KR101813941B1 - Exhaust apparatus with damper - Google Patents

Abstract

Disclosed is an exhaust apparatus with a damper unit. According to the present invention, the exhaust apparatus with a damper unit comprises: an exhaust duct which is installed on a ceiling, and guides harmful materials such as gas and dust by a prescribed suction force generated by an operation of an exhaust fan to discharge the harmful materials; a harmful material suction pipe which includes a corrugated pipe connected to the exhaust duct and arranged to adjust a height, and sucks harmful materials such as gas and dust which are coupled to an end of the corrugated pipe and are harmful to a human body; and a damper unit coupled to open and close the interior of the harmful material suction pipe, and rotated by an operation of a user to adjust an opening range of the harmful material suction pipe. According to the present invention, a structure of the damper unit capable of freely adjusting the opening range of the harmful material suction pipe is provided to secure a suction force capable of flexible response in accordance with an amount of harmful materials produced in various laboratories, work places or restaurants and improve suction efficiency per unit time.

Description

[0001] EXHAUST APPARATUS WITH DAMPER [0002]

The present invention relates to an exhaust device having a damper portion, and more particularly, to an exhaust device having a damper portion capable of sucking gas and dust harmful to human bodies generated in various laboratories, laboratories, workplaces, restaurants, To an exhaust device having a damper portion.

In general, in laboratories, laboratories, workplaces or restaurants handling various kinds of harmful chemical substances, harmful substances such as gas and dust which are harmful to the human body are constantly generated in the experiment or cooking process of food, But also pollutes the indoor environment.

Accordingly, in a place where harmful substances such as gas and dust are constantly generated, such as a laboratory, a laboratory, a workplace, or a restaurant, an exhaust system including an exhaust duct is provided so that a comfortable working environment can be maintained while intoxicating harmful substances. Respectively.

In the conventional exhaust device, an exhaust duct for forcibly sucking in the air around the ceiling of the room and discharging it to the outside is installed together with the pipe, and on the upper side of various tables for experimenting, research, A gas suction pipe for introducing air into the exhaust duct after intensively sucking the air is installed.

In order to make the lower end of the gas suction pipe installed on the upper side of the various tables be adjustable in height with respect to the table, a lift table is provided in the section where the exhaust duct and the gas suction pipe are connected or the gas suction pipe itself.

The reason why the above-mentioned gas suction pipe is provided with a lift device for adjusting the height is that the degree of harmful substances generated from an object to be tested or a cooking object during an experiment or cooking in a laboratory, a laboratory, a workshop or a restaurant handling various harmful chemicals The height of the gas suction pipe is appropriately adjusted in accordance with the height of the gas suction pipe, so that harmful substances can be intensively and smoothly sucked.

However, since such a conventional exhaust apparatus adopts a structure in which the lower portion of the gas suction pipe for always inhaling harmful substances occurring at the time of experiment, research, work, or cooking of food is always open, There is a structural disadvantage that it is inevitable to generate a constant suction power.

That is, regardless of the amount of the harmful substances generated, only a constant suction force is always provided. In particular, in the case where a large amount of harmful substances are generated, rapid evacuation can not be achieved.

Korean Registered Patent No. 10-1606849 (Registration date: March 22, 2016) Korean Registered Patent No. 10-0903975 (Registered Date: June 15, 2009)

An object of the present invention is to provide an exhaust apparatus having a damper unit capable of elastically adjusting a suction force in response to an amount of a harmful substance generated when exhausting gas and dust harmful to the human body generated in various laboratories, laboratories, workplaces or restaurants .

Another object of the present invention is to provide an exhaust device having a damper portion capable of generating a strong suction force irrespective of the amount of harmful substances generated during experiments or cooking food.

Another object of the present invention is to provide an exhaust device having a damper portion that can be opened and closed automatically by the influence of a heat source provided during experiments or cooking of food to absorb harmful substances.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not intended to limit the invention to the precise form disclosed. There will be.

