KR20190102948A - A back draft damper - Google Patents

Abstract

The present invention relates to a damper for preventing backflow. The damper for preventing backflow includes: a hollow body unit having a path; a support bracket crossing the center of the path and connecting two facing points on the inner circumference of the body unit connected to the path; and a pair of blocking plates connected to the inner circumference facing the body unit connected to the support bracket by a hinge to individually open and close the path between the support bracket and the inner circumference of the body unit. A hanging protrusion limiting a movement of the blocking plate is formed on the inner circumference of the body unit. A sealing unit comprising sealing rubber is installed at a part coming into contact with the hanging protrusion and the support bracket on one side of the blocking plate. The sealing with the hanging protrusion is guaranteed, and the phenomenon of backflow can be prevented. Also, the generation of noise can be minimized even when the blocking plate collides with the hanging protrusion by falling and rotating by the weight of the blocking plate.

Description

Backflow Damper {A BACK DRAFT DAMPER}

The present invention relates to a non-return damper, and more particularly, to a non-return damper installed in a ventilation duct and the like to prevent the inflow of outside air.

In general, a range hood and a ventilator are frequently used to ventilate the air inside the building and the living room and the kitchen to the outside air, and the range hood and the ventilator are connected to a duct communicating with the inside and the outside of the building.

Range hoods and fans are installed in various buildings such as apartments, toilets, and restaurants, and emit smells and fine dust inside the buildings to the outside.

On the other hand, since the toilet or kitchen of a common house such as an apartment is connected to each other by a duct, the air discharged by the range hood and the fan from one house may flow into the other house. Odors or dust can get into the other house and hurt your health and cause discomfort.

Accordingly, it is common for the duct to have a backflow prevention damper for preventing backflow.

The conventional non-return damper is composed of a hollow body portion connected to the damper, and a hinged blocking plate for opening and closing the body portion, and is opened by the pressure when the range hood and the fan are operated, and then the range hood and The hollow of the body part was closed by the weight of the blocking plate at the moment of stopping the operation of the fan, and was configured to prevent backflow.

However, in the case of the conventional non-return damper, the sealing flow is not perfect between the blocking plate and the hollow inner surface of the body part, so that the air flow may flow backward when the range hood and the fan are stopped. When air is introduced by the range hood and the ventilator, the blocking plate is lifted from the body part so that the air flow is reversed.

Korean Patent Publication No. 10-2017-0128853 (2017.11.24)

The present invention has been made to solve the above-mentioned problems of the prior art, the object of the invention is to ensure that the sealing between the blocking plate and the hollow body portion is made reliably and there is no lifting phenomenon to prevent the back flow of air back To provide a damper.

In order to achieve the above object, the non-return damper according to the present invention,

A hollow body portion in which a passage is formed;

A support bracket connecting two points that cross the center of the passage and face each other at the inner circumferential surface of the body portion facing the passage; And,

Including a pair of blocking plate hinged to the inner peripheral surface facing the body portion connected to the support bracket for opening and closing the passage between the inner peripheral surface and the support bracket, respectively,

A locking jaw is formed on the inner circumferential surface of the body part to limit movement of the blocking plate, and a sealing part made of a sealing rubber is installed at a portion of the blocking plate that contacts the locking jaw and the support bracket. .

The surface of the sealing part contacting the locking jaw and the support bracket extends along the circumference of the inner circumferential surface of the passage and is characterized in that a plurality of contact protrusions are formed to protrude from the inside of the passage toward the outside.

The blocking plate is characterized by forming an inclination angle with respect to the cross section of the passage.

The locking jaw is formed with an air circulation groove between the inner peripheral surface of the body portion, characterized in that the air circulation groove is exposed by being spaced apart between the outer peripheral surface of the blocking plate and the inner peripheral surface of the body portion.

The bottom of the air circulation groove is characterized in that it is formed in a curved surface.

A plurality of connecting ribs are formed between the locking jaw and the inner circumferential surface to be spaced apart along the circumferential direction of the passage.

