KR101260976B1 - Dust collector - Google Patents

Abstract

The present invention relates to a dust collector, specifically to shake off the dust attached to the surface of the filter using a separate dust removal unit,
In the process of moving the dust removal part along the length direction of the filter part, while making contact between the brush and the filter part, and applying vibration to the filter part,
Compared with the conventional compressed air injection method, the dust removal efficiency is increased and the compressed air supply structure does not need to be provided. Therefore, the overall structure is simplified, resulting in a reduction in manufacturing cost, noise reduction effect and unnecessary inside the dust collector. The present invention relates to a technology capable of preventing a change in air movement direction and increasing dust collection efficiency.

Description

Dust collector {DUST COLLECTOR}

The present invention relates to a dust collector that allows air introduced into the interior to be discharged in a purified state while passing through a filter part.

In general, where a purification facility for air discharged to the outside, such as a factory, is required, a dust collector that filters dust contained in exhaust air during the discharge process is essentially installed.

Such a dust collecting device is generally formed in such a manner that dust contained in the air is attached to the discharge part surface and discharged after the air introduced into the dust collecting case passes through the filter part in the state where the filter part is formed in the dust collecting case.

Therefore, if the amount of dust attached to the filter part is increased for a long time, the filtering effect of the filter part is lowered.

Such a dust removal operation has been proposed to provide a separate air injection unit and to spray the compressed air in the process of moving the air injection unit in the longitudinal direction of the filter unit to blow dust by the air pressure has been proposed.

However, such an air spraying method must have a separate compressed air supply facility in addition to the dust collector, so that the total size of the facility is increased, causing unnecessary consumption of the installation space, making manufacturing difficult, and increasing the manufacturing cost.

In addition, the dust must be removed only by non-contact method, that is, the air pressure with the surface of the filter part, so the dust removal efficiency is not high, there is a problem that the dust removal operation must be performed at any time.

In addition, noise is generated in the process of compressing the air, as well as a problem that the dust collection efficiency is lowered as the air flow inside the dust collecting case is changed by the injected compressed air.

The present invention is proposed to solve the problems of the prior art,

The present invention aims to provide a dust collecting device that can improve the dust removal efficiency of the filter unit as well as prevent the increase of the size of the entire facility and improve the dust collection efficiency.

Embodiment of the present invention proposed to achieve the above object,

A dust collecting case in which an accommodation space is formed and an air inlet and an air outlet are formed at a side thereof, a filter unit installed between the air inlet and the air outlet of the accommodation space to attach dust to the surface of the accommodation space, and around the filter unit. A dust removal unit including an installation body installed on the installation body and the brush installed in contact with the filter unit, and a transport unit connected to the installation body to transfer the installation main body along the length of the filter unit. have.

The brush may be installed in a form surrounding the filter unit.

The dust removing unit may further include a driving motor installed in the installation main body and a rotating member connected to the driving shaft of the driving motor to rotate together with the driving shaft, and the brush may be installed on the rotating member to rotate together with the rotating member. have.

The installation body and the rotating member may be installed to surround the filter unit, and the dust removing unit may further include a support member installed in the installation body to allow the rotating member to pass therethrough.

In addition, the transfer part may include a motor, a rotating part which is connected to the motor to rotate, one side is connected to the rotating part and the other side is connected to the installation main body to move a straight line vertically moved by the rotation of the rotating part.

The rotating part includes a rotating rod connected to the motor shaft and a sprocket installed on the rotating rod, wherein the linear moving part is connected to the sprocket on one side and connected to the installation main body by rotation of the sprocket. It may include a chain that is moved up and down.

In addition to this, an accommodation space is formed therein, and a dust collecting case having an air inlet and an air outlet formed at a side thereof, and a filter unit installed between the air inlet and the air outlet of the accommodation space to attach dust to the surface of the accommodation space, and the filter. And a dust removal unit having a vibration supply unit connected to the unit and a vibration supply unit connected to the vibration transmission unit and transmitting vibration to the filter unit through the vibration transmission unit.

In addition, the vibration supply unit may include a rotation cam eccentrically rotated so as to be eccentrically connected to the motor and the motor shaft, and the vibration transmission unit is connected to the filter unit and the other side is in contact with the rotation cam to rotate the rotation cam. It may include a diaphragm which is changed in position by a vibration plate and a fixed plate positioned at intervals with the diaphragm and an elastic member positioned between the fixed plate and the diaphragm.

