KR20230063124A - Double flap damper - Google Patents

Abstract

The present invention relates to a double flap damper.
A double flap damper according to an embodiment of the present invention includes a main body having upper and lower sides open, an upper end connected to a lower part of a dust collector, and dust flowing from the dust collector; a first flap closing the upper side of the main body; a first driving unit opening and closing the upper side of the main body by moving the first flap; a lower closing portion closing the lower side of the main body; a second driving unit which rotates and moves the lower closing unit to open and close the lower side of the main body; and a discharge chamber installed at a lower end of the main body, disposed on an upper side of the inner portion of the lower closing part, and installed at a side of the second driving part, in which dust introduced into the main body is discharged.

Description

Double flap damper {Double flap damper}

The present invention relates to a double flap damper.

In general, exhaust gas containing dust and impurities of various harmful substances is generated in a workplace of various manufacturing industries such as semiconductor and LCD processes.

Since these exhaust gases are suffocating, retardant, flammable, explosive, toxic and corrosive, they are not only harmful to the human body, but also cause environmental pollution when released into the atmosphere. Dust collection and treatment and purification and treatment processes that lower the concentration below the permissible concentration are absolutely necessary.

In addition, fine particles are included in exhaust gas discharged from a workplace such as a semiconductor process, and these fine particles must be removed so that they are not discharged into the atmosphere.

As a prior art to solve this problem, there is Patent Publication No. 2017-0073453 'Hazardous Dust Enclosed Transport and Packaging System'.

The prior art proposes a sealed transport and packaging system capable of transporting harmful dust generated in a workplace and harmful gases contained therein to an automatic packaging and treatment unit so that they do not leak to the outside.

The 'dust' treatment system that collects and treats these harmful dusts transfers the 'dust' collected from the 'dust collector' to the 'dust container' and then inhales it from the 'dust' packaging machine to treat it. A damper is installed.

At this time, the damper device can prevent leakage of the dust collected by the dust collector when the shutter plate is completely adhered to the rim of the discharge port of the dust collector to maintain airtightness.

However, in the prior art, there are often cases in which air gaps occur between the shutter plate and the rim of the discharge port due to processing errors or installation errors between the rim of the "dust collector" outlet and the shutter plate, and in this case, "dust" leaks There is a problem.

It was devised based on the technical background as described above, and one embodiment of the present invention is to provide a double flap damper capable of preventing leakage of dust.

In order to achieve the above object, a double flap damper according to an embodiment of the present invention includes a main body having upper and lower sides open, an upper end connected to a lower part of a dust collector, and dust flowing from the dust collector; a first flap closing the upper side of the main body; a first driving unit opening and closing the upper side of the main body by moving the first flap; a lower closing portion closing the lower side of the main body; a second driving unit which rotates and moves the lower closing unit to open and close the lower side of the main body; and a discharge chamber installed at a lower end of the main body, disposed on an upper side of the inner portion of the lower closing part, and installed at a side of the second driving part, in which dust introduced into the main body is discharged.

In addition, an inspection window made of a transparent material may be installed on the side of the main body.

In addition, the first flap may close the upper side of the main body in an inclined state at a predetermined angle.

In addition, an exhaust pipe for relieving negative pressure inside the discharge chamber may be installed at a side of the discharge chamber.

In addition, the discharge chamber has a lower end opened, a storage unit disposed below the discharge chamber and storing dust discharged from the discharge chamber; and a connection portion connecting the storage portion to a lower portion of the discharge chamber.

In addition, a support bracket having at least one through hole is provided on a side of the discharge chamber, and the connection part includes a support bar inserted into the through hole and moved in a left and right direction; a locking band connected to an end of the support bar and provided in a circular band shape with both ends spaced apart from each other and surrounding a side portion of the discharge chamber; a locking ring installed at one end of the locking strap; and a locking member installed at the other end of the locking strap and engaging the locking ring to connect both ends of the locking strap.

In addition, a suction pipe disposed spaced apart from the discharge chamber and having a plurality of suction holes; and a connection pipe having one end connected to the suction pipe and the other end connected to the dust collector and providing a passage through which air sucked into the suction pipe through the suction hole is discharged to the dust collector.

In addition, the lower closing part may include a reference shaft having one side connected to the second driving unit and rotationally moved by the second driving unit; and a second flap connected to the central portion of the lower part of the other side of the reference axis and rotating about the reference axis.

