KR100886197B1 - Dust collector - Google Patents

Abstract

The present invention relates to a dust collecting apparatus for effectively filtering and collecting dust generated in the workplace.

According to the present invention, by implementing a new type of desorption method in which the dust directly attached to the surface of the filter is directly scraped, the desorption efficiency of the dust can be greatly increased, and in particular, even the finely adsorbable fine dust can be completely desorbed. In addition, by implementing a new type of sealing method through a gasket such as rubber packing on the mounting portion of the filter installed in the device, the conventional noise problem can be completely eliminated, and dust or dust in the device leaks out of the device. It provides a dust collecting device that can ensure perfect sealing, such as to prevent it.

Description

Dust collector {Dust collector}

The present invention relates to a dust collecting device, and more particularly, to a dust collecting device for effectively filtering and collecting dust generated in the workplace.

In general, a dust collector is installed in a workplace where a lot of dust is generated and is included in the indoor air to collect floating dust, purify it with clean air, and discharge it to the outside to prevent air pollution due to dust.

In general, the dust collector sucks in various dusts such as dust and foreign substances through the inlet, and then filters the filter mounted inside the apparatus and discharges the clean air from which dust is removed to the outside through the outlet, while the dust collected in the filter is compressed by the compressor. By spraying the compressed air back into the filter at a predetermined time and intervals by the injection nozzle pipe, the dust stuck to the outer surface of the filter is detached to process the dust through the lower dust discharger.

Such a dust collector is essential in an industrial site in which a large amount of dust such as dust is generated during a work process.

For example, large particles or dust emitted from many factories such as clothing, weaving, cotton spinning, milling, loess products, grinding, cement, or other equipment having incinerators, steel, steel mills, or similar environmental deterrent functions. It is essential in places that float a lot in the air.

On the other hand, the dust collector must work to remove dust or dust attached to the filter periodically after a certain period of operation in order to maintain a constant level of air purification efficiency.

However, the conventional desorption method is a method of spraying compressed air to drop the dust adhered to the filter, so in the case of fine adsorbent fine dust, the desorption efficiency is generally low. There is a problem that the filtration efficiency of the filter is reduced and the life of the filter is shortened.

In addition, there is a problem that noise is very severe, such as a loud sound "popping" when compressed air injection.

In addition, conventionally, there is a disadvantage in that the sealing property is weak because no airtight measures are applied to the filter mounting portion, and as a result, dust, dust, etc. in the dust collector leak out to deteriorate the indoor environment and working conditions. have.

Therefore, the present invention has been devised in view of the above, and by implementing a new type of desorption method in which the dust directly attached to the surface of the filter is scraped by contact, the desorption efficiency of dust can be greatly increased, and in particular, An object of the present invention is to provide a dust collecting device capable of completely detaching even fine dust having high adsorption.

In addition, another object of the present invention is to implement a new type of sealing method through a gasket such as rubber packing on the mounting portion of the filter installed in the device, it is possible to completely eliminate the conventional noise problem, as well as dust in the device In addition, it is to provide a dust collecting device that can ensure perfect sealing properties, such as preventing dust from leaking out of the device.

In order to achieve the above object, the dust collector provided in the present invention includes a plurality of cylindrical filters installed in a rotatable structure at both ends of the wall of the apparatus body, a motor and a gear device for providing power for rotation of the cylindrical filter, and the cylindrical filter. It is characterized by consisting of a pad including a pad to scrape dust through contact with the surface of the filter while being disposed parallel to this along the longitudinal direction.

Here, the pad is installed on the wall of the main body of the device to be rotatable at both ends, it is preferable to stand up when detached by the automatic operation using the actuator or the manual operation using the lever to contact with the filter surface and fall down from the filter surface as usual. Do.

In addition, it is preferable to prevent the dust or dust in the device from leaking out of the device through the ring-shaped gasket between the wall and the shaft support portion of the cylindrical filter.

The dust collector provided by the present invention has the following advantages.

First, the desorption method of scraping dust or dust by directly contacting the pad of rubber or plastic material with the rotating filter surface can maximize the desorption efficiency, and in particular, desorbs even fine dust, thus filtering the filter. The efficiency can be further improved, and the lifetime of the filter can be maintained for a long time.