The boundary between the locking jaw and the inner circumferential surface of the body portion is characterized in that it is formed of a smooth curved surface.

The support bracket is configured to have a pointed mountain shape toward the inlet side of the passage, wherein the support bracket is formed so that the locking ribs protrude toward the outlet side at the outlet side portion of the passage.

According to the present invention of the configuration as described above, the pair of the barrier plate is configured to rotate the hinge around the support bracket so that the amount of opening of the pair of barrier plate when the pressure is partially different depending on the cross-sectional area of the passage. Since it can be different from each other, a finer flow rate control is possible and a backflow phenomenon can be prevented as compared with a conventional damper having a single block.

In addition, according to the present invention, a locking jaw is formed on the inner circumferential surface of the body portion to limit the movement of the blocking plate, and a sealing portion made of a sealing rubber is installed on a portion of the blocking plate that contacts the locking jaw and the support bracket. Since the sealing with the locking jaw is surely ensured, the phenomenon of backflow can be prevented and noise can be minimized even when the blocking plate collides with the locking jaw by rotating down by its own weight.

In addition, according to the present invention, a plurality of contact protrusions are formed on the surface of the sealing portion in contact with the locking jaw and the support bracket so as to protrude so as to protrude from the inside of the passage toward the outside, so as to protrude. A plurality of line contacts are possible between the protrusions and the locking jaws, and the contact protrusions and the support brackets, whereby a plurality of blocking films are formed, thereby obtaining a reliable sealing effect and reliably blocking the backflow of outside air.

In addition, according to the present invention, the engaging jaw is formed with an air circulation groove between the inner circumferential surface of the body portion, the space between the outer circumference of the blocking plate and the inner circumferential surface of the body portion is exposed so that the air circulation groove is exposed, the air flowing from the outlet side It is possible to prevent the phenomenon that the air lifts the blocking plate by the phenomenon that the back down the inner surface of the body portion flows into the air circulation groove and then returns.

In addition, according to the present invention, since a plurality of connecting ribs are formed between the locking jaw and the inner circumferential surface of the body portion along the circumferential direction of the passage to increase durability, the blocking plate is damaged by hitting the locking jaw many times over a long period of time. Can be prevented.

In addition, according to the present invention, the support bracket has a pointed mountain shape toward the inlet side of the passage, so that the air discharged through the passage is naturally branched without clogging, it is possible to rotate the pair of blocking plates.

In addition, according to the present invention, the cross section of each of the plurality of contact projections is formed in a sawtooth shape, when looking at each of the contact projections in the cross section, the outer surface is formed perpendicular to the upper surface of the locking jaw and the inner surface is the locking Since it is formed to be inclined at an acute angle with respect to the upper surface of the jaw, the contact protrusion is bent to the outside when the blocking plate is open in the open state to reduce the impact noise as well as to increase the sealing force against the reverse wind blowing from the outside. You can get it.

In addition, according to the present invention, the blocking plate and the locking jaw in the state in which the sealing portion in contact with the locking jaw can be spaced apart from each other in a direction perpendicular to the longitudinal direction of the body portion, so that the falling weight fall in the open state of the blocking plate When the blocking plate made of plastic material does not face the locking jaw, only the sealing portion of the rubber material collides with the locking jaw, thereby significantly reducing the closing noise due to impact.

Further, according to the present invention, the sealing part covers the whole of the other surface of the blocking plate and is installed to be connected to the sealing part of the one surface, so that the noise generated from the blocking plate of the plastic material can be further reduced when the blocking plate falls and collides with the latching jaw.

In this case, the sealing portion provided on the other surface of the blocking plate may be formed with a weighting protrusion protruding from the surface of the sealing portion in the region including the center of gravity of the blocking plate, so that the weight of the blocking plate is distributed to the edge To minimize noise and minimize noise

In addition, according to the present invention, the sealing portion provided on the other surface (upper surface) of the blocking plate is formed with a plurality of dust-proof holes extending from the surface to the blocking plate, due to the impact generated when the blocking plate descends and hits the locking jaw There is an advantage that the noise can be greatly reduced by playing a role of extinguishing vibration.

