KR101128614B1 - Fan for an air conditioning system - Google Patents

Abstract

The present invention relates to a blower for an air conditioning system, and the blower for intake and exhaust of indoor air and outdoor air to be supplied and ventilated by a single motor rotation in an integrated case, to induce a miniaturization of the product.

In the configuration of the present invention, in the blower (30) to allow the air supply and ventilation through the duct 20 to the pre / sensible heat exchanger main body 10 constituting the air conditioning system,

The blower 30 is provided with a mounting hole 32 as a central portion of the body, the support plate 31 is formed in a symmetrical semi-circular supply, vent discharge portion 36 to both sides;

A drive motor 40 having a body fitted into the installation hole 32 of the support plate 31 and fastened and fastened, and having drive shafts 41 provided on both upper and lower sides thereof;

A centrifugal fan 50 positioned above and below the drive motor 40 to be fastened and fixed to the drive shaft 41;

The upper and lower housings 31 and 34 are coupled to and fixed to the upper and lower portions of the support plate 31, and the suction port 35 is provided at the center of the body, and the semi-circular discharge portion 36 is formed at one side. do.

In addition, the blower 30 is installed in each of the indoor ventilation unit is connected to the heat exchanger main body 10 and the duct 20, respectively, it is driven by the control unit.

Heat exchanger, blower, housing, suction port, discharge part, control part

Description

Fan for air conditioning system {FAN FOR AN AIR CONDITIONING SYSTEM}

The present invention relates to a blower for an air conditioning system, and the blower for intake and exhaust of indoor and outdoor air is invented to miniaturize the product by allowing the air supply and ventilation to be performed by one motor rotation in an integrated case.

In general, in recent apartments or houses, due to the development of construction technology, the airtightness of the interior is greatly improved, and air conditioning and ventilation systems are installed because air is not provided without opening windows and the like.

The air conditioning system circulates the indoor air and the outdoor air by forcibly discharging the indoor air to the outside, and supplies the fresh air to the indoor air as shown in FIG. And a heat exchanger body (10) provided with a heat exchange element (11) intersecting the outdoor air and the indoor air.

The heat exchanger body 10 is installed to forcibly supply and vent the outdoor air and the indoor air while the blower 12 rotates, and such an air conditioning system is operated by a user directly or by detecting the internal air using a sensor. By operating the blower (12) to the air supply and ventilation is made indoors and outdoors.

That is, the heat exchanger main body 10 crosses each other in the process of rapidly supplying and venting indoor air and outdoor air using the blower 12 so that outdoor hot or cold air does not flow into the interior of the heat exchange element 11. By mutual heat exchange, the external air to be supplied does not suddenly raise or lower the room temperature to prevent heat loss.

However, the conventional air conditioning system has a blower for supplying and venting indoor air and outdoor air, respectively, inside the heat exchanger. Therefore, since the shape and volume of the heat exchanger are large, it is not easy to install the landfill and is difficult to maintain. There was this.

In addition, each blower used for supplying air and ventilation inside the heat exchanger of the air conditioning system is operated, and the noise generated is large, and construction costs and product costs are high, resulting in economical discontinuation.

In addition, since the blower is installed only inside the heat exchanger, when the air conditioner is operated, there is a problem that the energy loss is increased because the air is circulated in the entire building space instead of the required space.

Accordingly, an object of the present invention is to provide a blower for an air conditioning system in which air supply and ventilation are made by using a blower to reduce the inconvenience and problems of the related art as described above, thereby miniaturizing the size. .

Another object of the present invention is to provide a blower for an air conditioning system that is easy to install and maintain indoors by miniaturizing the size of the heat exchanger by installing the blower outside the heat exchanger.

It is still another object of the present invention to provide a blower for an air conditioning system in which a blower is installed in each of the divided spaces in each indoor area, and only the blower in the used space can be operated.

In the present invention for achieving the above object, in the blower (30) to allow the air supply and ventilation through the duct 20 to the pre / sensible heat exchanger main body 10 constituting the air conditioning system,

The blower 30 is provided with a mounting hole 32 as a central portion of the body, the support plate 31 is formed in a symmetrical semi-circular supply, vent discharge portion 36 to both sides;

A drive motor 40 having a body inserted into and fixed to an installation hole 32 of the support plate 31, and having drive shafts 41 provided on both upper and lower sides thereof;

A centrifugal fan (50) positioned above and below the driving motor (40) and fastened to the driving shaft (41);

The upper and lower portions of the support plate 31 are fixedly coupled to each other, and the suction hole 35 is provided at the center of the body, and the upper and lower housings 33 and 34 are formed to have a semicircular discharge portion 36 formed at one side thereof. do.