An exhaust duct installed in a ceiling and adapted to guide and exhaust harmful substances such as gas and dust by a constant suction force generated according to the operation of the exhaust fan; And a harmful substance intake pipe connected to the end of the corrugated pipe and adapted to suck in harmful substances such as gas and dust generated during an experiment or cooking process, and a harmful substance suction pipe connected to the exhaust duct, And a damper part coupled to open and close the inside of the material suction pipe and rotated according to a user's operation to adjust the opening range of the harmful material suction pipe.

Wherein the damper portion includes a first opening and closing member formed to open and close a half region of the entire interior region of the harmful substance suction pipe and having a first gear formed therein; A second opening and closing member interlocked with the first opening and closing member and configured to open and close the other half region of the harmful substance suction pipe, and to have a second gear engaged with the first gear; And a handle disposed outside the harmful substance suction pipe and connected to the first opening and closing member, the handle being configured to be held by the user for rotating the first opening and closing member and the second opening and closing member.

Wherein the damper suction pipe includes protrusions protruding along an inner surface of the damper to close the first opening and closing member and the second opening and closing member when the damper unit is closed and the damper unit is disposed between the protrusion, And a hermetic member for holding the airtightness between the two opening and closing members.

According to another aspect of the present invention, there is provided an exhaust duct comprising: an exhaust duct installed in a ceiling to guide and exhaust harmful substances such as gas and dust by a constant suction force generated according to an operation of an exhaust fan; And a harmful substance intake pipe connected to the end of the corrugated pipe and adapted to suck in harmful substances such as gas and dust generated during an experiment or cooking process, and a harmful substance suction pipe connected to the exhaust duct, And a damper unit coupled to open and close the inside of the material suction pipe and rotated by a predetermined angle according to a user's operation to partially open the harmful substance suction pipe.

Wherein the damper portion includes an elastic plate disposed at the center of the inside of the harmful substance suction pipe and a pair of open / close plates formed on both sides of the elastic plate, and the open / An opening / closing member that is slidably guided and rotated at a predetermined angle to partially open the toxic substance suction pipe; And a rotary shaft connected to the handle and connected to the noxious substance suction pipe so as to be disposed on a bottom surface of the elastic plate and formed with a protruding cam, And the protruding cam has a user operating member for transmitting an external force to the elastic piece.

The guide shaft is a pair of guide shafts which are inserted through the harmful substance suction pipe so as to be parallel to the rotation axis, and guide openings are formed in the opening and closing plate in the longitudinal direction so as to be slidably guided along the guide shafts.

Wherein the damper suction pipe includes a protrusion formed to protrude along the inner surface so as to be in close contact with the opening / closing plate when the damper unit is closed, and the damper unit further comprises a hermetic member for holding the airtightness between the protrusion and the opening / .

According to another aspect of the present invention, there is provided an air conditioner comprising: an exhaust duct installed in a ceiling to guide and exhaust harmful substances such as gas and dust by a constant suction force generated according to an operation of an exhaust fan; And a harmful substance intake pipe connected to the end of the corrugated pipe and adapted to suck in harmful substances such as gas and dust generated during an experiment or cooking process, and a harmful substance suction pipe connected to the exhaust duct, And a damper unit coupled to open and close the inside of the material suction pipe and provided so as to be automatically opened and closed by the influence of a heat source provided during experiments or cooking.

Wherein the damper portion includes: a first opening and closing member formed to open and close a half region of the entire interior region of the harmful-substance suction pipe; A second opening and closing member hinged to the first opening and closing member and configured to open and close the other half region of the toxic substance intake pipe; And a second opening and closing member connected to the second opening and closing member so as to connect the first opening and closing member and the second opening and closing member. The first opening and closing member and the second opening and closing member are rotated by the heat source provided during the experiment or cooking, And a memory spring which is operated to rotate the first opening and closing member and the second opening and closing member in the closing direction.

Wherein a groove having a predetermined length in a diagonal direction is formed on the bottom surface of the first opening and closing member and the second opening and closing member with reference to a boundary portion between the first opening and closing member and the second opening and closing member and the memory spring is accommodated in the groove.

Wherein the damper suction pipe includes a protrusion protruding along an inner surface of the damper to close the first opening and closing member and the second opening and closing member when the damper unit is closed, And a hermetic member for holding the airtightness between the two opening and closing members.

