KR20000009828U - Driving force transmission device of ceiling type air conditioner - Google Patents

Abstract

The present invention relates to a ceiling type air conditioner, and improves the structure of the fan locker which is an intermediate medium for transmitting the driving force of the fan motor to the blowing fan to prevent noise caused by friction between the blowing fan and the fan locker, and It is to minimize the wear of the fan locker due to the same contact friction.

To this end, the present invention provides an air conditioner in which the fan locker 110 is fixed between the motor shaft 121 and the blowing fan 130 so as to transfer the driving force of the fan motor 2 to the blowing fan 130. An apparatus for transmitting a driving force of an air conditioner is provided between a rocker and a blowing fan, the shock absorbing member 111 for absorbing a shock due to contact between the fan rocker and the blowing fan.

Description

Driving force transmission device of ceiling type air conditioner

The present invention relates to the field of air conditioners, and more particularly, a fan crack generated in a fan shaft that is rotated by receiving a driving force of the fan motor through the motor shaft of the fan motor constituting the air conditioner and the motor shaft. It relates to a structure to prevent the.

In general, an air conditioner is a device having a cooling function to cool a hot room in summer by cold air and a heating function to heat a cold room in winter by hot air. It is divided into air conditioners.

Among such air conditioners, a ceiling cassette type air conditioner (hereinafter referred to as an “air conditioner”) attached to the ceiling of the room is located at the center of the main body 1 of an octagonal box-shaped body having only a lower plate as shown in FIG. 1. A fan motor 2 generating a driving force is mounted, and the fan motor rotatably mounted to the fan motor is coupled to receive the driving force of the fan motor by a driving force transmission device.

In addition, a grill-outer 4 is coupled to the bottom of the main body to close the inside of the main body, and the grill-outer 4 in the main body to heat-exchange hot air sucked into the main body 1. A heat exchanger 5 through which a cool refrigerant flows is mounted in a form surrounding the circumference of the blowing fan 3.

At this time, the inlet grill 6 is formed in the central portion of the grill outter, the outside air is introduced, the inlet grill is coupled to the air filter 7 so that the outside air flows in a purified state (inlet) -(grill) (8) is mounted, a plurality of outlets (9) are formed on the outer side of the grill outter to discharge the heat exchanged air in the main body to the outside.

Therefore, when the air conditioner is selected and the cooling operation mode is selected, the fan motor 2 mounted in the main body 1 is driven under the control of a controller (not shown) to rotate the blower fan 3. do.

At this time, it is understood that the blowing fan is rotated by receiving the driving force of the fan motor by the driving force transmission device.

Accordingly, suction force is generated according to the rotation of the blower fan, so that hot air in the room is sucked into the main body 1 through the suction port of the grill outlet 4.

At this time, the air passing through the inlet 6 as described above passes through the air filter 7 of the inlet grill 8 mounted on the inlet, it is understood that the fine dust or foreign substances contained in the indoor air is filtered. Do.

In this way, the hot air of the room sucked into the main body 1 passes through the heat exchanger 5 through which the cool refrigerant flows, and in this process, the hot air is exchanged with the cold refrigerant flowing through the heat exchanger to change into cold air.

In addition, the cold air is discharged into the room through the discharge port 9 formed in the grill outter 4 while flowing inside the main body 1 by the continuous rotational force of the blowing fan 3, thereby cooling the room to an appropriate temperature. .

Meanwhile, referring to FIGS. 2 and 3, a structure of the driving force transmission device for transmitting the driving force of the fan motor 2 to the blower fan 3 in the air conditioner for maintaining the room at an appropriate temperature while driving as described above is described in more detail. The explanation is as follows.

The driving force transmission device is formed between the fan rocker 10 fixed to the fan shaft 2 of the fan motor 2 and the blower fan 3 and the blower fan, and the fan locker 10 is inserted and coupled thereto. The guide groove 31 is formed to be able to, and the guide groove is composed of a through hole 32 formed so that the motor shaft of the fan motor can pass through.

