KR100471002B1 - Operating Structure Impeller of Cooling Apparatus - Google Patents

Abstract

The present invention relates to a working structure of the impeller assembly of the cold air blower, the present invention is a casing provided with a collecting tank at the bottom, a water absorbing pad provided in the casing to absorb water, and a blowing fan disposed in front of the water absorbing pad to rotate And a water spreader provided in the upper region of the casing to spray water to the water absorption pad, a connecting pipe connecting the water spreader and the water collecting tank to each other, and water in the water collecting tank through the connecting pipe. A cold air fan having an impeller assembly for supplying, the impeller assembly comprising: an impeller wing rotatably provided in the sump tank; One end is coupled to the impeller wing to rotate the impeller wing, the other end is a rotating shaft disposed in the casing; A driven gear coupled to the other end of the rotating shaft; While integrally installed on the drive shaft of the drive motor for rotating the blowing fan is coupled to the driven gear and has a configuration including a drive gear for rotating the driven gear.

Accordingly, the present invention is not only capable of constantly rotating the impeller blades regardless of the temperature change of the outside air, but also advantageous for high-speed rotation of the impeller blades, and a cold air blower that significantly suppresses the deterioration of durability due to wear of parts. Will be provided.

Description

Operating Structure Impeller of Cooling Apparatus

The present invention relates to the operation structure of the impeller assembly of a cold air blower, and more particularly, it is not only able to rotate the impeller wings constantly regardless of the temperature change of the outside air, but also advantageous for the high speed rotation of the impeller blades, It relates to an impeller assembly operating structure of a cold air fan that significantly suppresses the deterioration of durability.

As is well known, the cold air blower is a device that blows cold air lower than normal temperature by blowing through a blower by using latent heat evaporated by water.

Such a cold air blower is provided with a water collecting tank at the bottom and a plurality of cold air discharge ports on the front, a water absorbing pad provided in the casing to absorb water, a blowing fan disposed and rotated in front of the water absorbing pad, and an upper region in the casing. And a water spreader provided at the water spray pad for spraying water to the water absorption pad, a connecting pipe connecting the water spreader and the water collecting tank to each other, and an impeller assembly supplying water in the water collecting tank to the water spreader through the connecting pipe.

A detailed description of the cold air fan will be given later, and only the impeller assembly disclosed as a part of the conventional cold air fan will be described.

Conventional impeller assembly 170, as shown in Figure 1, the impeller wing 171 rotatable provided in the sump (not shown), and one end is coupled to the impeller wing 171, the other end is a rotating shaft 172 is disposed in the casing ), Driven pulley 175 coupled to the other end of the rotary shaft 172, drive motor 174, drive pulley 173 coupled to the drive shaft of the drive motor 174, drive pulley 173 and driven It consists of a belt 176 for rotatably connecting the pulley 175 to each other.

Accordingly, when power is applied and the driving motor 174 rotates, the driving pulley 173 coupled to the driving shaft of the driving motor 174 rotates, and the rotational force of the driving pulley 173 is driven through the belt 176. After being transferred to the pulley 175, the rotating shaft 172 is rotated through the driven pulley 175.

As the rotating shaft 172 rotates, the impeller wing 171 provided at the lower end of the rotating shaft 172 also starts to rotate, and the water in the sump is water-spreaded through a connecting pipe (not shown) by a pump method. Headed to.

By the way, in the conventional cold air blower having an impeller assembly, since the belt can be increased according to the temperature change of the outside air, there is a disadvantage that the rotation speed of the impeller blades is not constant.

In addition, since the conventional impeller assembly adopts a pulley and a belt structure, the belt is not only detrimental to high speed rotation, but also abrasion of the belt may occur, and its durability may be degraded, or the belt may be damaged due to vibration or other external factors. There is a problem such as breaking.

Therefore, the cold air employing the pump motor is also disclosed due to this problem, but the cold air employing the pump motor has a disadvantage in that an impeller assembly must be separately provided.

Accordingly, the present invention has been made to improve the above problems, an object of the present invention is to be able to rotate the impeller blades constantly regardless of the temperature change of the outside air, as well as advantageous for high-speed rotation of the impeller blades, wear of parts It is to provide an impeller assembly operating structure of the cold air to operate through the gear drive to significantly suppress the degradation of the durability due to.

The present invention for achieving the above object, the casing is provided with a collecting tank in the bottom, a water absorption pad provided in the casing to absorb water, a blowing fan disposed in front of the water absorption pad and rotating, the casing A water spreader provided in an upper region of the water sprayer to spray water to the water absorption pad, a connecting pipe connecting the water spreader and the water collecting tank to each other, and an impeller assembly supplying water in the water collecting tank to the water spreader through the connecting pipe. In the cooler having a, the impeller assembly, the impeller wing rotatably provided in the sump; One end is coupled to the impeller wing to rotate the impeller wing, the other end is a rotating shaft disposed in the casing; A driven gear coupled to the other end of the rotating shaft; It is achieved by the impeller assembly operating structure of the cold air blower, characterized in that it comprises a drive gear that is integrally installed on the drive shaft of the drive motor for rotating the blowing fan to rotate with the driven gear to rotate the driven gear. .