The memory spring is characterized by being formed of a shape memory alloy.

According to the present invention, by providing the structure of the damper unit capable of freely adjusting the opening range of the harmful substance suction pipe, it is possible to provide a suction force capable of flexibly responding to the amount of generation of harmful substances in various laboratories, laboratories, workplaces or restaurants, And the like.

1 is a perspective view showing an exhaust apparatus having a damper unit according to a first embodiment of the present invention.
Fig. 2 is a sectional view showing the inside of the exhaust device having the damper portion shown in Fig. 1. Fig.
3 is a perspective view showing the damper unit shown in FIG. 2. FIG.
4 is a sectional view showing the configuration of an exhaust apparatus having a damper unit according to a second embodiment of the present invention.
5 is a cross-sectional view showing the opening and closing operation state of the exhaust device having the damper portion shown in Fig.
6 is a cross-sectional view showing an exhaust apparatus having a damper unit according to a third embodiment of the present invention.
7 is a perspective view showing a bottom surface of the damper portion shown in Fig.
8 is a bottom view showing the damper unit shown in Fig.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, the well-known functions or constructions will not be described in order to simplify the gist of the present invention.

1st Example

FIG. 1 is a perspective view showing an exhaust apparatus having a damper unit according to a first embodiment of the present invention, FIG. 2 is a sectional view showing the interior of an exhaust apparatus having the damper unit shown in FIG. 1, and FIG. 3 is a cross- Fig.

1 to 3, the exhaust device having the damper unit according to the first embodiment of the present invention includes an exhaust duct (not shown), a corrugated pipe 100, a harmful substance suction pipe 200, And a damper unit 300.

In the present embodiment, the exhaust duct is provided to guide and exhaust harmful substances such as various gases and dust which are installed on the ceiling and are harmful to the human body by a constant suction force generated by the operation of an exhaust fan (not shown in the drawing) The exhaust duct 100 and the bellows pipe 100 are connected to the exhaust duct and are adjustable in height and height with respect to a table (not shown) used for experiments or cooking by an elevating device (not shown) Since it is a well-known construction widely practiced by a person skilled in the art in the field of the hood system or the exhaust system before the invention of the invention, a description thereof will be omitted.

The harmful substance suction pipe 200 is formed of a cylindrical body and is adapted to be coupled to an end of the corrugated pipe 100. At this time, the harmful substance suction pipe 200 may be coupled to the end of the corrugated pipe 100 through a bolt, or may be coupled to the end of the corrugated pipe 100 by interference fit. The harmful substance suction pipe 200 plays a role of intensively sucking harmful substances such as gas and dust which are harmful to the human body during experiments and cooking in various laboratories, laboratories, workplaces or restaurants.

In addition, a protruding portion 210 protruding horizontally with a predetermined length toward the center along the inner surface is formed in the inside of the harmful substance suction pipe 200. The protrusion 210 is for the first opening and closing member 310 and the second opening and closing member 320 provided in the damper unit 300 to be in close contact with each other.

That is, when the first opening and closing member 310 and the second opening and closing member 320 of the damper unit 300 are in close contact with the protrusion 210, the harmful substance suction pipe 200 is kept closed.

The damper unit 300 includes a first opening and closing member 310, a second opening and closing member 320, and a handle 330. The first opening and closing member 310 and the handle 330 are provided to open and close the inside of the harmful substance suction pipe 200.

The first opening and closing member 310 is formed so as to open and close a half region of the entire interior region of the harmful substance suction pipe 200. That is, the first opening and closing member 310 is formed of a semicircular disc and is rotatably coupled to the harmful substance suction pipe 200. The first opening and closing member 310 has a first gear 312 formed on one side adjacent to the second opening and closing member 320.

The second opening and closing member 320 is formed to open and close the other half region of the harmful substance suction pipe 200. That is, the second opening and closing member 320 is formed of a semicircular disc and is rotatably coupled to the harmful substance suction pipe 200 so as to correspond to the first opening and closing member 310. Further, the second opening and closing member 320 is formed with a second gear 322 engaged with the first gear 312. Accordingly, the second opening and closing member 320 can be interlocked when the first opening and closing member 310 is opened and closed.

