KR102498701B1 - Multi dust collecting apparatus of ultrasonic shaking structure using cyclone and filter bag - Google Patents

Abstract

The present invention relates to a multi-dust collection apparatus with an ultrasonic dedusting structure using a cyclone and a filter bag which can significantly improve dust collection efficiency by performing a double filtering operation with the cyclone and the filter bag and at the same time, enabling the dedusting operation of the filter bag by ultrasonic vibration to provide convenience in operation while forming a compact device. The present invention provides a multi-dust collection apparatus with an ultrasonic dedusting structure using a cyclone and a filter bag, comprising: a dust collection body (11) capable of allowing dust to flow in and out; a plurality of filter bags (20) installed in the dust collection body (11) to filter foreign substances in the air; a back installation plate (15) capable of being vibrated in a horizontally installed state to divide the inside of the dust collection main body (11) up and down and having a plurality of mounting holes (18) formed on the plate so that the upper sides of the filter bags (20) are coupled; a gap closing means (23) which is in the form of a flexible sheet or plate interposed between the dust collection body (11) and the back installation plate (15) to close a gap; an internal extension duct (25) extending horizontally between the filter bags (20) in a state of being in communication with a dust inlet (12); a plurality of cyclones (30) regularly arranged on the internal extension duct (25) to guide dust downward; an ultrasonic vibration member (21) installed on the upper surface of the back installation plate (15) to vibrate the back installation plate (15) and the filter bags (20) in one body so that foreign substances on the filter bag (20) are dedusted.

Description

Multi dust collecting apparatus of ultrasonic shaking structure using cyclone and filter bag}

The present invention relates to a multi dust collection device having an ultrasonic dust removal structure using a cyclone and a filter bag, and more particularly, a double filtering operation is performed by a cyclone and a filter bag to significantly improve the dust collection efficiency and at the same time filter by ultrasonic vibration. The present invention relates to a multi-dust collection device having an ultrasonic dust removal structure using a cyclone and a filter bag, which is configured to enable bag extraction and provides convenience in operation while compactly forming the device.

In general, dust collectors are designed to filter dust generated at industrial sites. Depending on the dust collection method, they are classified into centrifugal dust collectors by cyclones or filtration dust collectors by filter bags. In many cases, the filter bag method is used in combination.

For example, a filtration-type dust collector equipped with a filter bag generally has a plurality of filter bags built into the dust collecting body, and as air containing dust passes through the dust collecting body, the dust is filtered out by the filter bag. Such a filter bag collects dust. During the process, an exhaustion operation is performed to shake off the dust attached to the surface and regenerate it.

In general, the dust collection process of the dust collector is operated so that air is sucked in by a suction blower and dust is filtered by a filter bag. It is designed to shake off the dust attached to the surface of the filter bag by regular air pulses that are ejected intermittently. is formed by extension.

This conventional air pulse dedusting device has disadvantages in that it is not only cumbersome to install or operate the device itself including the compressor, but also generates severe noise or damages the filter bag during operation due to the operating characteristics of the compressor. In addition, when the air is compressed by the compressor, the high-temperature and high-pressure air is condensed inside the ejection pipe or ice is generated depending on the season, so the air flow is not smooth and the reliability of the device is lowered as a result. there will be

On the other hand, in the conventional dust collector using both the cyclone method and the filter bag method, a plurality of filter bags are installed in an arrangement in the dust collecting body, and the bottom shape of the dust collecting body itself is reduced to a downwardly conical shape on the lower side of the filter bag. In the process of dust being introduced into the dust collecting body through the inlet, the filter bag adjacent to the inlet side preferentially collects the dust, and as a result, the dust collecting operation is performed by the cyclone or the entire filter bag by the plurality of filter bags. There is a limit to uniform dust collection operation.

