KR200306504Y1 - Ventilator - Google Patents

Abstract

The present invention is a fan for discharging the internal air to the outside through the duct by the suction force of the blower fan rotated by the driving force of the motor, the backflow prevention damper to block the flow of air flowing back from the outside through the duct The present invention relates to a fan for attaching a soundproof material to at least one of the front and rear surfaces of the damper plate to be blocked from propagating external noise.

The present invention can effectively block the noise propagated from the outside or propagated through the fan from the adjacent pipes, such as neighboring houses through the connection pipe.

Description

Ventilator {VENTILATOR}

The present invention relates to a fan, in particular, in a fan for discharging the air inside to the outside through the duct by the suction force of the blowing fan rotated by the driving force of the motor, the flow of air back to the inside through the duct The damper plate is mounted to the backflow prevention damper to block the ventilator when it is closed due to the operation stop of the ventilator and the ventilator that can effectively block the noise generated by hitting the jamming jaw or the noise transmitted from the outside.

Ventilator is installed in the ceiling or wall inside the bathroom or building and connected to the duct open to the outside for ventilation of the internal air to remove the odor by sucking the internal air to the outside. In addition, a backflow prevention damper is provided inside the duct, in which a damper plate is provided to prevent outside air from flowing into the device and flowing back. The structure of a conventional ventilator is shown in FIGS. 1 and 2.

1 and 2 show an example of a conventional fan, Figure 1 is a cross-sectional view of a conventional fan, Figure 2 is a perspective perspective view showing the internal structure of a conventional fan duct. 1 and 2 illustrate a case in which two semicircular damper plates 32 are provided. In FIG. 2, only one damper plate 32 is illustrated in order to illustrate the internal structure in more detail. As shown in FIGS. 1 and 2, the conventional fan operates the motor 12 provided therein, and the driving force of the motor 12 is transmitted to the blower fan 14 through the rotating shaft 12a to blow the blower fan. The air is sucked in by rotating it. The sucked air is discharged to the outside through the duct 30 along the guide surface 18 of the accommodation space 16 by the rotational force of the blowing fan.

In addition, the conventional ventilator has a backwind prevention damper for blocking the inflow of external air in the duct 30, the backwind prevention damper is provided with one or more damper plate 32 to prevent the backflow of the outside air. The damper plate 32 is made of a material such as plastic, and has a rotating shaft so that the damper plate can move up and down or left and right by the flow of air, and the rotating shaft is provided in the insertion hole 34 provided at a predetermined position on the inner side of the damper. Is bound. Therefore, the damper plate 32 is moved in the vertical or horizontal direction about the axis of rotation in accordance with the air flow. Specifically, the damper plate 32 is opened while the damper plate 32 is flipped by the force of the air discharged when the air inside is discharged to the outside by the blower fan 14, and the operation of the fan is stopped to discharge the air. In the event of an interruption or reverse flow of outside air, the damper plate is returned to its original state and the damper is closed. In this case, the inner side of the anti-wind damper is provided with a locking jaw 36 to the rear of the damper plate so that the damper plate is not flipped back by the reverse wind in the closed state. In addition, the rotation shaft is formed to be inclined at a predetermined angle in the counterwind direction so that the damper plate is automatically closed by gravity when the air discharge is stopped.

In the case of such a fan, the damper plate is closed by stopping the discharge of the internal air by stopping the motor and the blower. As the damper plate is closed, the sound of the bumper plate hitting the rear surface of the damper plate has a problem of generating noise. In particular, when the room is quiet, the degree of noise is more severely felt, such as the user was surprised.

In addition, the conventional ventilator, in particular, when installed in apartments, townhouses or malls or buildings in which multiple households reside, has a structure in which ducts through which internal air is discharged are connected to each other and connected to the outside. Therefore, the exhaust fans installed in adjacent arcs such as the upper and lower floors or the left and right sides are connected by mutual pipes, so that the noise generated in the neighboring arcs is discharged to the pipes through the exhaust fan, and the noises transmitted through the pipes are transferred to the adjacent arc fans. Inflow phenomenon occurs. Therefore, it has become a problem not only for the privacy of tenants but also for serious noise pollution. In addition, such a phenomenon is not an exception even in the case of a detached house, so that the noise generated from the outside is transmitted through the duct to the fan with little filtration. In particular, the noise emission phenomenon is more severe when the fan is stopped than when the fan is operating, because the damper plate is simply made of a material such as plastic does not effectively block the noise even if the backwind damper is closed.

