KR20050041043A - Ventilator having sound absorption - Google Patents

Abstract

The present invention includes a fan for flowing air and a shroud blower to face the front, and a shroud for guiding the flow direction of the air and a driving unit for driving the fan. In the blower for discharging to the air, the case and the air of the system is a sound absorbing material is formed in a plate shape of the size that can cover the entire surface of the shroud, and a hole-shaped sound-absorbing material vent for exposing the shroud blower is formed in the portion corresponding to the shroud blower. Further provided in the spaced space between the discharged shroud front, it is possible to increase the blowing efficiency and to provide a blower that can reduce the vibration generated in the motor, fan, shroud.

Description

Ventilator with sound absorbing material {Ventilator having sound absorption}

The present invention comprises a fan for flowing air and a shroud for defining the flow direction of the air and a drive unit for driving the fan and mounted to the inside of the system in the blower for dissipating heat inside the system to the outside, A blower device is further provided with a sound absorbing material coupled to the spaced space between the case and the shroud to reduce noise and improve the blowing effect of dissipating heat to the outside of the case.

Most home appliances, such as computers, TVs, refrigerators, etc., are equipped with a blower for dissipating heat inside the system to the outside for smooth operation of the product.

There are various types of such blowers, and a fan of a fan structure having a relatively simple structure and high efficiency is mainly used.

Hereinafter, a conventional blower will be described with reference to the accompanying drawings.

1A shows a conventional blower structure.

As shown in FIG. 1A, a conventional blower 10 has a fan 12 forcing air to flow by rotation, a motor 14 for driving the fan 12, and the fan ( 12 and shroud 16 formed on the outside in the circumferential direction of the fan 12 to protect the back flow of the discharge air.

When power is applied to the motor 14 in the state configured as described above, the motor 14 is driven to rotate the fan 12, and the air is accelerated by the suction force according to the rotation of the fan 12 to discharge at a high speed. do.

At this time, the air discharged by the fan 12 passes through a heat exchanger (not shown) inside the apparatus to gain or lose heat.

On the other hand, the fluid flowing through the heat exchanger is input to other elements of the system in the state of losing or obtaining heat from the air to perform cooling or heating.

1B shows a conventional blower mounted inside a system.

As illustrated in FIG. 1B, when the blower is positioned inside the system to discharge air from the inside of the system, the blower is positioned at a predetermined distance from the case 20 of the system. The reason for separating the blower and the case 20 as described above is to prevent the occurrence of noise by transmitting the vibration of the motor 14 generated during the operation of the blower to the case 20 through the shroud 16. to be.

A part of the case 20 located at the front of the blower is provided with a plurality of blowers 22 formed in a hole shape to allow the flow of air.

When the fan 12 rotates by the power of the motor 14, the air located inside the case 20 flows by the fan 12 and is discharged to the outside of the case 20 through the air vent 22.

However, when the blower is mounted in such a structure, the air flowing by the fan 12 hits the case 20, and then some are discharged to the outside of the case 20 through the air vent 22, and some are shrouds. It returns to the inside of the case 20 through the space | interval between the 16 and the case 20, and blows efficiency falls. As such, when the blowing efficiency of the blower is lowered, there is a problem that the system is overheated and the normal operation is not performed as the temperature inside the case 20 increases.

In addition, when the blower is driven, the air flowing at high speed by the fan 12 hits the case 20, so that vibration occurs in the case 20, and noise has occurred due to the vibration. . In addition, when the air flowing at high speed by the fan 12 is introduced into the gap between the shroud 16 and the case 20, there is a problem that noise is generated due to the collision with the shroud 16.

The present invention has been made to solve the above-mentioned problems, to limit the blowing direction to increase the blowing efficiency of the blower, and to provide a shroud that can absorb the vibration generated when driving the blower to reduce the noise There is a purpose.

The blower according to the present invention for achieving the above object is configured to include a fan for flowing the air and a shroud vent to face the front and a drive unit for driving the fan and the shroud to guide the flow direction of the air system In the blower for mounting the inside of the system to discharge the air inside the system, the sound absorbing material is further coupled to the spaced space between the case of the system and the front of the shroud discharged air.

Sound absorbing material is made of a material that can absorb vibration and noise.

In addition, the sound absorbing material is formed in a plate shape of the size that can cover the entire surface of the shroud, and the portion corresponding to the shroud blower is formed a hole-shaped sound absorbing material blower for exposing the shroud blower.

Hereinafter, a preferred embodiment of a blower equipped with a sound absorbing material according to the present invention will be described with reference to the accompanying drawings.

2A is an exploded view showing the internal configuration of a blower equipped with a sound absorbing material according to the present invention.

As shown in FIG. 2A, a blower equipped with a sound absorbing material according to the present invention includes a fan 110 for flowing air, a motor 120 for driving the fan 110, and a fan 110. It comprises a shroud 130 for guiding the flow direction of the sound absorbing material 140 is coupled to the front surface of the shroud 130.