2, the first opening and closing member 310 and the second opening and closing member 320 are connected and rotated by the first gear 312 and the second gear 322, The opening range of the harmful-substance suction pipe 200 can be flexibly adjusted during the rotation operation of the harmful-substance suction pipe 330.

That is, when the amount of harmful substances generated during the experiment or the cooking process is small, the first opening and closing member 310 and the second opening and closing member 320 are completely opened, and the harmful substance can be sucked by the constant suction force of the exhaust fan .

Alternatively, when the amount of the harmful substance generated is large, the first and the second opening and closing members 310 and 320 may be opened intermediate to generate a suction force higher than the suction force of the exhaust fan in the damper unit 300, As shown in Fig.

The handle 330 is coupled to the outside of the toxic substance intake pipe 200 to be connected to the first opening and closing member 310. The handle 330 is for allowing the user to hold the first opening and closing member 310 and the second opening and closing member 320 to rotate. That is, the user rotates the first opening and closing member 310 and the second opening and closing member 320 according to the rotation operation of the handle 330, thereby opening and closing the harmful substance suction pipe 200.

The damper unit 300 further includes a hermetic member 340 to maintain the airtightness between the protrusion 210 provided in the harmful substance suction pipe 200 and the first and second openable and closable members 310 and 320 . To this end, the airtight member 340 is formed in a ring shape and is coupled to the upper surfaces of the first opening and closing member 310 and the second opening and closing member 320. At this time, the hermetic member 340 may be formed of any one material selected from rubber, silicone, and urethane excellent in elasticity. The hermetic member 340 maintains airtightness between the protrusion 210 and the first and second openable and closable members 310 and 320 when the damper unit 300 is closed, 200 can be maintained in a completely closed state.

The exhaust device having the damper portion of this embodiment configured as described above is configured such that the first opening and closing member 310 and the second opening and closing member 320 are rotated so as to mesh with each other by the first gear 312 and the second gear 322, The structure of the damper unit 300 that opens and closes the material suction pipe 200 freely adjusts the opening range of the harmful material suction pipe 200 to thereby flexibly adjust the opening range of the harmful material suction pipe 200 according to the amount of harmful substances generated in various laboratories, It is possible to improve the suction efficiency per unit time while ensuring a corresponding suction force.

Second Example

FIG. 4 is a cross-sectional view showing the configuration of an exhaust apparatus having a damper unit according to a second embodiment of the present invention, and FIG. 5 is a sectional view showing an operational state of an exhaust apparatus having the damper unit shown in FIG.

As shown in Figs. 4 and 5, the exhaust device having the damper portion according to the second embodiment of the present invention differs from the first embodiment in that the structure of the damper portion 400 shown in this embodiment is the same as that of the first embodiment The damper unit 300 has a structure different from that of the damper unit 300, and the remaining structure is the same as that of the first embodiment.

That is, the damper unit 400 of the present embodiment is rotated to rotate at a predetermined angle according to the user's operation and partially opens the toxic substance suction pipe 200, and includes the opening and closing member 410 and the user operation member 420 do.

The opening and closing member 410 is composed of an elastic plate 412 disposed at the center of the inside of the harmful substance suction pipe 200 and a pair of opening and closing plates 414 formed on both sides of the elastic plate 412. The opening and closing member 410 is slidably guided along the guide shaft 416 by an external force acting on the elastic plate 412 to open a part of the harmful substance suction pipe 200 at a predetermined angle And has a structure rotated. At this time, the angle of the opening / closing plate 414 is maintained at about 40 to 50 degrees with respect to the horizontal.

The guide shaft 416 is formed of a pair which is coupled through the harmful substance suction pipe 200 so as to be in parallel with the rotation axis 424 provided in the user operation member 420. The guide shaft 416 is provided with a guide shaft 416, A guide slot 415 is formed in the longitudinal direction so as to be slidably guided along the guide slot 415. Accordingly, the opening / closing plate 414 can be rotated around the guide shaft 416 by the guide slot 415 and rotated at a predetermined angle.