In addition, an insertion hole 11 is formed at the center of the fan locker, and the motor shaft 21 of the fan motor 2 is inserted and coupled, and a flat fan contact portion 12 is formed at both sides of the fan locker. It is comprised so that it may contact the inner surface of the guide groove 31 of the blower fan 3. As shown in FIG.

At this time, one side portion of the insertion hole 11 is formed to form a plane to the inside, and one side portion of the motor shaft 21 inserted into the insertion hole 11 of the fan locker is also formed to form a plane. This is to prevent the sliding phenomenon of the motor shaft 21 generated between the motor shaft 21 and the insertion hole 11 of the fan rocker 10 as the fan motor 2 is driven. It is.

Referring to the coupling process of the driving force transmission device configured in this way in more detail as follows.

First, the through hole 32 and the guide groove 31 in which the motor shaft 21 of the fan motor constitutes the blowing fan 3 while the fan motor 2 is mounted in the main body 1 constituting the air conditioner. The fan locker 10 is coupled to the motor shaft 21 protruding through the fan and protruding to reach the other side of the blower fan.

At this time, the fan rocker is made of the guide groove 31 formed in the blowing fan 3 and the external shape and dimensions are the same, it can be understood that the fan locker 10 can be forced into the guide groove. Do.

On the other hand, in the fan locker 10 is inserted into the guide groove 31 as described above, the motor shaft 21 is inserted into the insertion hole 11 of the fan locker, the end of the motor shaft 21 inserted in this way By using a separate nut and washer (not shown) to prevent the blowing fan is removed from the body.

It is understood that the combined driving force transmitting device may receive the driving force of the fan motor 2 and transmit the driving force to the blowing fan 3 to smoothly rotate the blowing fan.

However, since the conventional fan locker is made of only a metal mold, the fan locker transmits an impact while continuously making contact with the blowing fan when the fan locker is rotated due to the driving of the fan motor. Impact noise with the blowing fan was generated. In this case, considering that the blowing fan is generally made of plastic, a fan crack phenomenon occurs in which the blowing fan is broken and broken by an impact transmitted through a metal fan locker. Was done.

In addition, the fan locker is gradually worn out by the contact between the fan locker and the blowing fan as described above. As a result, the contact between the fan locker and the blowing fan is not properly performed, so that the correct blower fan is rotated according to the driving of the fan motor. You will not lose.

Accordingly, since the fan lockers must be frequently replaced, there was also a problem in that the maintenance cost of the air conditioner according to the replacement of the fan lockers was increased.

The present invention has been made to solve the conventional problems as described above, by improving the structure of the fan locker, which is an intermediate medium for transmitting the driving force of the fan motor to the blower fan, the noise caused by friction between the blower fan and the fan locker To prevent and to minimize the wear of the fan rocker due to the contact friction as described above.

According to an aspect of the present invention for achieving the above object, in the air conditioner of the fan locker contact fixed between the motor shaft and the blowing fan to transfer the driving force of the fan motor to the blowing fan, between the fan locker and the blowing fan Provided is a driving force transmission device for an air conditioner, characterized in that it is provided with a shock absorbing member for absorbing the impact of the contact between the fan rocker and the blowing fan.

1 is a perspective view showing a general configuration of a conventional ceiling air conditioner

Figure 2 is a longitudinal cross-sectional view showing a general configuration of a conventional ceiling air conditioner

3 is a state view of the portion “A” of FIG. 2 viewed from the bottom;

4 is an exploded perspective view showing a driving force transmission device according to the present invention

5 is a bottom view showing the combined state of FIG.

Explanation of symbols for main parts of the drawings

110. Fan locker 111. Shock absorbing member

120. Fan motor 121. Motor shaft

130. Blower Fan

Hereinafter, with reference to the accompanying Figures 4 and 5 showing the configuration of the present invention in one embodiment as follows.

