KR20230126353A - Blowing fan for air conditioning and air conditioning system equipped with this - Google Patents

Abstract

The present invention relates to an air conditioning blower fan for easily controlling the air volume of the air conditioning blower fan using an air volume control module and an air conditioning system equipped with the same. The air conditioning blower fan allows a material to be cooled to pass through a condensation coil that forms the movement path of a refrigerant for heat exchange between the refrigerant and the material to be cooled and comprises: a sirocco body consisting of a hollow body; a fan shaft rotatably coupled to the sirocco body; a sirocco wing coupled to the fan shaft inside the sirocco body; a sirocco motor coupled to the sirocco body to rotate the sirocco wing; and an air volume control module coupled to the sirocco body to control the discharge amount of a material to be cooled contained within the sirocco body.

Description

BLOWING FAN FOR AIR CONDITIONING AND AIR CONDITIONING SYSTEM EQUIPPED WITH THIS}

The present invention relates to a blower fan for air conditioning and an air conditioning system equipped with the same, and more particularly, to a blower fan for air conditioning for conveniently adjusting the air volume of the blower fan for air conditioning using an air volume control module, and a blower fan for air conditioning equipped with the same. It's about the air conditioning system.

Air conditioners are installed to provide a more comfortable indoor environment to humans by discharging cold and hot air into the room to adjust the indoor temperature and purify the indoor air to create a comfortable indoor environment. In general, an air conditioner includes an indoor unit configured as a heat exchanger and installed indoors, and an outdoor unit configured as a compressor and a heat exchanger to supply refrigerant to the indoor unit.

Such an air conditioner is controlled by being separated from an indoor unit composed of a heat exchanger and an outdoor unit composed of a compressor and heat exchanger, etc., and is operated by controlling power supplied to the compressor or heat exchanger. Also, the air conditioner may connect at least one indoor unit to the outdoor unit, supply refrigerant to the indoor unit according to a requested operating state, and operate in a cooling or heating mode.

Republic of Korea Patent Publication No. 10-2014-0129779 (title of invention: air conditioner and air conditioner control method, published on November 7, 2014)

SUMMARY OF THE INVENTION An object of the present invention is to solve the conventional problems, and to provide a blower fan for air conditioning and an air conditioning system equipped with the blower fan for conveniently adjusting the air volume of the blower fan for air conditioning using an air volume control module.

According to a preferred embodiment for achieving the above object of the present invention, the blower fan for air conditioning according to the present invention includes a condensing coil in which the cooled object forms a flow path for the refrigerant for heat exchange between the refrigerant and the object to be cooled. A blowing fan for air conditioning to pass through, a sirocco body made of a hollow housing; a fan shaft rotatably coupled to the sirocco body; Sirocco wings coupled to the fan shaft inside the sirocco body; A sirocco motor coupled to the sirocco body to rotate the sirocco wing; and an air volume control module that is coupled to the sirocco body and adjusts the discharge amount of the cooled material accommodated in the sirocco body.

Here, the sirocco body includes an input unit that is open in an axial direction of the fan shaft and into which the cooling object flows; an output unit that is open in a direction perpendicular to the fan axis and discharges the object to be cooled; and a discharge space accommodating the object to be cooled and forming an installation space for the sirocco blades and the air volume control module, wherein the air volume control module controls the opening degree of the output unit.

Here, the air volume control module may include a control shaft rotatably coupled to the sirocco body so as to be parallel to the fan shaft; Control wings coupled and fixed to the control shaft from the inside of the sirocco body; and a control motor that is spaced apart from the sirocco motor and is coupled to the sirocco body and rotates the control shaft to control the opening of the output unit.

An air conditioning system according to the present invention includes a compressor for compressing a high-temperature and low-pressure refrigerant; a condenser that exchanges heat between the high-temperature and high-pressure refrigerant delivered from the compressor and an object to be cooled; an expansion valve for expanding the low-temperature and high-pressure refrigerant delivered from the condenser; and an evaporator for heat-exchanging the low-temperature and low-pressure refrigerant transferred from the expansion valve with an object to be cooled, wherein the condenser includes: a hollow condensation body; a condensation coil built into the condensation body to form a flow path for the refrigerant; and a condensation fan for discharging the object to be cooled inside the condensation body to the outside of the condensation body for heat exchange between the refrigerant and the object to be cooled, wherein the condensation fan includes a blower fan for air conditioning according to the present invention. do.

According to the blower fan for air conditioning and the air conditioning system equipped with the fan according to the present invention, the air volume of the blower fan for air conditioning can be conveniently adjusted using the air volume control module.

In addition, in the present invention, the sirocco motor does not use a conventional inverter method, the rotational speed of the sirocco blade by the sirocco motor can be kept constant, and the cooling water discharged from the sirocco body through the coupling relationship of the air volume control module The amount of discharge can be easily controlled, and the refrigerant smoothly reaches the appropriate temperature and pressure in the condenser before the refrigerant circulation cycle is stabilized.

In addition, the present invention can conveniently control the air volume of the object to be cooled discharged from the blower fan for air conditioning by adjusting the opening of the output unit through the air volume control module.