The present invention having these various embodiments,

Basically, the dust is removed by the brush sweeping the surface of the filter or applying vibration directly to the filter in the process of moving the installation main body has the advantage of improving the dust removal efficiency compared to the conventional.

Compared with the conventional dust removal structure is simplified, so the overall size of the dust collector is also simplified.

In addition, since dust is removed in a manner that does not affect noise and does not affect the air flow in the dust collector during dust removal process, there is an advantage in that dust collection efficiency is also prevented.

1 is an overall perspective view of the present invention
2 is an overall cross-sectional view of the present invention.
3 and 4 is a partial cross-sectional view showing the installation structure and operation process of the vibration generating portion
5 is a perspective view showing the structure of the dust removal unit and the transfer unit
Figure 6 is an enlarged perspective view of a part of the dust removal unit
7 is a partially enlarged cross-sectional view showing a contact state between a brush and a filter part;
Figure 8 is an overall cross-sectional view of the dust removal portion is raised by the transfer unit;
9 is a partially enlarged view showing a modification in which the brush is installed directly on the installation main body;
10 is a partially enlarged view showing an example in which the transfer unit is modified into a rack and pinion gear structure.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Like parts are designated with like reference numerals throughout the specification.

The dust collector of the present invention is largely as shown in [FIG. 1] to [FIG. 5], the dust collecting case 100 and the vibration generating unit 200, the filter unit 300, the dust removing unit 400, the conveying unit 500 It is configured to include.

First, the dust collecting case 100 serves as a dust collecting space forming function of the dust collecting device, an accommodation space 110 is formed therein, and an air inlet 120 is formed at one lower side thereof, and an air outlet for purifying the air discharged at the upper side thereof. 130 is formed.

And the lower portion is made in the form of a hopper reducing the area toward the bottom and the dust outlet 140 is formed in the center of the dust discharged from the filter unit 300 through the dust removal unit 400 to be described later, the dust outlet ( 140, a separate discharge control valve 150 is formed to selectively open and close the dust outlet 140.

For reference, the dust collecting case 100 is not limited to a specific shape, and may be variously modified and manufactured, such as a square or a circle as shown in the drawing, depending on the environment where it is installed.

The dust generating unit 200 is further installed in the dust collecting case 100.

Vibration generating unit 200 is to increase the removal efficiency of the dust buried in the filter unit 300 by applying vibration to the filter unit 300 to be described later, as shown in [Fig. 200A) and the vibration transmitting unit 200B.

Among them, the vibration supply unit 200A plays a role in generating vibration for the first time and includes a driving motor 210 and a driving cam 220.

First, the driving motor 210 serves as an actual vibration source of the vibration generating unit 200, and uses a general D.C motor and is installed on the outer surface of the dust collecting case 100.

In addition, the driving cam 220 serves to convert the rotational force of the driving motor 210 into the vertical movement of the driving motor 210 and is located in the accommodation space of the dust collecting case 100 in an eccentrically coupled state to the driving shaft of the driving motor 210.

The vibration transmission unit 200B serves to transfer the vibration generated from the vibration supply unit 200A to the filter unit 300 to be described later, and includes the fixing plate 230, the elastic member 240, and the vibration plate 250. .

The fixing plate 230 is positioned below the drive cam 220, and a spring-shaped elastic member 240 is installed on the fixing plate 230. The fixing plate 230 and the elastic member 240 may be installed at both sides of the receiving space 110 or installed in all directions.

In addition, a diaphragm 250 having a simple plate shape is positioned between the elastic member 240 and the driving cam 220. The upper surface is positioned in contact with the driving cam 220 while being seated on the elastic member 240. do.

At this time, since the diaphragm 250 is manufactured to be substantially the same as the area of the accommodating space 110, the accommodating space 110 of the dust collecting case 100 is divided up and down on the basis of the diaphragm 250.

That is, a first space 112 is formed below the diaphragm 250 to fill the air in a pre-purified state, and a second space 114 is formed above the diaphragm 250 to fill the purified air.

In this state, the diaphragm 250 is provided with a plurality of through-holes 252 serving as a passage between the installation of the filter unit 300 to be described later and the first and second spaces 112 and 114 at intervals.

This structure has a structure in which the diaphragm 250 swings up and down while the driving cam 220 is rotated by the driving motor 210. Specific operation process will be mentioned in the operation description process to be described later.

The filter case 300 is installed in the dust collecting case 100.

The filter unit 300 functions to substantially filter air during the dust collection process, and further includes a filter case 310 and a filter member 320.