In addition, an upper gasket in close contact with the left edge of the upper portion of the second flap and a lower gasket in close contact with the right edge of the lower portion of the second flap are provided inside the discharge chamber, and the second flap is provided in the main body. When the lower side is closed, the upper gasket may seal the upper left edge of the second flap, and the lower gasket may seal the lower right edge of the second flap.

The double flap damper according to an embodiment of the present invention moves the first flap through the first driving unit and rotates the lower closing unit through the second driving unit to open the upper and lower sides of the main body, thereby discharging dust introduced from the dust collector into the discharge chamber. and by moving the first flap through the first driving unit to close the upper side of the main body, there is an effect of preventing dust introduced into the main body from leaking into the dust collector.

The double flap damper according to an embodiment of the present invention can easily attach and detach the storage unit for storing dust discharged from the discharge chamber from the discharge chamber through the connecting portion, thereby improving the efficiency of the dust treatment operation.

1 is a perspective view showing a double flap damper according to an embodiment of the present invention.
2 is a cross-sectional view showing a double flap damper according to an embodiment of the present invention.
3 is a left side view showing a double flap damper according to an embodiment of the present invention.
4 is a right side view showing a double flap damper according to an embodiment of the present invention.
5 is a bottom view showing a double flap damper according to an embodiment of the present invention.
6 is a perspective view showing a lower closing portion of a double flap damper according to an embodiment of the present invention.
7 is a perspective view showing an operating state of a lower closing part of a double flap damper according to an embodiment of the present invention.
8 is a perspective view showing an operating state of a lower closing part of a double flap damper according to an embodiment of the present invention.
9 shows a connection part of a double flap damper according to an embodiment of the present invention.
10 shows a connection part of a double flap damper according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those skilled in the art can easily carry out the present invention. This invention may be embodied in many different forms and is not limited to the embodiments set forth herein. In order to clearly describe the present invention in the drawings, parts irrelevant to the description are omitted, and the same reference numerals are assigned to the same or similar components throughout the specification.

In this specification, terms such as "include" or "have" are intended to designate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, but one or more other features It should be understood that it does not preclude the possibility of the presence or addition of numbers, steps, operations, components, parts, or combinations thereof.

The double flap damper 10 according to an embodiment of the present invention is installed under a dust collector (not shown), and dust may be introduced from the dust collector (not shown).

1 to 10, the double flap damper 10 according to an embodiment of the present invention includes a main body 100, a first flap 200, a first driving unit 300, a lower closing unit 400 ), the second driving unit 500, and the discharge chamber 600 may be included.

The main body 100 has upper and lower sides open, and an upper end portion may be connected to a lower portion of a dust collector (not shown). Also, dust may be introduced into the main body 100 from a dust collector (not shown). In addition, the main body 100 may be provided in the form of a hollow tube. In addition, an inspection window 110 made of a transparent material may be installed on the side of the main body 100 . Accordingly, the operator can inspect the inside of the main body 100 through the inspection window 110 .

The first flap 200 may close the upper side of the main body 100 . Also, the first flap 200 may be rotated based on a driving shaft installed in the main body 100 . In addition, the first flap 200 may close the upper side of the main body 100 in a state where the predetermined angle is inclined. Therefore, the dust of the dust collector (not shown) may be collected in the lower part of the upper part of the first flap 200, and when the first flap 200 is rotated and the upper side of the main body 100 is opened, the dust collector (not shown) Of the dust can be easily moved to the inside of the main body (100).

The first driving unit 300 may move the first flap 200 to open and close the upper side of the main body 100 . Also, the first driving unit 300 may be provided as an air cylinder.

The discharge chamber 600 is installed in the lower part of the main body 100, and dust introduced into the main body 100 can be discharged to the inside. In addition, an exhaust pipe 610 may be installed at a side of the discharge chamber 600 to relieve the negative pressure inside the discharge chamber 600 so that dust can be moved from the main body 100 to the discharge chamber 600 .

The lower closing part 400 may close the lower side of the main body 100 .

The second driving unit 500 may rotate and move the lower closing unit 400 to open and close the lower side of the main body 100 . The second driving unit 500 may be provided with an air cylinder or a rotary motor.

Also, the lower closure part 400 may include a reference shaft 410 and a second flap 420 .

One side of the reference shaft 410 is connected to the second driving unit 500 and can be rotated and moved by the second driving unit 500 .

In the second flap 420 , the other side of the reference axis 410 is connected to the central portion of the lower portion and may be rotated about the reference axis 410 .

Accordingly, the lower closing part 400 can be rotated and moved by the second driving part 500 to open and close the lower side of the main body 100 .

