KR100394871B1 - a ventilation fan - Google Patents

Abstract

According to the present invention, after the rotary member rotates according to the rotational force of the induction motor and sucks the air in the room, the ventilator discharges the sucked air to the outside. The guide surface is provided with a guide surface for guiding the air sucked into, and the casing scroll is formed at the end of the guide surface to the outlet port is formed around the rotation axis of the induction motor, it is seated in the receiving space of the casing scroll to the rotational force of the induction motor Rotating member to suck the air in the room, and to configure the air guide member seated in the receiving space to be close to the end of the rotating member, to increase the power efficiency of the fan using the induction motor and low-cost motor The lifting member is applied to the rotating member and the casing scroll in a lift type structure to maximize the air volume compared to the same standard. In addition to smoothing the air discharge in the inside, the standard dynamic force is based on the induction motor 0W ~ 20W, the backwards of the rotating member is formed in a streamline with a drag force to naturally discharge a large amount of air, At the same time, it reduces the noise generated by the operation and at the same time, the rear blade of the rotating member is installed at a certain distance from the guide surface of the casing scroll to increase the width of the wind direction. It is related to a fan that has a strong pushing force and discharges a large amount of air with little rotation, thereby extending the life of the product and improving reliability.

Description

Ventilation fan {a ventilation fan}

The present invention relates to a ventilator for forcibly inhaling indoor air and discharging it to the outside.

In general, the fan is installed in the interior of the building, that is, the top or the ceiling of the wall of the bathroom or toilet to suck up the turbid air in the room to the outside, the discharged air is connected to the outside of the building through the duct.

As shown in FIGS. 1 and 2, the conventional ventilator is provided with a receiving space 11 formed to be recessed therein so that the air sucked in the periphery of the receiving space 11 is discharged to the outside. A guide surface 12 is formed, and a casing scroll 10 is formed in which an outlet 13 for discharging air is formed at an end of the guide surface 12, and an induction motor mounted on an outer side of the casing scroll 10 ( 20 is configured, the rotating member 30 is seated in the receiving space 11 and rotated by the rotational force of the induction motor 20 is configured, it is seated at the end of the receiving space 11 is a rotating member ( A protective cover 40 is provided, which protects the sirocco fan 33 of 30 and is provided with a guide piece 41 having a rounded width corresponding to the width of the outlet 13, and the front side of the casing scroll 10. The grill 50 is provided with a passage 51 for seating in the air movement.

In addition, the rotating member 30 is provided with a lower plate 31 formed with an insertion hole 32 into which the rotation shaft 21 of the induction motor 20 is inserted, and on one side of the lower plate 31 inwards. The round sikoro fan 33 is formed in a short width and dense.

However, the conventional ventilator as described above has a problem that the circular type sichoro fan is rotated so that the air flow rate and the wind pressure structure do not match the reality, so that the motor power is also limited to a small and low capacity, and the sikoro fan is sucked indoors. Lifting resistance is generated when the sikoro fan is rotating because it surrounds the air of the air, and the wind tunnel force is discharged to the outside because the wind turbine force is lost from the turning force. In order to reduce the lifting resistance, the length of the air guide piece should be formed short, and there was a problem of noise generated when rotating at high speed.

In addition, the outlet is formed inside the center of the rotating shaft of the induction motor, the width of the outlet is small, the amount of air discharged through the outlet is limited and discharged, the non-vented air is smooth because the vortex phenomenon occurs in the receiving space of the casing scroll There was a problem that the behavior does not appear.

In addition, since the rotating member is formed close to the guide surface of the casing scroll to rotate, the width to generate the air volume is short and the force to push the air of the room to the outlet is weak, there is a problem that the performance of the product.

Accordingly, the present invention has been made in view of the above-mentioned conventional defects. The object of the present invention is to apply a lifting member to the rotating member and the casing scroll in a lifting type structure in order to increase the power efficiency of a fan using an induction motor and a low cost motor. The maximum amount of air flow compared to the same standard to facilitate the discharge of air in the room, and when the driving force is about 10W ~ 20W, the backwards of the rotating member are formed in a streamlined form with lifting force to naturally generate a large amount of air. By reducing the noise generated by the operation of the device, the backwards of the rotating member are installed at a certain distance from the guide surface of the casing scroll to increase the wind direction wind pressure width and extend the life of the product by discharging a large amount of air. It is to provide a fan to improve the reliability.

The ventilator according to the present invention for achieving the above object, the rotary member is rotated in accordance with the rotational force of the induction motor to suck the air in the room, and in the ventilator for discharging the sucked air to the outside, the receiving space is recessed inwardly A casing scroll having a guide surface for guiding the air sucked into the accommodation space, the outlet of the casing scroll being formed at an end of the guide surface at an outer side of the guide shaft; A rotating member seated in the receiving space of the casing scroll and rotating with the rotational force of the induction motor to suck air in the room; It is characterized in that the air guide member which is seated in the receiving space to be close to the end of the rotating member is configured.

1 is a front view showing a conventional incision ventilator

Figure 2 is a cross-sectional view showing a conventional ventilator

3 is a perspective view of a fan to which the present invention is applied;

Figure 4 is an exploded perspective view of the ventilator to which the present invention is applied

Figure 5 is a front view showing a cut in the ventilator to which the present invention is applied

6 is a cross-sectional view showing a fan to which the present invention is applied.

<Explanation of symbols for the main parts of the drawings>

20: induction motor 21: rotation axis

100: casing scroll 120: guide surface

200: rotating member 230: rearward feather

300: air guide member 310: air guide groove

320: guide 330: guide support

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. Figure 3 is a perspective view of a ventilator to which the present invention is applied, Figure 4 is an exploded perspective view of the ventilator to which the present invention is applied, Figure 5 is a front view showing the cut ventilator to which the present invention is applied, Figure 6 is a ventilator to which the present invention is applied It is sectional drawing shown.