In addition, the blower 30 is installed in each of the indoor ventilation unit is connected to the heat exchanger main body 10 and the duct 20, respectively, it is driven by the control unit.

In the present invention having such a structure, a blower is installed outside the heat exchanger to reduce the size and weight of the heat exchanger, thereby easily selecting an installation position.

In addition, by using a single blower for the air supply and ventilation to reduce the volume and size to minimize the space occupied by the blower, it is easy to maintain the heat transfer and sensible heat exchanger main body and the blower.

In addition, the anti-wind prevention plate is provided as the discharge portion to increase the reliability of the product, to form the suction port and the discharge portion in the same direction, thereby improving the workability.

In addition, it is a very useful invention that can install the blower in each room to operate only the blower of the required place according to the situation to prevent energy loss and to minimize the noise due to the operation of the blower.

Looking at the configuration and operation and effects of the present invention for achieving the above object with reference to the accompanying drawings as follows.

Figure 2 shows the installation schematic of the blower for the air conditioning system to which the technique of the present invention is applied.

3 is an exploded perspective view of a blower to which the technique of the present invention is applied, and FIG. 4 shows a combined state of the blower to which the technique of the present invention is applied.

The air conditioner blower of the present invention is a device for sucking and discharging air to be supplied and ventilated using a single blower in the air conditioning system to circulate the outside air and the internal air in the interior of the building as shown in FIG.

The blower 30 may simultaneously perform air supply and ventilation by using a single device, and is separately installed in each room by connecting the duct 20 outside the heat exchanger body 10.

Therefore, the heat exchanger body 10 is reduced in size and weight, and the noise is eliminated by the separation of the blower 30, so that the heat exchange element 11 can be easily maintained by the consumer with a structure that facilitates installation or withdrawal. / Can be installed in a space that can be repaired, the capacity of the blower 30 is optimized for each room ventilation can be installed in the room to reduce the noise is reduced.

In addition, each installed in the indoor space, but the blower 30 to control at the same time and control each room through the control unit at the same time, by measuring the pollution degree of the indoor air through the sensor, it can automatically operate the blower (30) have.

As such, the configuration of the blower 30 is formed to have a discharge part 36 and a suction port 35 by combining the support plate 31 and the upper and lower housings 33 and 34 as shown in FIGS. 3 and 4. .

The support plate 31 is provided with a mounting hole 32 as a central portion of the plate-shaped body, and has a semicircular shape on both sides, and the air supply and ventilation discharge portion 36 through which air can move are symmetrically formed.

The body of the driving motor 40 is inserted into and fixed to the installation hole 32 of the support plate 31, and the driving shaft 41 extends concentrically on both sides of the driving motor 40.

The top and bottom of the drive motor 40, the centrifugal fan 50 is fastened and fixed to the drive shaft 41, the centrifugal fan 50 is rotated by the operation of the drive motor 40.

At this time, the sealing member is installed at the coupling portion of the support plate 31 and the driving motor 40 to maintain the sealed state and absorb vibrations above and below the support plate 31.

Therefore, when the centrifugal fan 50 coupled to the upper and lower portions of the support plate 31 is rotated by the operation of the drive motor 40, the air circulated is not mixed, and the same amount of air inflow is provided for supply and ventilation.

In addition, the upper and lower housings 33 and 34 formed with a space having a moving passage in the upper and lower portions of the support plate 31 are coupled to each other, and a sealing member is provided along the coupling surface to seal the inside. do.

In addition, a suction port 35 is provided at the center of the body of the upper and lower housings 33 and 34, and a semicircular discharge portion 36 is formed at one end thereof, and when the housing is assembled, the circular discharge portion 36 is formed. And a passage through which the air introduced through the suction port 35 moves to the discharge part 36 is provided.

As such, the assembled blower 30 generates pressure while the upper and lower centrifugal fans 50 perform centrifugal movement by the rotation of the driving motor 40 fixed to the support plate 31, and is connected to the suction port 35. The outside air is sucked at the same flow rate through the duct 20.

Then, the air introduced through the suction port 35 is discharged at the same flow rate through the cochlear discharge portion 36 to circulate the air.

In addition, as shown in Figs. 5 and 6, it is preferable that the anti-wind prevention plate 37 is provided in each of the air supply and ventilation discharge parts 36 of the blower 30.

The anti-wind prevention plate 37 is fixedly installed by the combination of the housing in the air supply and ventilation discharge unit 36, the pressure is discharged air by the operation of the blower 30, is introduced while being bent outwardly around the central axis Air is easily discharged.

In addition, while the blower 30 is not operated, the blower 30 maintains the initial state by the return spring provided on the central shaft, and serves to block backflow of external air.