Here, the drive gear on the drive shaft and the driven gear on the rotating shaft may be coupled to each other rotatably constitute a pair of bevel gears of which the rotation direction is variable.

In addition, any one of the drive gear on the drive shaft and the driven gear on the rotary shaft is provided with a worm, the other side may be equipped with a worm gear.

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

Figure 2 is a side cross-sectional view of the cold air according to the present invention, Figure 3 is a partial rear view of Figure 2 according to the present invention. Figure 4 is a cross-sectional view of the main portion of the impeller assembly according to the present invention, Figure 5 A perspective view showing the fastening state of the impeller assembly according to.

As shown in these drawings, the cold air blower according to the present invention forms an appearance and a casing 10 having a water collecting tank 15 at a bottom thereof, a water absorption pad 20 provided in the casing 10 to absorb water, A blowing fan 30 disposed in front of the water absorption pad 20 and rotated by the driving motor 80, and a water spreader provided in the upper region of the casing 10 to spray water to the water absorption pad 20. 50, a connecting pipe 60 interconnecting the water spreader 50 and the water collecting tank 15, and supplying water in the water collecting tank 15 to the water spreader 50 through the connecting pipe 60. It has an impeller assembly 70.

A plurality of cold air outlets 12a are formed on the front surface 12 of the casing 10, and a plurality of air intake holes 14a through which the outside air is sucked into the casing 10 are formed on the rear surface 14.

The moisture absorbing pad 20 is provided in the casing 10 adjacent to the air inlet 14a and is disposed long along the vertical direction of the casing 10.

The moisture absorbing pad 20 may be made of a material that easily absorbs moisture, for example, synthetic fibers or sponges.

An air filter 40 is mounted between the water absorption pad 20 and the rear surface 14 of the casing 10.

The air filter 40 is provided to filter the air sucked into the casing 10 through a plurality of air inlets 14a formed on the rear surface 14 of the casing 10.

Here, if you want to prevent the breeding of bacteria and maintain the clean air blowing, the water absorption pad 20 and the air filter 40 can be detached from the casing 10 will have to be washed or replaced after a certain period of time. .

The connecting pipe 60 has a suction nozzle 60a, one end of which is disposed in the water collecting tank 15, and a supply nozzle 60b, the other end of which is connected to the water spreader 50.

In addition, the water spreader 50 is provided in a typical spreader body 50a, a cover member 50b for opening and closing the upper opening surface of the spreader body 50a, and a spreader body 50a of the connecting pipe 60. The nozzle unit 50c coupled to the supply nozzle 60b and a plurality of injection nozzle holes (not shown) provided on the side of the spreader body 50a to supply water to the water absorption pad 20.

Accordingly, when the impeller assembly 70 is operated, water in the sump tank 15 flows in through the suction nozzle 60a, and then sequentially passes through the supply nozzle 60b and the nozzle portion 50c of the water spreader 50. Then, it is introduced into the spreader body 50a.

Water introduced into the spreader body 50a is sprayed to the water absorption pad 20 through a plurality of spray nozzles formed on the side of the spreader body 50a.

Meanwhile, FIGS. 4 and 5 schematically show an impeller assembly 70 for pumping water in the sump 15 into the spreader body 50a through the connecting pipe 60 as described above.

The impeller assembly 70, as shown in Figure 4 and 5, the impeller wing 71 rotatable provided in the sump 15, and one end is coupled to the impeller wing 71 to impeller wing 71 The other end is rotated, the rotating shaft 72 is disposed in the central region in the casing 10, the driven gear 73 is coupled to the other end of the rotating shaft 72, and the drive motor for rotating the blowing fan (30) And a drive gear 74 which is integrally installed on the drive shaft 81 of the 80 and coupled to the driven gear 73 to rotate the driven gear 73.

An impeller cap 75 is installed outside the impeller wing 71.

Conventionally, a pulley and a belt structure are employed to rotate the impeller wing 71, but in the present invention, the impeller wing 71 may be constantly rotated regardless of the temperature change of the outside air, and the impeller wing 71 may be used. Is mounted on the driven gear 73 and the drive shaft 81 of the drive motor 80 provided on the rotation shaft 72 to suppress the deterioration of durability due to the wear of the parts. The drive gear 74 is directly engaged.

As an embodiment of the method, as described above, the drive gear 74 provided on the drive shaft 81 of the drive motor 80 and the driven gear 73 provided on the rotation shaft 72 are rotatable with each other. A pair of bevel gears which are coupled and whose rotation direction is variable may be employed.

In this case, when the driving motor 74 is driven, the impeller blades 71 may be rotated while the driving gear 74 and the driven gear 73 made of a pair of bevel gears which are inclined to each other rotate directly.