5, the opening / closing plate 414 is guided by the guide elongated hole 415 in accordance with the elastic deformation of the elastic plate 412 to which the external force of the protruding cam 425 provided on the rotating shaft 424 acts, So that the harmful substance suction pipe 200 can be partly opened by being rotated at a predetermined angle while being guided along the axis 416.

Accordingly, the harmful substance suction pipe 200 secures a suction force higher than the suction force of the exhaust fan by the structure of the damper part 400 that opens a part of the opening / closing plate 414, thereby allowing the harmful substance to be sucked in quickly will be.

The user manipulation member 420 has a handle 422 coupled to the outside of the harmful substance suction pipe 200 and a handle 422 connected to the handle 422 and penetrating the harmful substance suction pipe 200 to be disposed on the bottom surface of the elastic plate 412 And a rotation shaft 424 to which the protruding cam 425 is formed. The user manipulation member 420 has a structure in which the projecting cam 425 transmits an external force to the elastic piece 412 when the handle 422 is rotated.

The damper unit 400 further includes a hermetic member 430 to maintain the airtightness between the projection 210 and the opening and closing plate 414 provided in the harmful material suction pipe 200. To this end, the airtight member 430 is formed in a ring shape and is coupled to the upper surface of the opening / closing plate 414. [ At this time, the hermetic member 430 may be formed of any one material selected from rubber, silicone, and urethane excellent in elasticity. This hermetic member 430 maintains the airtightness between the protrusion 210 and the opening and closing plate 414 when the damper unit 400 is closed and thus the harmful substance suction pipe 200 is maintained in a completely closed state do.

The exhaust device having the damper portion having such a structure provides a damper portion 400 having a structure capable of partially opening the harmful substance suction pipe 200 according to the organic coupling structure of the opening and closing member 410 and the user operation member 420 So that it is possible to generate a suction force higher than the suction force of the exhaust fan in the harmful substance suction pipe 200 when the harmful substance is inhaled.

Third Example

7 is a perspective view showing the bottom surface of the damper unit shown in Fig. 6, Fig. 8 is a side view showing the damper unit shown in Fig. 7, and Fig. .

As shown in Figs. 6 to 8, the exhaust device having the damper portion according to the third embodiment of the present invention has the structure of the damper portion 500 shown in this embodiment shown in the first embodiment The damper unit 300 has a structure different from that of the damper unit 300, and the remaining structure is the same as that of the first embodiment.

That is, the damper unit 500 of the present embodiment is automatically rotated by the influence of the heat source provided at the time of experiment or cooking to be opened and closed. The damper unit 500 includes a first opening and closing member 510, a second opening and closing member 520, And a memory spring 540.

The first opening and closing member 510 is formed so as to open and close a half region of the entire interior region of the harmful substance suction pipe 200. That is, the first opening and closing member 510 is formed of a semicircular disc and is rotatably coupled to the harmful substance suction pipe 200.

The second opening and closing member 520 is formed to open and close the other half region of the harmful substance suction pipe 200. That is, the second opening / closing member 520 is formed as a semicircular disk and hinged to correspond to the first opening / closing member 510.

The damper unit 500 is formed with a groove 530 having a predetermined length in the oblique direction on the bottom surface of the boundary between the first opening and closing member 520 and the second opening and closing member 520. The groove 530 provides a space in which the memory spring 540 is received.

The reason why the groove 530 is formed in the oblique direction on the bottom surfaces of the first opening and closing member 510 and the second opening and closing member 520 is that the shrinkage of the memory spring 540 during opening and closing operations of the harmful substance suction pipe 200, So as to provide sufficient space for restoration.

When the memory spring 540 is received in the groove 530, the first opening and closing member 510 and the second opening and closing member 520 can be brought into close contact with each other .

The memory spring 540 is formed of a coil spring and is coupled to connect the first opening and closing member 510 and the second opening and closing member 520 to each other. The memory spring 540 is contracted by the influence of the heat source provided in the experiment or cooking process to rotate the first and second openable and closable members 510 and 520 in the opening direction, 1 closing member 510 and the second opening and closing member 520 in the closing direction. The first opening and closing member 510 and the second opening and closing member 520 can automatically open and close the harmful substance suction pipe 200 according to the contraction and restoration operation of the memory spring 540.