Korean Registered Patent Publication No. 10-2148770 (2020. 08. 21) Korean Registered Patent Publication No. 10-0894313 (2009. 04. 14)

The present invention is to solve the problems described above, and the present invention can significantly improve dust collection efficiency by sequentially performing primary dust collection by a simple cyclone structure and secondary dust collection by a filter bag, and ultrasonic vibration Provides a dust collector with an ultrasonic dust extraction structure that can realize a compact dust extraction configuration by vibrating the foreign substances on the surface of the filter bag and provide convenience in manufacturing, installation, and maintenance. is to do

According to a feature of the present invention, a dust collecting body 11 having a dust inlet 12 through which dust flows in, an air outlet 14 through which clean air from which dust is removed is discharged, and a dust outlet 13 through which filtered dust is discharged and;
a plurality of filter bags 20 installed in the dust collecting body 11 to filter foreign substances in the air;
a bag installation plate 15 installed horizontally to divide the inside of the dust collecting body 11 vertically and having a plurality of mounting holes 18 formed on the plate so that the upper end of the filter bag 20 is coupled;
An ultrasonic vibration member 21 installed on the upper surface of the bag installation plate 15 to integrally vibrate the bag installation plate 15 and the filter bag 20 to remove foreign substances deposited on the filter bag 20 and;
a gap blocking means (23) in the form of a flexible sheet or plate interposed between the dust collecting body (11) and the bag installation plate (15) to close the gap;
a pedestal 19 protruding inward to correspond to a corner side of the back mounting plate 15 inside the dust collecting body 11;
a buffering means 22 installed on the pedestal 19 and supporting the back mounting plate 15 to prevent vibration of the ultrasonic vibration member 21 from being transmitted to the dust collecting main body 11;
an internal extension duct 25 extending in a horizontal direction between the filter bags 20 while communicating with the dust inlet 12;
A plurality of them are regularly arranged on the inner extension duct 25 and installed to guide the dust downward, and are provided in a cylindrical shape inside the inner extension duct 25 so that the dust flows into the cylinder. Guide holes on the outer circumference ( 33) formed therein, and a conical discharge portion 32 communicating with the cylindrical induction portion 31 and protruding and gradually contracting to the bottom of the inner extension duct 25 Cyclone 30;
There is provided a multi-dust collector of an ultrasonic dedusting structure using a cyclone and a filter bag, characterized in that it comprises a.

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According to another feature of the present invention, a blocking plate 26 is installed on both sides of the lower part of the internal extension duct 25 so as to divide the conical discharge part 32 and the filter bag 20 vertically downward. There is provided a multi-dust collection device of an ultrasonic dedusting structure using a cyclone and a filter bag.

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As described above, according to the present invention, the ultrasonic vibration member 21 is installed on the upper surface of the bag installation plate 15 on which the filter bag 20 is mounted, and the bag installation plate 15 and the filter bag 20 are integrally vibrated. As a result, a compressor or injection pipe for producing and delivering high-pressure air or damage to the filter bag due to spraying high-pressure air pulses as in the prior art is provided in order to exhaust foreign substances on the filter bag 20 by vibration. It has the advantage of being able to implement the escapement device simply and compactly because there is no need to
In addition, the ultrasonic vibrating member 21 is directly installed on the upper surface of the back mounting plate 15 to vibrate the back mounting plate 15, so that the vibration energy of the ultrasonic vibrating member 21 is transferred to the back mounting plate 15 without loss. Since the ultrasonic vibration member 21 of relatively small output is used, sufficient exhaustion effect can be obtained, so the exhaustion efficiency is excellent, and the vibration of the vibration means is transmitted to the filter bag 20 using a separate vibration transmission mechanism. In the case of agitation, the internal structure of the dust collector is complicated and the cost may increase due to the vibration transmission mechanism, whereas according to the present invention, the bag installation plate 15 is vibrated to remove all filter bags suspended from the bag installation plate 15 ( 20) can be vibrated together, the structure of the vibration transmission mechanism is simple, so manufacturing is easy and cost can be reduced. In addition, since the ultrasonic vibration member 21 is provided on the upper surface of the bag installation plate 15 and the ultrasonic vibration transmission mechanism does not extend to the lower part of the bag installation plate 15 where the bag filter 20 is disposed, the filter bag is a consumable item. When replacing (20) or maintaining the bag filter (20), the ultrasonic vibration transmission mechanism does not interfere or cause trouble, so maintenance is easy.