1 is a perspective view showing a configuration when closing the backflow prevention damper according to the present invention.
Figure 2 is a perspective view showing the configuration when opening the non-return damper according to the present invention.
3 is an exploded perspective view showing the configuration of the backflow prevention damper according to the present invention.
4 is a bottom perspective view illustrating a structure of a blocking plate in FIG. 3.
5 is a longitudinal sectional view taken along AA showing the configuration of the backflow prevention damper according to the present invention.
FIG. 6 is an enlarged longitudinal sectional view showing the configuration of part B of FIG. 5.
7 is an enlarged longitudinal sectional view showing the configuration of a backflow prevention damper according to another embodiment of the present invention.
FIG. 8 is a longitudinal cross-sectional view illustrating a mutual relationship between a locking step and a blocking plate in FIG. 7.
9 is a perspective view showing the structure of a blocking plate according to another embodiment of the present invention.
10 is a bottom perspective view showing the structure of a blocking plate according to another embodiment of the present invention.

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

As shown in Figures 1 to 3, the backflow prevention damper 1000 according to the present invention, the hollow body portion 100, the passage 110 is formed, across the center of the passage 110 A support bracket 200 connecting two points facing the inner circumferential surface of the body portion 100 facing the passage 110, and a passage 110 between the inner circumferential surface of the body portion 100 and the support bracket 200. ), A pair of blocking plates 300 hinged to the inner circumferential surface of the body portion 100 connected to the support bracket 200 to open and close the support bracket 200.

To this end, a hinge pin 370 may be formed on the blocking plate 300, and a hinge hole 170 may be formed on an inner surface of the body part 100.

Since the pair of blocking plates 300 are hinged around the support bracket 200, the pair of blocking plates 300 may be partially different in pressure depending on the cross-sectional area of the passage 110. Since the amount of opening can be different from each other, a finer flow rate control is possible and a backflow phenomenon can be prevented as compared with a damper having a conventional blocking plate.

In particular, a locking jaw 120 is formed on the inner circumferential surface of the body part 100 to limit the movement of the blocking plate 300, and the locking jaw 120 and the support bracket are formed on one surface of the blocking plate 300. The portion in contact with the 200 is provided with a sealing portion 400 made of a sealing rubber.

Due to the flexible and elastic sealing member 400, the sealing with the locking jaw 120 is surely ensured, so that a backflow phenomenon can be prevented.

In addition, as the sealing unit 400 is made of an elastic material, noise may be minimized even when the blocking plate 300 collides with the locking step 120 by lowering and rotating by its own weight.

In addition, as shown in FIG. 4, the surface of the locking jaw 120 and the surface of the sealing part 400 contacting the support bracket 200 are formed around the inner circumferential surface of the passage 110 and the support bracket 200. It is preferable that a plurality of contact protrusions 410 protrude from the inner side of the passage 110 and extend along the longitudinal direction.

Accordingly, a plurality of line contacts are possible between the surfaces of the contact protrusion 410 and the locking step 120 and the contact protrusion 410 and the support bracket 200, and a plurality of blocking films are formed to ensure a sealing effect. Can be obtained and can be prevented from flowing back.

In particular, as shown in Figure 7, the cross section of each of the plurality of contact protrusions 410 is formed in a sawtooth shape, the outer surface 411 is a locking step when looking at each of the contact projections 410 in cross section The upper surface of the 120 is formed perpendicular to the upper surface and the inner surface 412 is preferably formed to be inclined at an acute angle with respect to the upper surface of the locking projection (120).

According to this configuration, when the blocking plate 300 in the open state when the weight falls down, the contact protrusion 410 is bent to the outside (hollow inner surface side of the body portion 100) to reduce the impact noise as well as from the outside The effect of increasing the sealing force against the blowing back wind can be obtained.