The discharge part 36 and the suction port 35 of the blower 30 are formed to have the same air movement direction, and the installation property of the blower 30 is connected to the duct 20 to improve the workability.
A semi-circular horizontal suction opening 39 is formed at one side of the air supply and ventilation discharge unit 36 provided in the body of the support plate 31.
In addition, the suction part 35 of the upper and lower housings 33 and 34 is connected to a cover 38 having a semicircular horizontal suction hole 38 ′ at a position corresponding to the horizontal suction hole 39 to discharge the discharge portion ( It is connected to the duct 20 having the same air movement direction as 36).

That is, the upper and lower housings 33 and 34 have a cover 38 having a horizontal suction opening 38 ′ formed at one end of the suction port 35 of the blower 30 so as to have the same air moving direction as the discharge unit 36. To be coupled to the center of the body to surround the inlet (35) of.

At this time, the horizontal suction opening 38 ′ of the cover 38 has a semicircular shape, and the horizontal suction opening 39 of the semicircle is also formed on one side of the discharge part 36 of the support plate 31, so that the horizontal suction opening 39 is horizontal when the housing is assembled. The suction port 39 has the same direction as the discharge part 36 and is assembled in a circle, so that the air movement direction is the same.

In addition, the horizontal suction opening 38 ′ of the cover 38 has a circular shape and is integrally manufactured and installed in the upper and lower housings 33 and 34 to have the same air moving direction as the discharge unit 36. It can also be connected to the duct 20.

Therefore, the internal air of the indoor space is moved to the air supply discharge part 36 through the air supply inlet 35 by the operation of the blower 30, and passes through the duct 20 and the heat exchanger main body 10 connected thereto to the outside. The outside air of the building passes through the heat exchanger main body 10 and passes through the ventilation discharge part 36 through the ventilation suction port 35 to ventilate the indoor space.

The blower 30 has a support plate 31 installed inside the body to fix the driving motor 40 at the center thereof, and to fasten the centrifugal fan 50 at both sides of the motor to achieve the same air suction in both directions. As a result, the vibration of the blower 30 is reduced, the noise and the blowing efficiency can be improved, and the size and volume thereof can be reduced to be installed and controlled in each room.

1 is a schematic diagram of a blower for an air conditioning system to which the prior art is applied.

Figure 2 is a schematic diagram of the installation of the blower for the air conditioning system to which the technique of the present invention is applied.

Figure 3 is an exploded perspective view of the blower to which the technique of the present invention is applied.

Figure 4 is a combined state of the blower to which the technique of the present invention is applied.

5 is an exploded perspective view showing another embodiment of the present invention.

Figure 6 is a perspective view of the bonded state showing another embodiment of the present invention.

* Explanation of symbols used in the main part of the drawing *

10-heat exchanger body 20-duct

30-Blower 31-Support Plate

33-Upper Housing 34-Lower Housing

35-Suction port 36-Discharge part

40-Drive motor 50-Centrifugal fan

Claims (5)

In the blower 30 for supplying and venting the air through the duct 20 to the electric / sensible heat exchanger body 10 constituting the air conditioning system, The blower 30 is provided with a mounting hole 32 as a central portion of the body, the support plate 31 is formed in a symmetrical semi-circular supply, vent discharge portion 36 to both sides; A drive motor 40 having a body fitted into and fixed to the installation hole 32 of the support plate 31, and having drive shafts 41 provided on both upper and lower sides thereof; A centrifugal fan (50) positioned above and below the driving motor (40) and fastened to the driving shaft (41); The upper and lower portions of the support plate 31 are fixedly coupled to each other, and the suction port 35 is provided at the center of the body, and the upper and lower housings 33 and 34 are formed with a semicircular discharge portion 36 formed at one side. Blower for air conditioning system. The blower (30) according to claim 1, wherein the blowers (30) are respectively installed in the indoor ventilation unit and are connected to the heat exchanger main body (10) and the duct (20). The air blower for an air conditioning system according to claim 1, wherein the airflow preventing plate (36) of the blower (30) is provided with an anti-wind preventing plate (37), respectively. The method of claim 1, wherein the semi-circular horizontal suction port 39 is formed at one side of the air supply and ventilation discharge part 36 provided in the body of the support plate 31, and the suction holes of the upper and lower housings 33 and 34 are formed. A cover 38 having a semicircular horizontal suction opening 38 'formed at a position corresponding to the horizontal suction opening 39 is connected to the duct 20 having the same air movement direction as that of the discharge section 36. Blower for air conditioning system characterized in that the connection is installed. The upper and lower housings 33 and 34 of the blower 30 are provided with a cover 38 having a circular horizontal suction opening 38 'at one end thereof, and the same air as that of the discharge unit 36. Blower for the air conditioning system, characterized in that installed in the duct (20) having a moving direction.

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