In addition, according to the present invention, dust flowing into the dust collecting body 11 is firstly collected by the cyclone 30 and then secondarily collected by the filter bag 20, so that the filter bag 20 There is an advantage of improving the efficiency of dust treatment by the filter bag 20 and at the same time exerting multiple filtering effects by the cyclone 30.

In addition, the present invention installs a plurality of cyclones (30) on the internal extension duct (25) extending into the dust collecting main body to primarily increase the dust collecting effect using centrifugal force and gravity, as well as to each cyclone (30). There is an advantage in that the use efficiency of the device can be increased by allowing the filtering operation to be performed using the entire area so that the dust induced to the lower part by the filter bag 20 reaches the upper part from the lower part of the filter bag 20 .

In addition, on the side of the cyclone 30 of the present invention, as the blocking plates 26 are installed on both sides of the cone discharge portion 32 to be separated from the filter bag 20, through the cone discharge portion 320 of the cyclone 30 To prevent the discharged dust from directly adhering to the side of the filter bag 20, as described above, the entire area is utilized from the lower part of the filter bag 20 to enable the dust collection operation. It has the advantage of being easily induced.

In addition, according to the present invention, as the buffer means 22 is supported and installed at the corner side of the bag installation plate 15, the vibration of the ultrasonic vibration member 21 is prevented from being transmitted to the dust collecting body 11, so that the device operates. can increase the stability of
In addition, in the present invention, as the gap blocking means 23 in the form of a flexible sheet or plate is provided between the dust collecting body 11 and the back mounting plate 15, the dust leaks through the gap of the device in an unfiltered state There is an advantage in that the reliability of operation of the device can be increased by preventing this from happening.

1 is a cutaway perspective view showing an embodiment of the present invention
Figure 2 is an exploded perspective view showing some configurations of the present invention
Figure 3 is a side cross-sectional view according to an embodiment of the present invention
4 is a cross-sectional plan view according to an embodiment of the present invention
5 is a front cross-sectional view according to an embodiment of the present invention

Objects, features and advantages of the present invention described above will become more apparent through the detailed description that follows. Hereinafter, a preferred embodiment of the present invention will be described based on the accompanying drawings.

1 to 5 show a preferred embodiment of the present invention. As shown in FIG. 1, the dust collector 10 of the present invention filters the dust introduced through the dust inlet 12 formed on one side of the dust collector body 11 by the filter bag 20 to remove foreign substances to the lower part. The dust is discharged through the formed dust outlet 13, and clean air is discharged through the air outlet 14 formed on the other side of the dust collecting body 11. Inside the dust collecting body 11, a bag installation plate 15 is It is installed in the horizontal direction and partitions the inside of the dust collecting body 11 vertically.

Specifically, the inside of the dust collecting body 11 is formed with a dust chamber 16 communicating with the dust inlet 12 at the bottom of the bag installation plate 15 and into which dust flows, and the upper part of the bag installation plate 15 A clean chamber 17 communicating with the air outlet 14 is formed to discharge clean air, and the filter bag 20 is formed on the top of the mounting hole 18 formed in plurality on the surface of the bag installation plate 15. It is mounted in a vertically suspended form on the side of the dust chamber 16 with the side fixedly coupled.