In addition, when the contact protrusion 410 is set to a height high enough to absorb the shock, it is possible to bend in a shape suitable for sealing when the blocking plate 300 falls.

In addition, as shown in FIG. 8, in the state in which the sealing part 400 is in contact with the locking step 120, the blocking plate 300 and the locking step 120 are formed of the body part 100. The gap e may be formed to be spaced apart from each other in a direction perpendicular to the longitudinal direction.

According to such a configuration, when the blocking plate 300 falls down in its open state, the blocking plate 300 made of a plastic material is not opposed to the latching jaw 120, as shown in FIG. 7. Since only the sealing portion 400 made of rubber material collides with the locking jaw 120, the closing noise due to impact can be greatly reduced.

In addition, the blocking plate 300 preferably forms an inclination angle with respect to the cross section of the passage (110).

This is to reduce the moving angle of the blocking plate 300 to prevent noise during collision with the locking step 120 and to easily open the blocking plate 300 by the fluid flow at the inlet side.

In the absence of an inclination angle, it may be easily opened by the fluid flow on the outlet side, and a backflow phenomenon may occur.

Meanwhile, an air circulation groove 130 is formed between the locking jaw 120 and an inner circumferential surface of the body portion 100, and a space is separated between an outer circumferential surface of the blocking plate 300 and an inner circumferential surface of the body portion 100. It is preferable that the air circulation groove 130 is exposed.

According to this configuration, as shown in FIG. 4, since the air introduced from the outlet side descends on the inner surface of the body part 100 and flows back into the air circulation groove 130, the air is returned to the blocking plate. Entering between the 300 and the locking step 120 may prevent the blocking plate 300 from lifting.

As a result, the air circulation groove 130 is formed in the locking step 120 so that the blocking plate 300 is prevented from being opened by the air at the outlet side of the passage 110, so that no backflow of air occurs.

At this time, the bottom of the air circulation groove 130 is preferably formed to be curved so that the air flowing into the air circulation groove 130 does not collide with each other to return naturally.

Meanwhile, as shown in FIG. 3, a plurality of connecting ribs 140 are formed between the locking jaw 120 and the inner circumferential surface of the body part 100 to be spaced apart along the circumferential direction of the passage 110 to increase durability. It is preferable.

Accordingly, it is possible to prevent the blocking jaw 120 from being damaged by hitting the blocking jaw 120 a plurality of times over a long period of time.

In addition, the boundary between the locking projection 120 and the inner circumferential surface of the body portion 100 is preferably formed with a smooth curved surface so that the air discharged through the passage 110 flows smoothly without clogging.

The support bracket 200 has a pointed mountain shape toward the inlet side of the passage 110 so that the air discharged through the passage 110 naturally branches without clogging and rotates the pair of blocking plates 300 to flow. Can be adjusted.

In addition, the support bracket 200 is formed so that the locking rib 210 protrudes toward the outlet side from the outlet side portion of the passage 110, thereby reinforcing the strength of the support bracket 200, and at the same time the passage 110 When opening, the blocking plate 300 serves as a stopper for supporting the rotation plate so as not to rotate excessively.

On the other hand, unlike the above embodiment, as shown in Figure 9 and 10, the sealing portion 400 is to be installed to cover the entire other surface of the blocking plate 300 and to be connected to the sealing portion 400 of the one surface Can be.

According to this configuration, it is possible to further reduce the noise generated from the blocking plate 300 of the plastic material when the blocking plate 300 descends and collides with the catching jaw 120.

In particular, in the sealing portion 400 provided on the other surface (upper surface) of the blocking plate 300, a weight concentration protrusion protruding from the surface of the sealing portion 400 in the region including the center of gravity of the blocking plate 300. 450 may be formed, thereby minimizing the closing noise by preventing the self-weight of the blocking plate 300 from being distributed to the edge and concentrating to the center.