In order to solve the above problems, a method of installing a check valve in the duct portion of the fan has been conventionally presented. The check valve is a valve that allows only flow in one direction and prevents flow in the opposite direction for preventing danger or securing function, and generically refers to a valve that operates so that the valve disc prevents backflow due to back pressure of the fluid. The check valve is connected to the motor and can be installed vertically or horizontally. The check valve is opened when the motor is running to allow the internal air to be discharged. When the motor is stopped, the check valve is closed to prevent external air from flowing back. In the related art, such a check valve is installed together with a damper plate to block the duct in a double manner to block not only the backflow of outside air but also noise coming from the outside. However, the above-described prior art has a problem that the check valve is installed in the duct and connected to the motor, which not only complicates the structure of the ventilator but also greatly increases the production cost of the ventilator.

Therefore, the noise transmitted through the pipes and the ducts can be effectively blocked, especially when the fan is stopped, and the noise generated when the damper plate is closed is minimized by hitting the latching jaw, and the production cost of the conventional fan is not significantly modified. This inexpensive fan is desperately needed.

The present invention is proposed to solve the above problems, the object of the present invention is to minimize the noise generated by hitting the locking jaw when the damper plate is closed, and to block the noise generated from the neighbor or outside to be transmitted through the pipe or duct By providing a fan that can prevent the noise from entering through the fan.

1 is a cross-sectional view of a conventional ventilator.

Figure 2 is a perspective perspective view showing the internal structure of a conventional fan duct.

3 is a cross-sectional view of the fan according to the present invention.

Figure 4 is a perspective view showing the internal structure of the fan duct according to the present invention.

5a to 5d is an exemplary view of the fan duct according to the present invention.

*** Explanation of symbols on the main parts of the drawing ***

10: casing scroll 12: motor

14: blower fan 16: accommodation space

18: guide surface 20: grill

22: suction port 30: duct

32: damper plate 33: soundproof material

34: insertion hole 35: gap holding jaw

36: locking jaw 37: closing stop jaw

38: contact protrusion

In order to achieve the above object, the ventilator according to the present invention is discharged to the outside through the duct by the suction force of the blowing fan rotated by the driving force of the motor provided in the casing scroll to the outside, at one end of the rotating shaft In the ventilator having two damper plates which are formed and rotated by internal air discharged by rotating the shaft inclined at a predetermined angle inside the duct, a semicircular symmetrical shape is formed, and predetermined at the upper end and the lower end of one end portion. Two damper plates each having a protrusion formed to protrude in size to form a rotating shaft, and having a soundproof material attached to a rear surface thereof; A locking step formed to protrude to a predetermined size along an inner side surface of the duct so that a rear surface of each damper plate is caught when each damper plate is closed; An insertion hole formed in front of the locking step in a direction in which the internal air is discharged so that each protrusion of each damper plate is inserted and bound; And a gap maintaining jaw formed at a position where the rotational axis of each damper plate is in contact with one of the inner side surfaces of the duct so as to project a predetermined size toward the front of the insertion hole so that each damper plate is caught by the front of the damper plate when opened by the discharge of internal air. It features.

Preferably, the distance between the insertion hole and the locking step is greater than the thickness of the sound insulation material attached to at least the rear surface of each damper plate.

In addition, the soundproof material may be attached to the front of each damper plate, and the PE material to be used as the soundproof material.

More preferably, the soundproof material is attached to the inside of the predetermined distance along the rim of the back of each damper plate, the back of each damper plate, protruding contact projections having a predetermined size between one end of the rotary shaft is formed and the area to which the soundproof material is attached; And a closing stop jaw protruding a predetermined size in the periphery of the insertion hole so as to contact the contact protrusion when the damper plate is closed.