In the present invention, as the air is sucked by a suction means (not shown) connected to the air outlet 14 during the dust collection operation, the filtering operation is performed by the filter bag 20 as described above, During the vibration operation, the filter bag 20 is vibrated to shake off foreign substances on the surface. In the dust removal operation of the present invention, the ultrasonic vibration member 21 is directly installed on the upper surface of the back installation plate 15, and the bag installation plate 15 By vibrating, the filter bag 20 is vibrated integrally to dedust, and the ultrasonic vibrating member 21 selects its own capacity, number of installations, or installation location in an optimal state according to the dust collection capacity. that can be fitted.
According to the present invention, the ultrasonic vibration member 21 is installed on the upper surface of the bag installation plate 15 on which the filter bag 20 is mounted to vibrate the bag installation plate 15 and the filter bag 20 integrally. In order to de-dust the foreign matter on the filter bag 20, there is no need to provide a compressor or injection pipe for producing and delivering high-pressure air or damage to the filter bag caused by spraying high-pressure air pulses as in the prior art. can be implemented simply and compactly. In addition, the ultrasonic vibrating member 21 is directly installed on the upper surface of the back mounting plate 15 to vibrate the back mounting plate 15, so that the vibration energy of the ultrasonic vibrating member 21 is transferred to the back mounting plate 15 without loss. Since the ultrasonic vibration member 21 of relatively small output is used, sufficient exhaustion effect can be obtained, so the exhaustion efficiency is excellent, and the vibration of the vibration means is transmitted to the filter bag 20 using a separate vibration transmission mechanism. In the case of shaking, the internal structure of the dust collector is complicated and the cost may increase due to the vibration transmission mechanism, whereas according to the present invention, the bag installation plate 15 is vibrated to remove all filter bags suspended from the bag installation plate 15 ( 20) can be vibrated together, the structure of the vibrating mechanism is simple, so manufacturing is easy and cost can be reduced. In addition, the ultrasonic vibration member 21 is provided on the upper surface of the bag installation plate 15 and the ultrasonic vibration transmission mechanism does not extend to the lower part of the bag installation plate 15 where the bag filter 20 is disposed, so that the consumable filter bag ( 20) or maintenance of the bag filter 20, the ultrasonic vibration transmission mechanism does not interfere or cause trouble, so maintenance is easy.

In addition, on the dust collecting main body 11, before the dust collecting operation is performed by the filter bag 20, a cyclone 30 is provided to primarily collect dust introduced through the dust inlet 12 by centrifugal force and gravity. To this end, an internal extension duct 25 is horizontally extended into the dust chamber 16 in a state of communication with the dust inlet 12 inside the dust collecting body 11, and a plurality of internal extension ducts 25 on the internal extension duct 25. Two cyclones 30 are arranged in a row to pass the dust introduced through the dust inlet 12, which will be described with reference to FIGS. 2 and 3 as follows.

As shown in FIG. 2, the internal extension duct 25 has a substantially rectangular cross-section and is disposed on one side of the back mounting plate 15, and the cyclones arranged in a row on the internal extension duct 25 ( 30) is a cylindrical induction part 31 embedded on the inner extension duct 25 and a conical discharge part 32 integrally formed at the lower end of the cylindrical induction part 31 and exposed to the bottom of the inner extension duct 25 As configured, such a cyclone 30 can be installed to be integrally coupled by forming a coupling hole 27 or the like at the bottom of the internal extension duct 25 by welding or the like.

Specifically, the cylindrical induction part 31 has an induction hole 33 formed on the outer circumference of the cylindrical shape to allow dust to flow into the cylinder, and the cone discharge part 32 extends downward to be gradually reduced to remove the dust by centrifugal force. It is discharged to the lower part by gravity and sedimentation, and an inward guide vane 34 extending into the cylinder is formed on the side of the guide hole 33 to induce the dust to turn naturally, thereby discharging the dust to the cone discharge unit 32. It is easily transmitted to increase the action effect of centrifugal force and gravity.

In addition, as shown in FIG. 3, the internal extension duct 25 and the cyclone 30 are disposed between the filter bag 20 to settle the dust to the lower part of the dust chamber 16, and the internal extension duct ( At the lower part of 25), a blocking plate 26 is installed on both sides vertically downward to distinguish between the cone discharge portion 32 and the filter bag 20, and the blocking plate 26 separates the cone discharge portion 32. It is built in to minimize direct attachment to the side of the filter bag 20 while some dust is blown away during the dust discharge process, and this blocking plate 26 enhances the sedimentation effect by the cyclone 30 and at the same time filters the filter As the dust is adsorbed using the entire surface of the filter bag from the bottom to the top of the bag 20, the use efficiency or filtering effect of the device can be increased.

On the other hand, the ultrasonic vibration member 21 is installed to support the back installation plate 15 by the buffer means 22 to prevent vibration from being transmitted to the dust collecting body 11 during the vibration process of the back installation plate 15. However, this will be explained with reference to FIGS. 4 and 5 as follows.