First, the filter case 310 has a rod-shaped mounting rod 312 vertically erected on the bottom plate, and the mounting rod 312 is disposed at intervals along the bottom plate rim so that a space between each mounting rod 312 is provided. It is made of an additional formed structure.

In this state, the upper end is connected to each of the through holes 252 of the diaphragm 230, and is installed in a form suspended from the diaphragm 230.

For reference, in addition to such a structure, the filter case 310 may be manufactured in a cylindrical shape, and may also be manufactured in a structure in which a plurality of through holes for air inflow are formed on the outer circumferential surface thereof.

In addition, the filter member 320 constituting the filter unit 300 together with the filter case 310 serves as a substantially air filtering function among the filter units 300, and dust particles are caught while passing air such as a nonwoven fabric or a mesh form. It is made of structure that can be lost.

The filter member 320 is inserted into the filter case 310 is installed in the form of blocking the space between each installation bar 312.

For reference, the filter member 320 is not limited to a specific material and structure, and can be used as long as it can be used for general air collection purposes.

As the filter member 320 is installed as described above, the filter part 300 has a hollow tube structure in which an upper end part is opened in a state surrounded by the filter member 320.

The dust removing unit 400 is installed in the dust collecting case 100 in which the filter unit 300 is installed.

Dust removal unit 400 is to remove the dust attached to the filter member 320 during the dust collection process, as shown in Figure 2 to 7 again the main body 410 and the motor 430 ), A rotating member 440 and a brush 450 is configured.

First, the installation main body 410 serves as the entire body of the dust removal unit 400, and is formed in a ring shape as a whole, and the lower end of the filter unit 300 passes through the center, that is, the lower end of the filter unit 300. It is installed in a wrapping form.

For reference, the installation main body 410 may be manufactured in the shape of a rectangular ring according to the shape of the filter case 310 in addition to the circular ring shape, it is not necessarily necessarily a ring shape.

The installation main body 410 is connected to each other through the connecting piece 412 in the state located at the bottom of each filter unit 300 in such a structure has a structure in which the whole is integrated in this state [FIG. 5] and [FIG. 6 A connecting plate 414 for connection with the transfer part 500 to be described later is formed on the side of the installation main body 410 located on both side edges.

For reference, the installation main body 410 may be simply manufactured in a plate shape and may be manufactured in a structure in which a through hole is formed at each point through which the filter unit 300 penetrates on the plate.

And the upper surface of each installation main body 410, the support plate 420 for the installation function of the rotating member 440 to be described later is arranged circularly at intervals along the shape of the installation main body 410.

In addition, a motor 430 serving as a driving source of the brush 450 to be described later is installed on the installation main body 410, and a general D.C motor is used as in the driving motor 210 of the vibration generating unit 200.

And the motor shaft of the motor 430 is provided with a rotating member 440 is installed to the brush 450 to be described later and the rotational force transmission function of the motor 430.

Rotating member 440 is made of a simple wire form, is installed through each support plate 420 sequentially in a state where one end is connected to the motor shaft.

At this time, since the support plates 420 are circularly arranged as described above, the rotating member 440 thus installed also has a ring shape.

The dust removing unit 400 further includes a brush 450 together with the installation main body 410, the motor 430, and the rotating member 440. The brush 450 substantially removes dust from the surface of the filter unit 300. It is to remove the role as a whole made of a hollow tube form and consists of a structure in which a single brush hair is tightly embedded on the circumference.

In addition, the brushes 450 are provided in plural and arranged along the longitudinal direction of the rotating member 440. In this case, the rotating members 440 penetrate each brush 450 in the longitudinal direction during the installation process. Is installed in a circular arrangement along the rotating member 440.

Therefore, each brush 450 is positioned to surround the filter unit 300 in a state in which it is in contact with the filter unit 300 and in this state has a structure that is rotated around the rotating member.

Thus, the transfer part 500 is further installed in the dust collecting case 100 installed up to the dust removing part 400.

The transfer unit 500 serves as a function of lifting and lowering the dust removing unit 400, and again to the first transfer unit 500A and the second transfer unit 500B as shown in [FIG. 1], [FIG. 2], and [FIG. 5]. It is divided up.

First, the first transfer part 500A is configured to include a transfer motor 510, a rotation part 520, and a linear moving part 530.

The transfer motor 510 is composed of a general DC motor and is located above the dust collecting case 100.

The rotating unit 520 serves to transmit the rotational force of the transfer motor 510 to the dust removing unit 400, and one end thereof is connected to a motor shaft (not shown) of the transfer motor 510 to be disposed in a horizontal state with the ground. The driving sprocket 524 is formed on both sides of the rotation shaft 522.