In addition, in order to achieve the above object, another embodiment of the ventilator according to the present invention, the outside of the air through the duct by the suction force of the blowing fan rotated by the driving force of the motor provided inside the casing scroll In the ventilator having two damper plates which are rotated by internal air discharged by being rotated at one end and the rotating shaft is inclined at a predetermined angle inside the duct, the semi-circular mutually symmetrical shape, Two damper plates each having a protruding portion formed to protrude a predetermined size to an upper end and a lower end of the one end to form a rotating shaft, and having a contact protrusion protruding a predetermined size in a predetermined distance from one end to a rear surface thereof; A locking step formed to protrude to a predetermined size along an inner side surface of the duct so that a rear surface of each damper plate is caught when each damper plate is closed; An insertion hole formed in front of the locking step in a direction in which the internal air is discharged so that each protrusion of each damper plate is inserted and bound; A closing stop jaw protruding a predetermined size to the periphery of the insertion hole so as to contact the contact projection when the damper plate is closed; And a gap maintaining jaw formed at a position where the rotational axis of each damper plate is in contact with one of the inner side surfaces of the duct so as to project a predetermined size toward the front of the insertion hole so that each damper plate is caught by the front of the damper plate when opened by the discharge of internal air. It features.

Hereinafter, with reference to the accompanying drawings will be described in detail the advantages, features and preferred embodiments of the present invention.

3 is a cross-sectional view of the fan according to the present invention, Figure 4 is a perspective perspective view showing the internal structure of the fan duct according to the present invention. 3 and 4 illustrate an embodiment in which two semicircular damper plates 32 are provided. In FIG. 4, only one damper plate 32 is illustrated in order to further illustrate the internal structure of the duct 30. It was. As shown in Fig. 3 and 4, the ventilator according to the present invention, it is installed on the ceiling or wall of the building and has two ends each open to the interior and exterior of the building, each end is defined by the interior space Casing scroll 10 having an interconnected structure, grill 20 having a plurality of inlets 22 formed at the open end of the casing scroll toward the interior of the building and into which air is sucked, and a predetermined pipe having both ends open; It is formed in a shape, one end is connected to the open end of the casing scroll 10 toward the outside of the building and the other end is directly connected to the outside of the building or interconnecting pipes interconnected in the plurality of separate spaces in the building And a duct 30 connected thereto. The connection pipes interconnect a plurality of separate spaces in the building, that is, each duct 30 of the fan installed in each arc, and pass through the internal air discharged from each fan to be discharged to the outside.

The casing scroll 10 is provided with a motor 12 driven by receiving power from the outside, a predetermined insertion hole (not shown) in the center, and a plurality of vanes around the insertion hole, and the rotation shaft of the motor ( An insertion hole is inserted into and fastened to 12a) and is provided with a blowing fan 14 which rotates by a driving force of the motor. In addition, the inside of the casing scroll 10, the receiving space 16 is the accommodation of the air inside the suction sucked through the grill 20 and the guide surface 18 to guide the air received in the accommodation space to be discharged to the duct 30. ) Is formed.

In addition, the inside of the duct 30 is provided with one or more damper plate 32 to block the air and noise flowing back from the outside. The damper plate 32 has two protrusions protruding a predetermined length at one end of the upper end and a lower end thereof to form a rotation shaft, and each protrusion is inserted into an insertion hole 34 provided at a predetermined position on the inner side of the duct 30. It binds by doing. The damper plate 32 is opened by being flipped by the flow of air discharged from the inside when the ventilator is operated. The damper plate 32 is closed when the flow of air is stopped or the air flows back from the outside. At this time, in order to prevent the damper plate 32 from being flipped in the opposite direction by the air flowing back, the inner side surface of the duct 30 is provided with a locking projection 36 protruding a predetermined size to the rear of the damper plate 32. The rear stopper 37 is provided at the rear of the insertion hole 34 so as to catch the rear surface of the damper plate. One or more damper plates 32 may be provided, and when the rotary shaft of the damper plate is formed in the vertical direction, the rotary shaft is formed to be inclined at a predetermined angle with respect to the countercurrent direction of the external air. This is to allow the damper plate to be automatically closed by gravity when the discharge of the internal air is stopped. 3 and 4 illustrate an embodiment in which two semicircular damper plates 32 are provided inside the cylindrical duct 30, and the rotation axis of each damper plate is inclined at a predetermined angle in the vertical direction. One may be provided, and the rotation axis of the damper plate may be formed in a horizontal direction or at a predetermined angle.