And, the lower closing part 400 and the second driving part 500 may be installed on the lower part of the main body 100 or the upper part of the discharge chamber 600 .

In addition, the lower closing part 400 is disposed on the upper side of the inside of the discharge chamber 600, and the second driving unit 500 is preferably installed on the side of the discharge chamber 600.

And, inside the discharge chamber 600, an upper gasket UG adheres to the upper left edge of the second flap 420 and a lower gasket DG adheres to the lower right edge of the second flap 420. this can be provided.

Referring to FIG. 7 , when the second flap 420 closes the lower side of the body 100, the upper gasket UG seals the upper left edge of the second flap 420, and the lower gasket DG The lower right edge of the second flap 420 may be sealed, and the upper gasket UG and the lower gasket DG may allow the second flap 420 to seal the lower side of the main body 100 . Also, the upper gasket UG and the lower gasket DG may support the second flap 420 so that the second flap 420 closes the lower side of the main body 100 .

Referring to FIG. 8 , when the second flap 420 is erected vertically to open the lower side of the main body 100, the upper gasket UG supports the upper left side of the second flap 420 to support the reference axis ( 410) can be prevented from being damaged.

Additionally, the lower end of the discharge chamber 600 may be opened, and a support bracket 620 having at least one through hole may be provided at a side of the discharge chamber 600 . In more detail, the support bracket 620 may be composed of a horizontal plate extending in a horizontal direction from the side of the discharge chamber 600 and a vertical plate extending downward from the bottom of the horizontal plate, and at least one of the vertical plates. More than one through hole may be formed.

In addition, the double flap damper 10 according to an embodiment of the present invention may include a storage unit 700 and a connection unit 800.

The storage unit 700 may be disposed below the discharge chamber 600 and store dust discharged from the discharge chamber 600 . Also, the storage unit 700 may be provided with a plastic bag or the like.

The connection part 800 may connect the storage part 700 to the lower part of the discharge chamber 600 .

Also, the connection unit 800 may include a support bar 810, a locking strap 820, a locking ring 830, and a locking member 840.

The support bar 810 may be inserted into the through hole and moved in the left and right directions, and may be supported by the support bracket 620 . And, the support bar 810 may be provided as a pair.

The locking strap 820 is connected to an end of the support bar 810 and may be provided in a circular belt shape with both ends spaced apart from each other. And, the locking strap 820 may cover the side of the discharge chamber 600 . In addition, the storage unit 700 is disposed on the inner side of the locking strap 820, and the locking strap 820 is in close contact with the side of the discharge chamber 600 by the locking ring 830 and the locking member 840. 700 may be fixed to the discharge chamber 600. Additionally, a rubber pad may be provided on the inner surface of the locking strap 820 . The rubber pad may prevent the storage unit 700 from being separated.

The hook 830 may be installed at one end of the locking strap 820 .

The locking member 840 is installed on the other end of the locking strap 820 and is caught on the locking ring 830 to connect both ends of the locking strap 820 . And, the holding member 840 may be provided with a toggle latch distributed on the market.

Referring to FIG. 9 , the locking member 840 is caught on the locking ring 830 to connect both ends of the locking strap 820 , and referring to FIG. 10 , the locking member 840 is removed from the locking ring 830. The locking band 820 may be opened by being removed. In other words, since the locking strap 820 can be separated from the side of the discharge chamber 600, the operator can easily replace the storage unit 700.

In summary, the operator can easily remove the storage unit 700 from the discharge chamber 600 by removing the locking member 840 from the locking ring 830 and moving the support bar 810 in the left direction. After disposing the upper end of the storage unit 700 to be disposed on the side of the discharge chamber 600, the support bar 810 is moved to the right, and the storage unit 700 is hung by hanging the locking member 840 on the hook 830. It can be fixed to the discharge chamber 600. Accordingly, the dust treatment operation can be easily performed, and the efficiency of the dust treatment operation can be improved.

Additionally, the double flap damper 10 according to one embodiment of the present invention may include a suction pipe (HT) and a connection pipe (YT).

The suction pipe HT is spaced apart from the discharge chamber 600 and a plurality of suction holes HTh may be formed. More specifically, the suction pipe (HT) is provided in a 'c' shape and may be disposed on the lower side of the discharge chamber 600. In addition, the storage unit 700 may be disposed between the suction pipe HT. Also, the suction hole HTh may be formed at a lower portion of the suction pipe HT and spaced apart from each other.