Second, since the sealing part of the filter installed in the device, that is, the contact area between the filter and the wall of the device, is sealed through a gasket such as a rubber packing, the dust or dust in the device can never escape to the outside of the device. The sealing property can be secured, and therefore, the indoor environment and working conditions can be created comfortably at all times.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 are a front view and a side view showing a dust collector according to an embodiment of the present invention.

1 and 2, the apparatus main body 10 of the dust collector has a central dust collection space, the inlet 21, the air containing dust in the upper, the purified air in the outlet outward (22), the lower part has a structure in which a collecting part 23 for collecting dust removed from air is formed.

Therefore, with the operation of the fan (not shown), air containing dust has a flow through the inlet 21 → the filter cartridge → the outlet 22 in the dust collecting space, and the dust filtered by the filter cartridge falls downward and is collected. It is gathered into the wealth 23.

The filter cartridge for dust filtration is composed of a cylindrical filter 11, the cylindrical filter 11 is installed in a structure rotatably supported on the wall of the device body 10 through the shaft 20 of both ends.

The outer circumferential surface of the cylindrical filter 11 installed in this way is exposed in the dust collecting space communicating with the inlet 21, and the interior space communicates with the outlet 22 side.

The cylindrical filter 11 is provided with a plurality, and may be installed in a predetermined arrangement form, for example, four filters are arranged in a rectangular shape.

In order to rotate the cylindrical filter 11, a motor 12 supported on a wall is positioned at one side of the filter, and the motor 12 and the cylindrical filter 11 are connected by the gear device 13 at the time of rotation of the motor. The filter can be rotated.

For example, one gear is mounted on the shaft of the motor 12, and one gear is engaged with one of the shafts 20 of the cylindrical filter 11, so that the power of the motor 12 is increased. It may lead to the rotation of the cylindrical filter 11 through the gear device (13).

In this case, the motor 12 and the gear device 13 is preferably in the form of one to each cylindrical filter 11, but the entire cylindrical filter 11 by using a motor and a transmission device such as a belt. It is also possible to apply a running mode.

In addition, each of the cylindrical filters 11 has a semicircular cross section and one baffle plate 19 arranged side by side with the filter.

At this time, the baffle plate 19 serves to cover the upper space of the filter toward the inlet 21 while being positioned at a predetermined interval from the top of the cylindrical filter 11, and thus flows through the inlet 21. It is possible to prevent the concentration of the air containing the dust to be concentrated only on the upper part of the filter, and eventually to direct the flow of air to ensure even filtration over the entire circumference of the filter.

In particular, the present invention provides a desorption means for scraping off the dust adhering to the cylindrical filter 11 directly by contact.

To this end, a pad 14 is disposed below the cylindrical filter 11 in parallel with the filter in the longitudinal direction of the filter.

At this time, the pad 14 is installed on the wall of the apparatus main body 10 in a rotatable structure at both ends, and is operated by the automatic or manual operation so that the pad 14 can come into contact with the filter surface or fall down from the filter surface while lying down. do.

For example, it is usually laid down and is in contact with the surface of the cylindrical filter 11, and in case of detachment, the user lifts the pad 14 by raising the lever 24 operable from the outside of the apparatus main body 10, or When the pad 14 is rotated by using an actuator such as a motor or the like, the end of the pad 14 may be in contact with the surface of the cylindrical filter 11.

Here, in the case of the manual operation of the lever, the upright state of the pad 14 can be maintained by using a stopper means suitable for the wall of the apparatus main body 10, and a method for configuring such a stopper means is conventional in the art. Any method known as may be employed without particular limitation.

At this time, when the cylindrical filter 11 is rotated by operating the motor 12, the dust or dust adhering to the filter surface may easily come off by contact with the pad 14.

In particular, since the strip 14 is forcibly scraped off the surface of the cylindrical filter 11 by the pad 14, even fine dust having high adsorptivity can be effectively removed.

These pads 14 are assigned to each cylindrical filter 11 one by one can perform a detachment operation for the corresponding cylindrical filter 11, respectively.

Here, the pad 14 may be manufactured in various forms. For example, in the body portion 16 having an elongated rod shape, the groove portion 15 is formed to be continuous in the longitudinal direction, and the groove portion 15 is thus formed. After inserting one end portion in the width direction of the pad portion 17 having an elongated stripe shape, the inserted portion may be fastened to form the body portion 16 and the pad portion 17 integrally combined with each other. .

Here, the pad portion 17 may be a rubber material or a plastic material.