The damper plate 32 serves to block the noise transmitted through the connection pipe or directly transmitted from the outside. To this end, the damper plate 32 includes a soundproof material 33 for preventing noise on at least one surface of the front and rear surfaces of the damper plate 32. I can attach it. Preferably, as shown in FIGS. 3 and 4, the soundproof material 33 is attached to both front and rear surfaces of the damper plate 32. When the sound insulation material 33 is attached to the front side of the damper plate 32, the sound insulation material is attached to cover the entire front area of the damper plate, and when the sound insulation material is attached to the rear surface of the damper plate, the sound insulation material is the entire rear surface area of the damper plate. Or attach it so that it covers a certain area.

As the sound insulation material 33, synthetic resin such as PE material (Poly Ethylen) is used. PE material has the characteristics of dustproof, soundproof, cushioning effect and heat insulation, insulation and low specific gravity. Therefore, when the operation of the fan is stopped and the damper plate is closed, the noise from the outside can be blocked by the sound insulation material, and it can be prevented from being discharged into the building through the fan.

In addition, when the damper plate 32 is closed, the rear surface of the damper plate hits the catching jaw 36, and noise may be generated. In order to minimize or eliminate the noise, the sound insulation is attached to the contact area with the catching jaw or the back of the damper plate. It may be provided with a contact protrusion protruding to contact the closing stop jaw 37 in a predetermined position.

The damper plate 33 may be implemented in various forms, and the internal structure of the duct may also be somewhat differently modified according to the embodiment of the damper plate. This will be described in detail with reference to FIGS. 5A to 5D.

Referring to the prevention of external noise caused by the operation of the fan according to the present invention is as follows.

When power is applied from the outside and the motor 12 is driven, the blowing fan 14 is rotated by the driving force of the motor. When the blower fan 14 rotates, the air inside is sucked into each of the fans through the inlets 22 of the grill 20 to be accommodated in the receiving space 16 and along the guide surface 18 by the rotational force of the blower fan. It is discharged to the duct 30. The flow of air discharged to the duct 30 causes the damper plate 32 to lean forward so that the internal air is discharged to the outside or the connecting pipe through the duct. In addition, both damper plate is opened by the flow of the internal air and caught by the gap maintaining jaw 34 can be prevented from flipping in the opposite direction. At this time, even if the noise is transmitted from the outside, the propagation of the noise is resisted by the sound and the flow of the internal air according to the operation of the ventilator, so the degree of noise transfer to the interior remains at a negligible level.

When the power supply from the outside is stopped, the driving of the motor 12 and the rotation of the blower fan 14 are stopped, so that suction and discharge of the internal air are stopped. Therefore, since the flow of internal air to the damper plate 32 is lost, the damper plate is automatically closed by the angle of the rotating shaft, and especially when the backflow of the external air occurs, the damper plate is rearward by the catching jaw 36. It closes more firmly without being flipped. In addition, when the damper plate is provided with a contact protrusion, when the damper plate is closed, the contact protrusion on the back of the damper plate first contacts the closing stop jaw 37, and then the bottom of the damper plate contacts the catching jaw so that no noise is generated. In addition, when the sound insulation material 33 is attached to the area in contact with the locking step of the damper plate, when the damper plate is closed, the soundproofing material strikes the locking step so that noise is not generated. On the other hand, in order to block the noise transmitted from the outside can be attached to the soundproof material on the front or rear of the damper plate, in this case the noise transmitted from the outside is blocked by the soundproof material attached to the damper plate is not transmitted to the inside. Preferably, the sound insulation is attached to both the front and rear surfaces of the damper plate to double the outside noise.