To this end, the memory spring 540 is formed of a shape memory alloy that shrinks when a heat source of a certain temperature is applied and is restored when the heat source disappears.

That is, in a state where the harmful substance suction pipe 200 is closed by the first opening and closing member 510 and the second opening and closing member 520, the memory spring 540 is contracted when the heat source operates, And the second opening and closing member 520 are rotated in the opening direction, whereby the harmful substance suction pipe 200 can be automatically opened.

The memory spring 540 is restored upon the disappearance of the heat source to rotate the first opening and closing member 510 and the second opening and closing member 520 in the closing direction so that the harmful substance suction pipe 200 is automatically closed It will be possible.

Here, the memory spring 540 is made of a shape memory alloy and is contracted or restored according to the action of a heat source. Since such a memory spring 540 is widely practiced by those skilled in the art in various industrial fields before filing of the present invention, A description thereof will be omitted.

The damper unit 500 further includes a hermetic member 550 to maintain the airtightness between the protrusion 210 provided in the harmful substance suction pipe 200 and the first and second openable and closable members 510 and 520 . To this end, the airtight member 550 is formed in a ring shape and is coupled to the upper surface of the first opening and closing member 510 and the second opening and closing member 520. At this time, the hermetic member 550 may be formed of any one material selected from rubber, silicone, and urethane excellent in elasticity. The hermetic member 550 maintains the airtightness between the protrusion 210 and the first and second openable and closable members 510 and 520 when the damper unit 500 is closed, 200 can be maintained in a completely closed state.

The exhaust device having the damper portion configured as described above is configured to automatically rotate the first opening and closing member 510 and the second opening and closing member 520 in the opening or closing direction by the memory spring 540 operated to be retracted and restored by the heat source It is possible to ensure convenience in opening and closing the harmful substance suction pipe 200 by providing the damper portion 500 of the structure.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious to those who have. Accordingly, such modifications or variations should not be individually understood from the technical spirit and viewpoint of the present invention, and modified embodiments should be included in the claims of the present invention.

100: corrugated tube
200: Harmful substance suction pipe
210:
300: damper portion
310: first opening and closing member 312: first gear
320: second opening / closing member 322: second gear
330: handle 340: sealing member

Claims (12)

delete delete delete An exhaust duct installed in the ceiling and adapted to guide and exhaust harmful substances such as gas and dust by a constant suction force generated according to the operation of the exhaust fan; And a harmful substance intake pipe connected to the end of the corrugated pipe and adapted to suck in harmful substances such as gas and dust generated during an experiment or cooking process, and a harmful substance suction pipe connected to the exhaust duct, And a damper part coupled to open and close the inside of the material suction pipe and rotated to rotate at a predetermined angle according to a user's operation so as to partially open the harmful substance suction pipe,
In the damper portion,
And a pair of open / close plates formed on both sides of the elastic plate, wherein the open / close plate is slidably guided along the guide shaft by an external force acting on the elastic plate, An opening / closing member rotated at a predetermined angle to partially open the harmful substance suction pipe; And
A handle coupled to the outside of the harmful substance suction pipe, and a rotary shaft connected to the handle and coupled to the noxious substance suction pipe so as to be disposed on the bottom surface of the elastic plate and having a protruding cam, Wherein the projecting cam includes a user operating member for transmitting an external force to the elastic plate,
Wherein the guide shaft is a pair of guide shafts penetrating through the harmful substance suction pipe so as to be parallel to the rotation axis,
A guide slot is formed in the opening / closing plate in the longitudinal direction so as to be slidably guided along the guide shaft,
And the opening / closing plate is rotated about the guide shaft while sliding along the guide shaft as the elastic plate is elastically deformed by the projecting cam. delete delete 5. The method of claim 4,
The harmful substance suction pipe
And a protrusion protruding along the inner surface so as to be in close contact with the opening / closing plate when the damper unit is closed,
In the damper portion,
Further comprising a hermetic member for maintaining airtightness between the protruding portion and the opening / closing plate. delete delete delete delete delete

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