In addition, the present invention provides a means, that is, a gas tight structure to prevent the dust or dust floating in the device do not leak to the outside of the device.

To this end, as illustrated in FIG. 3, a ring-shaped gasket 18 is installed along the axis around the wall portion on which the shaft 20 of the cylindrical filter 11 is supported, and the gasket 18 at this time. As it closely adheres to the wall side, it effectively prevents the gap formed in the shaft through portion of the wall, so that dust or dust from the device ��� part does not escape to the outside of the device.

The gasket 18 may be installed on both shafts 20 of the cylindrical filter 11, and a material such as rubber packing may be used.

Particularly, in the case of the gasket 18, the wing portion 25 that is inclinedly extended while being connected from the gasket body may be secured while actively coping with the axial flow of the cylindrical filter 11. .

Therefore, the operation state of the dust collector configured as described above, in particular, the tally operation state will be described.

4 is a front view showing a detachment operation state of the dust collector according to an embodiment of the present invention.

As shown in FIG. 4, air mixed with dust is introduced into the apparatus main body 10 through the inlet 21 when the fan is operated. Dust and the like are filtered by the cylindrical filter 11, and the clean air filtered through the cylindrical filter 11 is finally discharged through the outlet 21 of the jangji body 10.

In addition, the dust filtered by the cylindrical filter 11 may fall to the collecting portion 23 below, and the final collection process together with the dust falling down when the cylindrical filter 11 using the pad 14 is detached. .

For example, when the device is stopped and the tally operation is performed, first, by operating the lever from the outside of the device or by using the actuator to rotate the pad 14 vertically, the widthwise end of the pad 14 is cylindrical. When the cylindrical filter 11 is rotated by operating the motor 12 in this state, the pad 14 scrapes the surface of the relatively cylindrical filter 11. In this state, dust, dust, and the like adhering to the surface of the cylindrical filter 11 can be easily detached, and in particular, since the pad 14 is forcibly scraped off through physical contact with the filter surface, fine dust having high adsorptivity. Even desorption can be effective.

In this way, by performing the desorption by scraping the filter surface with a pad during the desorption operation of the dust collector, the desorption efficiency can be maximized, and by applying a sealing structure provided with a gasket on the filter shaft support portion, B. Dust can be sealed off at the source.

1 is a front view showing a dust collector according to an embodiment of the present invention

Figure 2 is a side view showing a dust collector according to an embodiment of the present invention

Figure 3 is an enlarged view showing the sealing structure of the filter mounting portion in the dust collector according to an embodiment of the present invention

Figure 4 is a front view showing a detachment operation state of the dust collector according to an embodiment of the present invention

<Description of the symbols for the main parts of the drawings>

10 device body 11: cylindrical filter

12 motor 13 gear device

14: pad 15: groove

16 body portion 17 pad portion

18 gasket 19 baffle plate

20: axis 21: inlet

22: outlet 23: collector

24: lever 25: wing

Claims (6)

In the dust collecting device to filter and collect the dust generated at the work site, A plurality of cylindrical filters 11 installed in a rotatable structure at both ends of the wall of the apparatus main body 10, a motor 12 and a gear device 13 for providing power for rotation of the cylindrical filter 11, A pad 14 is disposed parallel to this along the longitudinal direction of the cylindrical filter 11 to scrape dust through contact with the filter surface. The pad 14 is installed on the wall of the apparatus main body 10 in a rotatable structure at both ends, and is set up at the time of detachment by automatic or manual operation so as to come into contact with the filter surface and then be laid down normally so as to be separated from the filter surface. Device. delete The dust collecting apparatus according to claim 1, wherein the up and down operation of the pad (14) is made by manual operation by a lever (24) or automatic operation by an actuator. The method of claim 1, wherein the pad 14 is a long rod-shaped body portion 16 having a groove portion 15 formed in the longitudinal direction, and a long strip that is fitted and fixed to the groove portion 15 of the body portion 16 Dust collecting device, characterized in that consisting of the pad portion 17 of the shape. The method according to claim 1, wherein the support portion of the shaft 20 of the cylindrical filter 11 is interposed between the wall and the ring-shaped gasket 18 to prevent dust or dust in the device from leaking out of the device. Dust collector characterized in that. The dust collecting device according to claim 1, wherein each of the cylindrical filters (11) has a baffle plate (19) which covers the upper part of the filter while being positioned at a predetermined interval upward.

Images