Figure 4 is an exploded perspective view showing a driving force transmission device according to the present invention, Figure 5 is a bottom view showing the combined state of Figure 4 of the configuration and operation of the present design overlapping with the conventional configuration and operation of the description Omitted, only the same structure is assigned the same reference numeral as in the prior art.

First, the present invention is formed so that the guide groove 131 of the blowing fan 130 to form a quadrangle, and the fan rocker 110 also constitutes a quadrangle as a whole, ie the circumferential surface of the fan rocker 110 configured as described above, The shock absorbing member 111 is mounted on the contact surface between the fan rocker and the blowing fan 130.

At this time, the shock absorbing member is made of a rubber material, because it can absorb the shock generated between the blowing fan 130 and the fan rocker 110 most smoothly.

In addition, as described above, the reason why the fan locker 110 is formed in a quadrangle is that the fan locker is configured to form a flat surface as in a conventional form, so that the fan locker 110 directly contacts the guide groove 31 of the blower fan 3. The driving force can be transmitted smoothly, but if the shock absorbing member 111 is mounted on the circumferential surface of the fan rocker 110 as described above, the driving force of the fan motor 2 due to the sliding according to the shock absorbing member is made of rubber. This is because there is a problem that can not be accurately delivered to the blowing fan (130).

Therefore, in order to prevent the fan rocker 110 as a whole as described above to form a square so that the contact force between the fan rocker 110 and the blowing fan 130 to achieve the maximum to prevent the sliding of the fan locker 110. It is to be done.

The coupling process of the present invention drive force transmission device configured as described above is almost the same as the conventional, guide groove 131 constituting the blowing fan 130 in the state of only the shock absorbing member 111 is inserted into the circumferential surface of the fan locker 110 only. ), The join is complete.

In this way, when the fan motor 2 constituting the air conditioner is driven by the control of a controller (not shown), the driving force of the fan motor 2 as described above is a fan locker coupled to the motor shaft 121 ( Transmitted to 110, and the fan rocker 110 received such a driving force is to rotate the blowing fan 130 while rotating with the motor shaft, at this time, the impact between the blowing fan and the fan rocker 110 As the absorbing member 111 is mounted, the contact shock with the blowing fan 130 according to the rotation of the fan rocker is absorbed by the shock absorbing member.

In addition, in this case, since the shock absorbing member is made of rubber, the fan rocker 110 and the blowing fan 130 may be kept in close contact with each other, and thus the driving force of the fan motor 2 may be maintained without losing the blowing fan 130. Can be delivered.

On the other hand, the operation of the air conditioner according to the rotation of the blowing fan is the same as the conventional description thereof will be omitted.

As described above, the present invention improves the structure of the power transmission device constituting the ceiling type air conditioner, so that the fan locker is transmitted while making continuous contact with the blowing fan when the fan locker is rotated due to the driving of the fan motor. The shock is completely absorbed by the shock absorbing member to prevent the impact noise and to prevent the fan crack phenomenon.

In addition, the shock absorbing member as described above minimizes the wear of the fan locker so that the contact between the blower fan and the fan locker can always be made correctly, and the maintenance cost is reduced as the life of the fan locker can be maintained for a long time. There was too.

Claims (3)

In the air conditioner in which the fan locker is fixed between the motor shaft and the blower fan to transfer the driving force of the fan motor to the blower fan, And a shock absorbing member disposed between the fan locker and the blower fan to absorb the shock caused by the contact between the fan locker and the blower fan. The method of claim 1, The outer periphery of the fan locker is formed in a quadrangular shape, and the fan is formed in the coupling part so that the fan locker can be inserted and coupled so that the fan and the fan locker can be smoothly contacted even when the shock absorbing member of the fan locker is mounted. Driving force transmission device of the air conditioner, characterized in that. The method of claim 1, The shock absorbing member is a driving force transmission device of the air conditioner, characterized in that the rubber material excellent in the shock absorption effect.