In the drawing, the weight concentration protrusion 450 is made of cross-shaped flesh thicker than the surrounding rubber (silicon, etc.), but the shape thereof is not particularly limited.

In addition, a plurality of dustproof holes 480 extending from the surface to the blocking plate 300 may be formed in the sealing part 400 installed on the other surface (upper surface) of the blocking plate 300.

The dustproof hole 480 serves to extinguish the vibration caused by the impact generated when the blocking plate 300 falls and collides with the latching jaw 120 so that the noise can be greatly reduced.

Embodiments of the present invention are merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible within the scope of the following claims.

100 ... body
110 ... passage
120 ... Jaw
130. Air circulation groove
140 ... Connecting rib
200 ... support bracket
210 ... Jam Rib
300 ... blocking plate
400. Sealing part
410 ... contact projection
1000 ... anti-backflow damper

Claims (13)

A hollow body portion in which a passage is formed;
A support bracket connecting two points that cross the center of the passage and face each other at the inner circumferential surface of the body portion facing the passage; And,
Including a pair of blocking plate hinged to the inner peripheral surface facing the body portion connected to the support bracket for opening and closing the passage between the inner peripheral surface and the support bracket, respectively,
A locking jaw is formed on the inner circumferential surface of the body to limit movement of the blocking plate, and a sealing part made of a sealing rubber is installed at a portion of the blocking plate that contacts the locking jaw and the support bracket. Backflow prevention damper.
The method of claim 1,
On the surface of the sealing portion in contact with the engaging jaw and the support bracket extends along the circumference of the inner circumferential surface of the passage and the longitudinal direction of the support bracket and a plurality of contact protrusions protrude so as to neighbor from the inside of the passage toward the outside Backflow prevention damper characterized by the above-mentioned.
The method of claim 1,
The blocking plate is a reverse flow prevention damper, characterized in that the inclined angle with respect to the cross section of the passage.
The method of claim 1,
The locking jaw is formed with an air circulation groove between the inner circumferential surface of the body portion, the backflow prevention damper, characterized in that the air circulation groove is exposed between the outer circumferential surface of the blocking plate and the inner circumferential surface of the body portion.
The method of claim 4, wherein
The bottom of the air circulation groove is a backflow prevention damper, characterized in that formed in a curved surface.
The method of claim 4, wherein
A backflow prevention damper, characterized in that a plurality of connecting ribs are formed between the locking step and the inner peripheral surface spaced apart along the circumferential direction of the passage.
The method of claim 4, wherein
The boundary between the locking step and the inner circumferential surface of the body portion is characterized in that the backflow prevention damper is formed of a smooth curved surface.
The method of claim 4, wherein
The support bracket has a pointed mountain shape toward the inlet side of the passage, wherein the support bracket is formed in such a way that the locking rib protrudes toward the outlet side of the outlet side portion of the passage.
The method of claim 2,
The cross section of each of the plurality of contact protrusions is formed in a sawtooth shape, when looking at each of the contact protrusions in the cross section, the outer surface is formed perpendicular to the upper surface of the locking jaw and the inner surface with respect to the upper surface of the locking jaw Backflow prevention damper, characterized in that formed inclined at an acute angle.
The method of claim 1,
And the blocking plate and the catching jaw are spaced apart from each other in a direction perpendicular to the longitudinal direction of the body part in a state in which the sealing part contacts the catching jaw.
The method according to any one of claims 1 to 10,
The sealing part covers the entire other surface of the blocking plate and is installed to be connected to the sealing portion of one side of the backflow prevention damper.
The method of claim 11,
A backflow prevention damper, characterized in that the sealing portion provided on the other surface of the blocking plate is formed with a plurality of dust-proof holes extending from the surface to the blocking plate.
The method of claim 11,
The sealing portion provided on the other surface of the blocking plate, the backflow prevention damper, characterized in that the weight concentration projection protruding from the surface of the sealing portion in the region including the center of gravity of the blocking plate.

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