are included in the present invention.

DESCRIPTION OF SYMBOLS S ... Worker 1 ... Exhaust system 10 ... Air blower 11 ... Introductory wind pipe 12 ... Dust collector 13 ... Differential window 14 ... Exhaust air pipe 30 ... Housing 31 ... Main body 32 ... Cover part 33 ... Air introduction Chamber 34 ... Exhaust chamber 40 ... Dust collection mechanism 41 ... Dust collection part 42 ... Exhaust part 43 ... Introduction part 50 ... Agitation mechanism 51 ... Windmill 52 ... Rotating shaft 53 ... Stirring blade

Claims (2)

A dust collector that collects dust contained in air,
A box-shaped housing;
A cylindrical dust collecting portion that is provided inside the housing and has an inner diameter that decreases toward the bottom,
A cylindrical exhaust part provided in the upper center of the dust collection part and extending upward;
A cylindrical introduction portion provided above the dust collection portion and around the exhaust portion,
The introduction part blows out air in a spiral shape along the inner wall surface of the dust collection part. A windmill rotatably provided inside the exhaust part;
The dust collector according to claim 1, further comprising a stirring blade provided inside the housing and below the dust collection unit and connected to a rotation shaft of the windmill.

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