In addition, as another embodiment of the present invention, a worm is provided on any one side of the drive gear 74 and the driven gear 73 on the rotation shaft 72 provided on the drive shaft 81 of the drive motor 80, the other A worm gear can also be attached to the side.

This method is also advantageous for the high-speed rotation of the impeller blades 71 as well as the constant rotation of the impeller wing 71 by the gear operation by the mutual coupling of the worm and the worm gear regardless of the temperature change of the outside air.

As such, by rotating the impeller blades 71 using the gears coupled to each other in the present invention, when the belt and the pulley are used as in the related art, the belt is worn out and its durability can be significantly suppressed.

Referring to the operation of the cold air fan to which the present invention having such a configuration is applied is as follows.

First, when power is applied and the driving motor 80 operates, the driving shaft 81 of the driving motor 80 rotates, and the driven gear coupled to the driving gear 74 integrally installed on the driving shaft 81. 73 will rotate.

Accordingly, the rotating shaft 72 supporting the driven gear 73 also rotates together with the driven gear 73. As a result, the impeller wing provided at the lower end of the rotating shaft 72 as the rotating shaft 72 rotates. 71 also starts to rotate.

Therefore, when the impeller wing 71 starts to rotate, the water in the water collecting tank 15 flows in through the suction nozzle 60a, and then the nozzle unit 50c of the supply nozzle 60b and the water spreader 50. It flows into the spreader main body 50a via one after another.

As the water introduced into the spreader body 50a is sprayed to the water absorption pad 20 through a plurality of injection nozzles formed on the side of the spreader body 50a, the water absorption pad 20 is wetted by the water sprayed. do.

Meanwhile, in addition to the above process, the blowing fan 30 provided in the casing 10 rotates as the drive motor 80 rotates, and external air is moved by the rotational force of the blowing fan 30 to the casing 10. It is sucked through the air intake port (14a) formed on the back (14) of.

The air sucked in this way is filtered by the air filter 40, and then transferred to the moisture absorbing pad 20.

When air is supplied to the moisture absorbing pad 20 through the air suction port 14a, the outer surface of the moisture absorbing pad 20 removes the latent heat of the surroundings while evaporation occurs by the supplied air.

Air cooled in the vicinity of the water absorption pad 20 by the latent heat evaporating as described above is discharged to the cold air outlet 12a formed on the front surface 12 of the casing 10 through the blower fan 30 so that the user can cool the air. You can feel it.

As described above, according to the cooler of the present invention, the structure of the impeller assembly 70 is improved, so that the impeller wing 71 can be constantly rotated regardless of the temperature change of the outside air, and the impeller wing 71 can be rotated at high speed. It is advantageous and can significantly suppress that the durability decreases due to the wear of the parts.

As described above, according to the present invention, by driving the impeller assembly of the cold air fan is configured to operate through the gear, the impeller wing is fixed regardless of the temperature change of the outside air compared to when driving the impeller assembly using a conventional belt and pulley Not only can it be rotated smoothly, it is advantageous for the high speed rotation of the impeller blades, and there is an effect that the durability can be significantly suppressed that the durability decreases due to the wear of the parts.

1 is a partial exploded cross-sectional view of an impeller assembly of a conventional cold air fan,

2 is a side cross-sectional view of a cold air fan according to the present invention;

3 is a partial rear view of FIG. 2 according to the present invention;

Figure 4 is a cross-sectional view of the main part of the impeller assembly according to the present invention, Figure 5 is a perspective view showing a fastening state of the impeller assembly according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: casing 12a: cold air outlet

14a: air intake 20: water absorption pad

30: blower fan 40: air filter

50: water spreader 60: connector

70 impeller assembly 71 impeller wing 72 rotary shaft 73 driven gear 74 drive gear 80 drive motor 81 drive shaft

Claims (3)

A casing provided with a collecting tank at a bottom, a water absorbing pad provided in the casing to absorb water, a blowing fan disposed in front of the water absorbing pad, and a rotating fan, and a water absorbing pad provided in the upper region of the casing. In the cold air blower having a water spreader for spraying, a connecting pipe for interconnecting the water spreader and the water collecting tank, and an impeller assembly for supplying water in the water collecting tank through the connecting pipe, The impeller assembly, An impeller wing rotatably provided in the sump; One end is coupled to the impeller wing to rotate the impeller wing, the other end is a rotating shaft disposed in the casing; A driven gear coupled to the other end of the rotating shaft; The impeller assembly operating structure of the cold air blower characterized in that it comprises a drive gear that is integrally installed on the drive shaft of the drive motor for rotating the blower fan and coupled to the driven gear to rotate the driven gear. The method of claim 1, The drive gear on the drive shaft and the driven gear on the rotating shaft is coupled to each other rotatably coupled to the impeller assembly operating structure of the cold air characterized in that the rotation direction is variable. The method of claim 1, The impeller assembly operating structure of the cold air blower, characterized in that the worm is provided on one side of the drive gear on the drive shaft and the driven gear on the rotating shaft, the worm gear is mounted on the other side.