According to the present invention, after the rotary member rotates in accordance with the rotational force of the induction motor 20 to suck the air in the room, a ventilator for discharging the sucked air to the outside is provided with a receiving space 110 recessed inward. And, the guide surface 120 for guiding the air sucked into the interior of the receiving space 110 is provided, the discharge port (outside the center around the rotating shaft 21 of the induction motor 20 at the end of the guide surface 120 The casing scroll 100 is formed is formed 130, the rotating member 200 is seated in the receiving space 110 of the casing scroll 100 to rotate by the rotational force of the induction motor 20 to suck the air in the room Is configured, the air guide member 300 is mounted in the receiving space 110 to be close to the end of the rotating member 200 is configured, which will be described in more detail as follows.

The rotating member 200 is provided with a lower plate 210 having an insertion hole 220 into which the rotating shaft 21 of the induction motor 20 is inserted, and rounded outwardly on one side of the lower plate 210. The formed backward feather 230 has a long width.

The rearward feather 230 is formed in a streamlined shape, the center of which is formed thicker and is thinner toward the outside.

The air guide member 300, the air guide groove 310 is provided to the inside to be seated on the guide surface 120 of the receiving space 110, the rotary member 200 on one side of the air guide groove 310 It is formed on the same line as the diameter smaller than the diameter of the rotating member 200, the curved surface is formed at the end to facilitate the inflow of air is provided through the guide hole 320, the corner of the receiving space 110 Both sides are formed at right angles to be seated, and a guide support piece 330 having a round formed therein is provided.

The following describes the assembly process of the present invention configured as described above.

First, the rotary shaft 21 of the induction motor 20 is in close contact with one side of the casing scroll 100 so as to be located inside the casing scroll 100, and then coupled to the rotary shaft 21 of the induction motor 20. The insertion hole 220 of the rotating member 200 is coupled.

In addition, when the air guide member 300 is seated in the accommodation space 110 of the casing scroll 100, the outside of the air guide groove 310 is coupled to the inside of the guide surface 120 of the accommodation space 110, wherein , The guide support piece 330 is seated on the edge of the receiving space 110 is coupled.

In this way, by combining the grill 400 formed with the passage 410 in the front of the casing scroll 100 is coupled, it is to be fixed to the side wall or ceiling of the room.

The following describes the operation of the combined fan as described above.

First, when power is applied to the induction motor 20 and the rotating shaft 21 rotates, the rotating member 200 coupled to the rotating shaft 21 rotates to suck the turbid air in the room.

The turbid air is rotated by the rotational member 200 by the rotational force of the induction motor 20, by introducing the air into the passage 410 of the grill 400, the air guide groove of the air guide member 300 ( After moving to 310, the inside of the receiving space 110 of the casing scroll 100 is moved along the curved surface of the guide hole 320.

The air moved to the interior of the receiving space 110 is rotated by pushing the rear blade 230 of the rotating member 200, the air moves along the guide surface 120 of the casing scroll 100 while the outlet ( 130 is discharged to the outside.

At this time, since the rotation member 200 rotates, the point causing the air flow occurs from the point where the guide surface 120 of the accommodation space 110 starts, so that a large amount of air can be discharged even with the same power.

As described above, the present invention, in order to increase the power efficiency of the fan using the induction motor and low-cost motor by applying a rotary member to the lifting member in the rotating member and the casing scroll to form a pressure to maximize the air volume compared to the same standard It smoothly discharges the air in the room, and the backwards of the rotating member is formed in a streamlined shape with lifting force to naturally discharge a large amount of air, reducing the noise generated by the operation of the device and at the same time, the rotating member on the guide surface of the casing scroll. The rear feathers are installed at a certain distance from each other to generate a large amount of wind pressure, and as the lifting force is accelerated, the force to push the sucked air to the outlet is strong, thus discharging a large amount of air with less rotation to extend the life of the product. There is an advantage to improve the reliability.

Claims (4)

In the fan to rotate the rotating member in accordance with the rotational force of the induction motor 20 to suck the air in the room, and discharge the sucked air to the outside, An accommodation space 110 recessed inward is provided, and a guide surface 120 for guiding air sucked into the accommodation space 110 is provided, and the induction motor 20 is provided at an end of the guide surface 120. A casing scroll 100 having a discharge port 130 formed at an outer side with respect to the rotating shaft 21; A rotating member 200 seated in the accommodation space 110 of the casing scroll 100 to rotate with the rotational force of the induction motor 20 to suck air in the room; Ventilator, characterized in that consisting of an air guide member 300 which is seated in the receiving space 110 to be close to the end of the rotating member (200). The method of claim 1, wherein the rotating member 200, A lower plate 210 having an insertion hole 220 into which the rotation shaft 21 of the induction motor 20 is inserted is provided, and a rearward feather 230 having a rounded outward shape on one side of the lower plate 210 is wide. Ventilator, characterized in that formed long. The method of claim 2, wherein the backward feather 230, The center is formed thick, the fan, characterized in that formed in a streamlined thinner toward the outside. According to claim 1, The air guide member 300, An air guide groove 310 is provided inwardly so as to be seated on the guide surface 120 of the accommodation space 110, and on one side of the air guide groove 310, the rotary member 200 on the same line as the rotary member 200. It is formed smaller than the diameter of 200, the curved surface is formed at the end to facilitate the inflow of air is provided through the guide hole 320, both sides are formed at right angles to be seated on the corner of the receiving space 110, Ventilator, characterized in that the guide support piece 330 is provided with a round inside.