5A to 5D are exemplary views of the fan duct according to the present invention. 5A to 5D show only a portion of one damper plate and a duct, but the other damper plate forms a symmetrical shape with the damper plate shown in the drawings, and therefore, can be easily understood by those of ordinary skill in the art. . Hereinafter, each embodiment of the damper plate according to the present invention and the internal structure of the duct according to the present invention will be described with reference to FIGS. 5A to 5D, and the operation of the damper plate will be described.

Figure 5a shows a first embodiment of the damper plate according to the present invention and the internal structure of the duct according to it. As shown in FIG. 5A, the first embodiment of the damper plate 32 according to the present invention is constructed by attaching the soundproof material 33 to the entire rear surface area of the damper plate. In addition, two predetermined holes 34 are provided at predetermined positions inside the duct 30 so that two protrusions of the damper plate are inserted to form a rotation shaft, and between the two insertion holes, the front direction of the insertion hole, that is, the outside direction of the fan. It is provided with a gap maintaining jaw 35 formed to protrude a predetermined size. The gap retaining jaw is locked when the damper plate is opened by the flow of internal air, thereby preventing the damper plate from being flipped over a predetermined angle and passing in the opposite direction. Specifically, the damper plate should not be flipped more than 90 °. In addition, in the rear direction of each insertion hole, that is, the inner direction of the fan to form a closing stop jaw 37 made of a gap holding jaw and a stepped shape of 90 °. The closing stop jaw is a portion where the sound insulation material on the rear surface of the damper plate contacts when the damper plate is closed, and is preferably provided on the same line as the locking step 36. That is, when the orthogonal distance between the extension line of the insertion hole and the closing stop jaw is l ₁ and the orthogonal distance between the extension line of the insertion hole and the locking jaw is l ₂ , l ₁ and l ₂ are equal. At this time, when the thickness of the damper plate is t and the thickness of the sound insulation material is s, the values of l ₁ and l ₂ become t / 2 + s. Therefore, the closing stop jaw 37 and the locking jaw 36 are formed by t / 2 + s from the insertion hole.

Looking at the operation of the damper plate 32 according to the present invention, when the ventilator starts to be discharged to the outside air is pushed into the internal air to open the damper plate. At this time, the damper plate is caught by the gap holding jaw 35 so that the damper plate is not flipped over a predetermined angle by the internal air. When the operation of the fan is stopped and the discharge of the internal air is stopped or air flowing back from the outside enters, the damper plate 32 is closed. At this time, the sound insulation material 33 on the back of the damper plate first comes in contact with the closing stop jaw 37 and then comes into contact with the locking step 36. Since the damper plate is caught by the closing stop jaw and the locking jaw, the damper plate is not flipped inside by the air flowing back from the outside. In addition, when the damper plate is closed, the soundproofing material hits the closing stop and the locking step so that no noise is generated, and even if the sound is transmitted from the outside while the damper plate is closed, the sound is blocked by the soundproofing material and is not transmitted to the inside.

Although FIG. 5A illustrates that the sound insulation material 33 is attached only to the rear surface of the damper plate 32, the sound insulation material may be attached to the front surface of the damper plate.

Figure 5b shows a second embodiment of the damper plate according to the present invention and the internal structure of the duct according to it. As shown in FIG. 5B, the second embodiment of the damper plate 32 according to the present invention is constructed by attaching the soundproof material 33 to an area excluding the area in contact with the closing stop jaw 37 of the rear surface of the damper plate. do. Therefore, the closing stop jaw is in direct contact with the damper plate and the locking jaw 36 is in contact with the soundproof material attached to the rear surface of the damper plate. Therefore, when the damper plate thickness is t, the soundproofing material thickness is s, the orthogonal distance between the extension line of the insertion hole 34 and the closing stop jaw is l ₁ , and the orthogonal distance between the extension line of the insertion hole and the locking jaw is l ₂ , The value of l ₁ becomes t / 2 and the value of l ₂ becomes t / 2 + s. That is, the latching jaw is formed after s from the closing stop jaw.