The connection pipe YT may have one end connected to the suction pipe HT and the other end connected to a dust collector (not shown). Also, the connection pipe YT may provide a passage through which air sucked into the suction pipe HT through the suction hole HTh is discharged to a dust collector (not shown).

More specifically, when the connection pipe (YT) is opened, air is sucked into the suction pipe (HT) through the suction hole (HTh), and the air sucked into the suction pipe (HT) passes through the connector pipe (YT) to the dust collector ( not shown).

Accordingly, when the operator replaces the storage unit 700, the operator opens the connection pipe YT to allow air to be sucked into the suction pipe HT, so that when replacing the storage unit 700, the storage unit (700) Even if the dust inside leaks, damage caused by the dust can be prevented by allowing the dust to be sucked into the suction pipe HT.

As a result, the double flap damper 10 according to an embodiment of the present invention moves the first flap 200 through the first driving unit 300 and moves the lower closing part 400 through the second driving unit 500. By opening the upper and lower sides of the main body 100 by rotationally moving, the dust introduced from the dust collector (not shown) is moved to the discharge chamber 600, and the first flap 200 is moved through the first drive unit 300. By closing the upper side of the main body 100, it is possible to prevent dust introduced into the main body 100 from leaking into a dust collector (not shown).

In the double flap damper 10 according to an embodiment of the present invention, the storage unit 700 in which dust discharged from the discharge chamber 600 is stored can be easily attached or detached from the discharge chamber 600 through the connection portion 800 It can improve the efficiency of dust treatment work.

Although the present invention has been described through preferred embodiments as described above, the present invention is not limited thereto and various modifications and variations are possible without departing from the concept and scope of the claims described below. Those working in the technical field to which it belongs will readily understand.

10: Double flap damper
100: main body 110: inspection window
200: first flap 300: first driving unit
400: lower closure 410: reference axis
420: second flap 500: second driving unit
600: discharge chamber 610: exhaust pipe
620: support bracket UG: upper gasket
DG: lower gasket 700: storage
800: connection part 810: support bar
820: locking strap 830: hook
840: holding member HT: suction pipe
HTh: suction hole YT: connector

Claims (9)

a main body with upper and lower sides open, an upper end connected to the lower part of the dust collector, and dust flowing from the dust collector;
a first flap closing the upper side of the main body;
a first driving unit opening and closing the upper side of the main body by moving the first flap;
a lower closing portion closing the lower side of the main body;
a second driving unit which rotates and moves the lower closing unit to open and close the lower side of the main body; and
A double flap damper comprising a discharge chamber installed on a lower end of the main body, the lower closing part disposed on an upper side of the inside, and the second driving part installed on a side part, in which dust introduced into the main body is discharged. According to claim 1,
A double flap damper in which an inspection window made of a transparent material is installed on the side of the main body. According to claim 1,
The first flap is a double flap damper that closes the upper side of the main body in a state where the predetermined angle is inclined. According to claim 1,
A double flap damper having an exhaust pipe installed on the side of the discharge chamber to relieve the negative pressure inside the discharge chamber. According to claim 1,
The discharge chamber has an open lower end,
a storage unit disposed below the discharge chamber and storing dust discharged from the discharge chamber; and
A double flap damper comprising a connection portion connecting the storage portion to a lower portion of the discharge chamber. According to claim 5,
A support bracket having at least one through hole is provided on a side of the discharge chamber,
The connection part,
a support bar inserted into the through hole and moved in a left and right direction;
a locking band connected to an end of the support bar and provided in a circular band shape with both ends spaced apart from each other and surrounding a side portion of the discharge chamber;
a locking ring installed at one end of the locking strap; and
A double flap damper comprising a locking member installed at the other end of the locking strap and hooked on the locking ring to connect both ends of the locking strap. According to claim 5,
a suction pipe disposed spaced apart from the discharge chamber and having a plurality of suction holes; and
A double flap damper comprising a connection pipe having one end connected to the suction pipe and the other end connected to the dust collector and providing a passage so that air sucked into the suction pipe through the suction hole is discharged to the dust collector. According to claim 1,
The lower closure part,
a reference axis having one side connected to the second driving unit and being rotated by the second driving unit; and
A double flap damper comprising a second flap connected to the center of the lower part of the other side of the reference axis and rotating about the reference axis. According to claim 8,
An upper gasket in close contact with the upper left edge of the second flap and a lower gasket in close contact with the lower right edge of the second flap are provided inside the discharge chamber,
When the second flap closes the lower side of the body, the upper gasket seals the upper left edge of the second flap, and the lower gasket seals the lower right edge of the second flap Double flap damper .

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