The rotating part 520 is disposed at a vertical interval and connected to the linear moving part 530. For reference, the distance between the upper and lower rotation parts 520 may be formed to be longer than the length of the filter part 300 so that the dust removing part 400 may contact the entire filter part 300.

The linear moving part 530 is a vertical movement function of the dust removing part 400 by converting the rotational force of the rotating part 520 in a linear direction. The linear moving part 530 is applied as a general chain and both ends are wound around the vertical driving sprocket 524 to drive each drive. The sprocket 524 has a structure for vertically connecting.

For reference, the linear moving part 530 and the driving sprocket 524 of the chain shape may be replaced with a belt and a pulley structure.

The second conveying part 500B has the same structure as the first conveying part 500A and is symmetrically positioned with the filter part 300 and the entire dust removing part 400 interposed therebetween. For reference, since each component of the second transfer unit 500B overlaps with the first transfer unit 500A, a detailed description thereof will be omitted.

The lower end of each of the linear moving parts 530 of the first and second transfer parts 500A and 500B is connected to the connecting plate 414 of the installation main body 410 so that the installation main body is rotated when the linear moving part 530 is rotated ( 510) including the entire dust removal unit 500 is moved up and down linearly.

Hereinafter, the operation of the present embodiment and the unique effects generated in the process will be described.

First, as shown in FIG. 2, outside air is introduced into the first space part 112 of the dust collecting case 100 through the air inlet 120, and then dust included in the air while passing through each filter part 300. After the filter is filtered through the filter 320 is introduced into the second space portion 114 through the through hole 252 of the diaphragm 250 and then discharged to the outside through the air outlet 130.

When this process is repeated and the amount of dust deposited on the filter member 320 becomes more than an appropriate level, a dust removing operation is performed to shake off the dust from the filter member 320.

Dust removal operation is first, as shown in [Fig. 2] and [Fig. 5] and [Fig. 8] when each of the transfer motor 510 is operated, each of the upper rotary shaft 520 of the first and second transfer unit (500A) (500B) at the same time Due to this rotation, the linear movement unit 530 is also rotated, so that each lower axis of rotation is also rotated at the same time.

As the linear movement unit 530 is rotated as described above, the installation main body 410 connected thereto is raised in the state surrounding the filter unit 400 as shown in FIG. 8.

In this process, the rotating member 440 is rotated by the motor 430, thereby brushing out dust deposited on the filter member 320 as each brush 450 is rotated as shown in FIG. 7.

When the installation unit 410 is raised to the top of the filter unit 300 and the conveying unit 500 is driven in the opposite direction, the entire dust removing unit 400 is lowered down and the brush 450 and the filter member 320 are lowered. Dust removal by the contact between the two proceeds.

As the vertical movement of the installation main body 410 is repeated as described above, dust is continuously shaken off from the filter member 320.

As described above, since the brush 450 sweeps the dust out in the form of directly sweeping the surface of the filter member 320, the dust removal efficiency is improved compared to the non-contact method such as the conventional air spraying method.

When the driving motor 210 of the vibration generating unit 200 is operated as shown in FIGS. 3 and 4 in the dust removing process of the brush 450, the driving cam 220 is eccentrically rotated at regular intervals. By pressing the diaphragm 250.

As the diaphragm 250 is pressed, the elastic member 240 is also pressed together, and as soon as the contact between the diaphragm 250 and the driving cam 220 is released, the pressure plate 250 is lifted up by the elastic force of the elastic member 240. .

At this time, since the upper end of the filter unit 300 is suspended on the pressure plate, the filter unit 300 is also moved up and down together during the vertical movement of the diaphragm.

As this process is repeated very quickly, each filter unit 300 is also moved up and down quickly to generate vibrations in the form of vibrations as a whole.

Due to the vibration of the filter unit 300, the dust on the filter member 320 is dropped. That is, as the shaking phenomenon of the filter unit 300 is combined in the process of removing the dust by the dust removing unit 400 described above, the removal efficiency of the dust on the filter unit 300 is further increased.

For reference, since the vibration generating unit 200 is an additional configuration for further improving the dust removing efficiency, the vibration generating unit 200 is determined to be able to obtain sufficient dust removing efficiency only by removing the dust by the brush 450. May be omitted.

On the contrary, if sufficient dust removal efficiency can be obtained only by the vibration of the filter unit 300 by the vibration generating unit 200, the dust removing unit 400 including the brush 320 is omitted and the vibration generating unit 200 is dust removed. Can be used as a means.