Looking at the operation of the damper plate 32 according to the present invention, when the ventilator starts to be discharged to the outside air is pushed into the internal air, the damper plate is opened, caught by the gap holding jaw (35) by a certain angle by the internal air It will no longer be flipped over. In addition, the damper plate 32 is closed when the operation of the fan is stopped and the discharge of the internal air is stopped or air flowing back from the outside enters. At this time, the sound insulation material 33 on the back of the damper plate contacts the locking jaw 36 while the rear surface of the damper plate contacts the closing stop jaw 37, so that no noise is generated when the damper plate hits the locking jaw. In addition, since the closing stop jaw is adjacent to the rotation axis of the damper plate, when the damper plate hits the closing stop jaw, the impact is not large and noise is hardly generated. When the damper plate is closed, the rear surface of the damper plate is caught by the closing stop jaw and the locking jaw so that the damper plate is not flipped inside by the air flowing back from the outside. In addition, even when noise is transmitted from the outside in the state where the damper plate is closed, the noise is blocked by the soundproof material and is not transmitted to the inside.

Although FIG. 5B illustrates that the sound insulation material 33 is attached only to the rear surface of the damper plate 32, the sound insulation material may be attached to the front surface of the damper plate.

Figure 5c shows a third embodiment of the damper plate according to the present invention and the internal structure of the duct according to it. As shown in FIG. 5C, the third embodiment of the damper plate 32 according to the present invention excludes an area in contact with the closing stop jaw 37 and an area in contact with the locking step 36 of the rear surface of the damper plate. The soundproof material 33 is affixed in the area | region. Accordingly, the closing stop jaw and the locking jaw are in direct contact with the damper plate, and the contact protrusion 38 is provided to prevent noise from being generated when the locking jaw hits the damper plate. The contact protrusions are formed between the rotation shaft and the sound insulation material attached to the rear surface of the damper plate, and preferably provided at the top and bottom of the back surface of the damper plate. The contact projection 38 contacts the closing stop jaw 37 first when the damper plate is closed, thereby preventing the damper plate and the catching jaw 36 from hitting the noise.

Looking at the operation of the damper plate 32 according to the present invention, when the ventilator starts to be discharged to the outside air is pushed into the internal air, the damper plate is opened, caught by the gap holding jaw (35) by a certain angle by the internal air It will no longer be flipped over. In addition, the damper plate 32 is closed when the operation of the fan is stopped and the discharge of the internal air is stopped or air flowing back from the outside enters. At this time, the contact protrusion provided on the rear surface of the damper plate first contacts the closing stop jaw 37, and when the air flowing back from the outside pushes the damper plate further back, the rear surface of the damper plate contacts the locking jaw 36. Since the contact area between the contact projection and the closing stop jaw is very small, the noise is hardly generated while hitting each other. In addition, since the damper plate is formed with a predetermined angle by the contact projection, a slight gap is generated between the damper plate and the locking jaw, but a gap is formed, but the soundproof material is attached to the rear surface of the damper plate so that the end of the soundproofing material contacts the locking jaw. Therefore, external noise does not flow into the gap between the damper plate and the locking step. In addition, when the outside air flows backward, the damper plate is pushed further backwards to be in close contact with the locking jaw, and the damper plate is caught on the closing stop jaw and the locking jaw so that it is no longer flipped. Therefore, even when noise is transmitted from the outside in the state where the damper plate is closed, the noise is blocked by the soundproof material and is not transmitted to the inside.

In FIG. 5C, the sound insulation material 33 is attached to only the rear surface of the damper plate 32, but the sound insulation material may be attached to the front surface of the damper plate, and the sound insulation material may be attached to the area of the damper plate in contact with the locking step. Of course.

5D illustrates a fourth embodiment of the damper plate according to the present invention and an internal structure of the duct according to the present invention, in which the soundproof material 33 is removed in the third embodiment of the damper plate shown in FIG. 5C. As shown in FIG. 5D, the fourth embodiment of the damper plate 32 according to the present invention includes a contact protrusion 38 at a portion of the rear surface that contacts the closing stop jaw 37. At this time, the soundproof material 33 may be attached to the front of the damper plate. Contact protrusions are provided on the back of the damper plate to the inside of the rotating shaft, and preferably provided at the top and bottom of the back of the damper plate. The contact projection 38 contacts the closing stop jaw 37 first when the damper plate is closed, thereby preventing the damper plate and the catching jaw 36 from hitting the noise.