The fan 110 is configured in a propeller shape having a plurality of wings about the main body so as to discharge the rear air forward through the rotational movement. In the present embodiment, the propeller-shaped fan 110 is applied, but the shape and structure of the fan 110 may be variously changed, provided that the fan 110 has a function of sucking and discharging air.

The shroud 130 is provided with a hole-shaped shroud vent 132 in the center so that the fan 110 can be mounted therein. The shroud tuyere 132 has a function of guiding the flow direction of the air discharged by the fan 110 toward the front while ensuring a space that the fan 110 will occupy when the fan 110 is coupled. do.

The rotating shaft 122 of the motor 120 penetrates the rear surface of the shroud 130 and is coupled to the fan 110 to receive power to rotate the fan 110.

Sound absorbing material 140 is formed in a plate shape having a larger area than the shroud tuyere 132, is coupled to the front surface of the shroud (130). In addition, the sound absorbing material 140 has a hole-shaped sound absorbing material blower 142 is formed at a position corresponding to the shroud blower openings 132 to expose the shroud blower openings 132 to the outside.

Therefore, the air discharged toward the front of the shroud 130 due to the rotation of the fan 110 does not interfere with the sound absorbing material 140.

Figure 2b is a cross-sectional view of the blower according to the present invention coupled to the case inside the system.

As shown in FIG. 2B, the case 20 surrounding the system has a hole-shaped case vent 22 formed on one side wall thereof so that heat inside the system is leaked to the outside.

When the blower according to the present invention is coupled to the case 20 of the system, the sound absorbing material 140 is coupled to the wall surface on which the case blower 22 is formed. At this time, the sound absorbing material 140 is coupled so as not to cover the case vent 22, it does not interfere with the flow of air discharged to the outside of the case 20.

Therefore, the air inside the case 20 drawn into the blower due to the rotation of the fan 110 is discharged to the outside of the case 20 through the sound absorbing material blower 142 and the case blower 22.

At this time, the gap between the shroud 130 and the case 20 is filled by the sound absorbing material 140, so that a part of the air flowing by the fan 110 is inside the system through the gap between the shroud 130 and the case 20. All of the quantity is discharged out of the system without returning to.

Therefore, the cooling efficiency of discharging the high temperature heat generated inside the system to the outside of the system is increased, it is possible to prevent the noise generated by the vortex of the air re-introduced into the system.

In addition, when the noise generated during the operation of the motor 120 and the fan 110 is leaked to the outside of the case 20 is partially absorbed by the sound absorbing material 140, the motor 120 is leaked to the outside of the case 20 And the noise of the fan 110 is greatly reduced compared to the conventional blower.

In addition, the vibration generated in the shroud 130 due to the rotation of the fan 110 and the vibration generated in the case 20 due to the collision with the discharged air is in contact with the shroud 130 and a part of the case 20. And it is absorbed by the sound absorbing material 140 is coupled. Therefore, the life of the blower is extended through the stabilization of the blower, and the noise generated due to the vibration of the shroud 130 and the case 20 is significantly reduced.

Although the technical spirit of the present invention has been described in detail according to the above-described preferred embodiment, it should be noted that the above-described embodiment is for the purpose of description and not of limitation. In addition, those skilled in the art will understand that various embodiments are possible within the scope of the technical idea of the present invention.

By using the blower equipped with a sound absorbing material according to the present invention, it is possible to block the inflow of air returning to the inside of the system to increase the blowing efficiency, to prevent noise caused by the vortex of the air re-introduced into the system There is an advantage that it can.

In addition, by absorbing some of the noise generated by the motor and the fan, the amount and amount of noise flowing out of the system can be reduced, and the blower can be stabilized by absorbing the vibration of the shroud and the case, and the vibration of the shroud and the case There is an advantage that can significantly reduce the noise generated by.

1A shows a conventional blower structure.

1B shows a conventional blower mounted inside a system.

2A is an exploded view showing the internal configuration of a blower equipped with a sound absorbing material according to the present invention.

Figure 2b is a cross-sectional view of the blower according to the present invention coupled to the case inside the system.

Explanation of symbols on the main parts of the drawings

20: case 22: case blower

100: blower 110: fan

120: motor 130: shroud

132: shroud blower 140: sound absorbing material

142: sound absorbing material blower

Claims (2)

It comprises a fan 110 for flowing the air, a shroud 130 to guide the flow direction of the air having a shroud blower 132 to face the front, and a drive unit for driving the fan 110 In the blower for discharging the air inside to the outside, And a sound absorbing material (140) coupled to fill the spaced space between the case (20) of the system and the front surface of the shroud (130) from which air is discharged. The method of claim 1, The sound absorbing material 140, Is formed in a plate shape of the size that can cover the entire surface of the shroud 130, that the sound absorbing material vent 142 of the hole shape for exposing the shroud blower 132 in a portion corresponding to the shroud blower 132 is formed Blower characterized in that.