In addition, the structure of the dust removing unit 400 may also be variously modified. For example, the brush 450 without the driving motor may be implemented as a structure that is simply fixed to the rotating member 440. In this case, the rotating member 440 also does not have a separate rotating function.

In addition, as shown in FIG. 9, the brush 450 may be directly attached to the installation body 410 without the driving motor and the rotating member.

In addition, the structure of the transfer unit 500 may be modified in various forms, for example, the rotation unit 520 as the pinion gear 550 rotated by the transfer motor 510 and the transfer motor 510 as shown in FIG. 10. The linear movement unit 530 may be implemented as a rack gear.

In this case, the rack gear 530 is fixed in position and the pinion gear 550 and the transfer motor 510 are installed in the installation main body 410, etc. are configured to move up and down along the installation main body 410.

As the pinion gear 550 is engaged with the rack gear 530 in this manner, the pinion gear 550 is rotated by the operation of the transfer motor 510 and moved along the longitudinal direction of the rack gear 530. The entire dust removal unit 400 including the installation main body 410 is raised.

And when the pinion gear 550 is rotated in reverse, the dust removing unit 400 is also moved downward.

Thus, when the transfer part 500 is applied in the form of a rack and pinion, there is an advantage that the overall structure is simplified compared to the rotating shaft, the sprocket and the chain form.

In addition, the structure of the vibration generating unit 200 may also be modified into a structure in which a hydraulic or pneumatic cylinder is applied instead of the driving motor 510 and the cylinder rod is directly connected to the diaphragm 250 to move the diaphragm 250 up and down.

Various embodiments of the present invention described above may be variously modified and combined by those skilled in the art, but the brush is installed on the installation body in which the deformation and the combination is moved up and down and the brush body in the vertical movement of the installation body If it is related to the configuration to remove the dust in the form of sweeping or to remove the dust by applying vibration to the filter unit through a separate vibration generating unit should be determined to fall within the protection scope of the present invention.

100: dust collecting case 110: accommodation space
112: first space 114: second space
120: air inlet 130: air outlet
200: vibration generating unit 210: drive motor
220: drive cam 230: fixed plate
240: elastic member 250: diaphragm
252: through hole 300: filter
310: filter case 320: filter member
400: dust removal unit 410: installation body
420: support plate 422: through hole
430: motor 440: rotating member
450: brush 500: transfer unit
510: transfer motor 520: rotating part
522: rotating shaft 524: sprocket
530: linear moving part 540: belt
550: Rack Gear

Claims (8)

The dust collecting case is formed in the receiving space and the air inlet and the air outlet is formed on the side,
A filter unit installed between the air inlet and the air outlet of the accommodation space to attach dust in the accommodation space to a surface; and
Vibration generating unit which is installed in the dust collecting case is connected to the vibration supply unit for generating a vibration itself and the filter unit and the vibration transmission unit is changed in position by the vibration of the vibration supply unit,
A hole into which the filter unit can be inserted is formed, and the dust is attached to the filter unit while removing the dust attached to the filter unit while rotating with an installation body having an upper surface of the installation main body formed in a plane of a predetermined width or more around the hole and a motor generating rotational force. A dust removal part including a rotating member connected to a brush and a rotating shaft of the motor, the rotating member transmitting rotational force to the brush, and a circularly arranged around the hole on the upper surface of the installation main body, and a supporting plate supporting the rotating member. , And
Dust collecting device for removing the dust of the filter unit by the friction force of the brush that rotates with vibration, including a transfer unit connected to the installation main body for transporting the installation main body in the longitudinal direction of the filter unit. In claim 1,
The vibration supply unit,
A rotary cam connected to the motor and the motor shaft so as to be eccentrically rotated,
The vibration transmission unit,
The filter unit is connected and the rotary cam is in contact with the vibration plate is changed in position by the rotation of the rotary cam, a fixed plate positioned at intervals with the vibration plate, and an elastic member positioned between the fixed plate and the vibration plate
Dust collector. delete delete In claim 1,
The transfer unit
Transfer motor,
A rotating part connected to the transfer motor and rotating;
One side is connected to the rotating part and the other side is connected to the installation main body includes a straight line moving up and down linearly by the rotation of the rotating part
Dust collector. The method of claim 5,
The rotating part includes a rotating shaft connected to the transfer motor and a sprocket installed on the rotating shaft,
The linear moving part includes a chain one side is connected to the sprocket and the other side is connected to the installation main body is moved up and down by the rotation of the sprocket
Dust collector. delete delete

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