In addition, when the damper plate 32 is opened by the operation of the ventilator, it does not fall to the other side by the gap holding jaw 35 as described above.

As described above, the present invention can effectively block noise propagated through the fan from being transmitted directly from the outside or from another adjacent house such as a neighboring pipe.

That is, by providing a contact protrusion on the rear surface of the damper plate or by attaching a soundproof material to a portion of the rear surface of the damper plate that contacts the locking step, it is possible to prevent the noise from being generated when the damper plate hits the locking step.

In addition, by attaching a sound insulation material to the damper plate, it is possible to block the noise generated in the outside or other adjacent arcs in the interior through the fan, especially when the fan is stopped.

In addition, when the sound insulation is attached to both the front and rear of the damper plate it can block most of the propagation noise, so people living in the building can be released from the exposure of the privacy and noise pollution.

In addition, it can be carried out without greatly modifying the structure of the conventional fan, it can be easily applied to the damper plate of various shapes and types, there is an advantage that the production cost is low.

While preferred embodiments of the present invention have been described using specific terms, such descriptions are for illustrative purposes only, and it is understood that various changes and modifications may be made without departing from the spirit and scope of the following claims. Should be done.

Claims (6)

The inside of the air is discharged to the outside through the duct by the suction force of the blowing fan rotated by the driving force of the motor provided in the casing scroll, the rotating shaft is formed at one end and the rotating shaft is bound to be inclined at a predetermined angle inside the duct. In the fan having two damper plates rotated by the discharged internal air, Two damper plates each having a semicircular symmetrical shape, protruding portions having a predetermined size protruding from the upper end and the lower end of the one end to form the rotating shaft, and having a soundproof material attached to a rear surface thereof; A locking step formed to protrude to a predetermined size along an inner side surface of the duct so that a rear surface of each damper plate is caught when the respective damper plates are closed; An insertion hole formed in front of the locking step in a direction in which the internal air is discharged so that each protrusion of each of the damper plates is inserted and bound; And A gap retaining jaw formed so as to catch the front of the damper plate when the damper plate is opened by the discharge of the internal air at a position where the rotation axis of the respective damper plate is in contact with one of the inner side of the duct to the front of the insertion hole. Ventilator comprising a. The method of claim 1, And a gap between the insertion hole and the locking jaw is greater than at least the thickness of the soundproof material attached to the rear surface of each damper plate. The method of claim 1, And the sound insulation material is attached to the front of each damper plate. The method according to any one of claims 1 to 3, Ventilator, characterized in that the material of the sound insulation material PE. The method of claim 1, The sound insulation material is attached to the inside of the predetermined distance along the rim of the back of each damper plate, Contacting projections having a predetermined size formed on the rear surface of each damper plate, between one end of the rotating shaft and an area to which the sound insulation is attached; And And a closing stop jaw protruding a predetermined size in the periphery of the insertion hole so as to contact the contact projection when the damper plate is closed. The inside of the air is discharged to the outside through the duct by the suction force of the blowing fan rotated by the driving force of the motor provided in the casing scroll, the rotating shaft is formed at one end and the rotating shaft is bound to be inclined at a predetermined angle inside the duct. In the fan having two damper plates rotated by the discharged internal air, A semi-circular symmetrical shape is formed, and a protrusion having a predetermined size protrudes from the upper end and the lower end of the one end to form the rotating shaft, and has a contact protrusion having a predetermined size protruding inside the predetermined distance from the one end on the rear side. Two damper plates; A locking step formed to protrude to a predetermined size along an inner side surface of the duct so that a rear surface of each damper plate is caught when the respective damper plates are closed; An insertion hole formed in front of the locking step in a direction in which the internal air is discharged so that each protrusion of each of the damper plates is inserted and bound; A closing stop jaw protruding a predetermined size to a periphery of the insertion hole to contact the contact protrusion when the damper plate is closed; And A gap retaining jaw formed so as to catch the front of the damper plate when the damper plate is opened by the discharge of the internal air at a position where the rotation axis of the respective damper plate is in contact with one of the inner side of the duct to the front of the insertion hole. Ventilator comprising a.