As shown in FIGS. 4 and 5, the bag installation plate 15 is made in the form of a square panel to correspond to the inner shape of the dust collecting body 11, and the square corner portion is supported by the buffer means 22. , On the dust collecting main body 11, a pedestal 19 protruding flatly inward is formed on each corner side, and a buffering means 22 such as elastic rubber or a spring in the form of a block of a certain size is formed on the pedestal 19 This is fixedly installed, and the bottom of the corner of the back mounting plate 15 is installed on the buffer means 22 in a seated state.

The back mounting plate 15 is manufactured in a relatively small area compared to the cross-sectional area of the dust collecting body 11 in order to be installed on the dust collecting body 11 so as to vibrate. As a result, the back mounting plate 15 and the dust collecting body A gap of a certain interval is formed between (11), and the gap is blocked by a gap sealing means 23 in the form of a flexible thin plate such as a nonwoven fabric, a thin sheet film, or a rubber plate, so that the back mounting plate 15 It is possible to block dust from being discharged through the gap without interfering with the vibration operation.

Here, the dust collecting main body 11 is connected to the main case 11a in which the filter bag 20 can be built in and the upper side of the main case 11a to form the cleaning chamber 17 ( 11b), the flange 11c formed to correspond to each other can be coupled to each other by bolting, etc., and even in the case of the gap blocking means 23, the outer circumferential portion of the main case 11a and the auxiliary case 11b The inner circumferential portion can be fixedly installed on the back mounting plate 15 in a state of being sandwiched between the flanges 11c by bonding or bolting.

The present invention described above is not limited by the foregoing embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible within a range that does not deviate from the technical spirit of the present invention. will be clear to those who have knowledge of

10: dust collector 11: dust collector body
12: dust inlet 13: dust outlet
14: air outlet 15: back installation plate
16: dust chamber 17: clean chamber
18: mounting hole 19: pedestal
20: filter bag 21: ultrasonic vibration member
22: buffering means 23: gap blocking means
25: internal extension duct 26: blocking plate
30: cyclone 31: cylindrical induction part
32: cone discharge unit 33: induction hole

Claims (3)

a dust collecting body 11 having a dust inlet 12 through which dust is introduced, an air outlet 14 through which clean air from which dust is removed is discharged, and a dust outlet 13 through which filtered dust is discharged;
a plurality of filter bags 20 installed in the dust collecting body 11 to filter foreign substances in the air;
a bag installation plate 15 installed horizontally to divide the inside of the dust collecting body 11 vertically and having a plurality of mounting holes 18 formed on the plate so that the upper end of the filter bag 20 is coupled;
An ultrasonic vibration member 21 installed on the upper surface of the bag installation plate 15 to integrally vibrate the bag installation plate 15 and the filter bag 20 to remove foreign substances deposited on the filter bag 20 and;
a gap blocking means (23) in the form of a flexible sheet or plate interposed between the dust collecting body (11) and the bag installation plate (15) to close the gap;
a pedestal 19 protruding inward to correspond to a corner side of the back mounting plate 15 inside the dust collecting body 11;
a buffering means 22 installed on the pedestal 19 and supporting the back mounting plate 15 to prevent vibration of the ultrasonic vibration member 21 from being transmitted to the dust collecting main body 11;
an internal extension duct 25 extending in a horizontal direction between the filter bags 20 while communicating with the dust inlet 12;
A plurality of them are regularly arranged on the inner extension duct 25 and installed to guide dust downward, and are provided in a cylindrical shape inside the inner extension duct 25 to introduce dust into the cylinder. Induction holes on the outer circumference ( 33) formed therein, and a conical discharge portion 32 communicating with the cylindrical induction portion 31 and protruding and gradually contracting to the bottom of the inner extension duct 25 Cyclone 30;
Multi dust collector of ultrasonic dedusting structure using a cyclone and a filter bag, characterized in that it comprises a.
The method of claim 1, characterized in that, at the lower part of the internal extension duct (25), a blocking plate (26) is installed vertically downward on both sides to distinguish between the conical discharge part (32) and the filter bag (20). Multi dust collector with ultrasonic dedusting structure using cyclone and filter bag.
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