In addition, the present invention can conveniently adjust the opening of the output unit through the detailed coupling relationship of the air volume control module.

1 is a diagram showing an air conditioning system according to an embodiment of the present invention.
2 is a diagram showing a condenser applied to an air conditioning system according to an embodiment of the present invention.

Hereinafter, an embodiment of a blowing fan for air conditioning according to the present invention and an air conditioning system equipped therewith will be described with reference to the accompanying drawings. At this time, the present invention is not limited or limited by the examples. In addition, in describing the present invention, detailed descriptions of well-known functions or configurations may be omitted to clarify the gist of the present invention.

1 and 2 , an air conditioning system according to an embodiment of the present invention may include a compressor 10, a condenser 20, an expansion valve 40, and an evaporator 50.

The compressor 10 compresses the refrigerant used in air conditioning. The compressor 10 may compress the refrigerant through various known types. The refrigerant discharged from the compressor 10 may represent a high-temperature and high-pressure gaseous state.

The condenser 20 condenses the gaseous refrigerant delivered from the compressor 10 . The condenser 20 allows heat to be transferred from the refrigerant to the object to be cooled. The refrigerant discharged from the condenser 20 may represent a low-temperature and high-pressure liquid state.

The condenser 20 includes a hollow condensation body 21, a condensation coil 25 built into the condensation body 21 to form a refrigerant flow path, and the inside of the condensation body 21 for heat exchange between the refrigerant and the object to be cooled. It may include a condensation fan 26 for discharging the cooling object to the outside of the condensation body 21.

The condensation body 21 includes a coil body 22 in which a condensation coil 25 is built-in, a blowing body 23 in which a condensation fan 26 is built-in, and a coil body 22 and a blowing body through which cooling objects pass. It may include a support partition wall 24 partitioning (23).

The coil body 22 may include a suction part 211 into which an external cooling object flows, and a condensing space 212 communicating with the suction part 211 to form an installation space for the condensing coil 25 . The cooling object is accommodated in the condensation space 212 .

The blowing body 23 may include a discharge part 213 through which cooling water is discharged to the outside, and a blowing space 214 communicating with the discharge part 213 to form an installation space for the condensation fan 26 . An object to be cooled is accommodated in the blowing space 214 .

The support partition wall 24 may include a transmission part 215 communicating the condensation space 212 and the blowing space 214 to each other.

The condensation coil 25 may take on various well-known forms.

The condensation fan 26 may include a blowing fan for air conditioning according to an embodiment of the present invention.

A blowing fan for air conditioning according to an embodiment of the present invention may include a sirocco body 31, a fan shaft 32, a sirocco blade 33, a sirocco motor 34, and an air volume control module 35. can

The sirocco body 31 is made of a hollow enclosure.

In the sirocco body 31, an input unit 311 opened in the axial direction of the fan shaft 32 and through which the cooling water flows in, and an output unit 312 opened in a direction perpendicular to the fan shaft 32 and through which the cooling water is discharged. And, a discharge space 313 forming an installation space for the sirocco wing 33 and the control wing 352 included in the air volume control module 35 may be included. The cooling object is accommodated in the discharge space 313 .

In the sirocco body 31, the output bracket 314 for coupling with the surface provided with the discharge part 213 in the blowing body 23 and the surface provided with the delivery part 215 in the support partition 24 Since at least one of the support brackets 315 for coupling is further included, the sirocco body 31 can be stably built into the blowing body 23.

The fan shaft 32 is rotatably coupled to the sirocco body 31 . The center of the fan shaft 32 is coaxial with the center of the input unit 311 provided in the sirocco body 31 .

The sirocco blade 33 is coupled and fixed to the fan shaft 32 in the discharge space 313 inside the sirocco body 31. The sirocco wing 33 may represent various known shapes.

The sirocco motor 34 is coupled to the sirocco body 31 to rotate the fan shaft 32 . The sirocco motor 34 does not have to adopt an inverter method.

The air volume control module 35 is coupled to the sirocco body 31 and adjusts the discharge amount of the cooled material accommodated in the sirocco body 31 . The air volume control module 35 controls the opening of the output unit 312 provided on the sirocco body 31 .

The air volume control module 35 includes a control shaft 351 rotatably coupled to the sirocco body 31 so as to be parallel to the fan shaft 32, and a control shaft 351 in the discharge space 313 inside the sirocco body 31. ) It may include a control wing 352 coupled to and fixed, and a control motor 353 that is spaced apart from the sirocco motor 34 and coupled to the sirocco body 31 and rotates the control shaft 351.

The expansion valve 40 expands the liquid refrigerant delivered from the condenser 20 . The expansion valve 40 may expand the refrigerant through various well-known forms. The refrigerant discharged from the expansion valve 40 represents a low-temperature, low-pressure liquid state.

The evaporator 50 evaporates the liquid refrigerant delivered from the expansion valve 40 . The evaporator 50 allows heat to be transferred from the object to be cooled to the refrigerant. The refrigerant discharged from the evaporator 50 may exhibit a high-temperature and low-pressure gaseous state, and is delivered to the compressor 10 to form a closed loop.

The evaporator 50 includes a hollow evaporation body 51, an evaporation coil 52 built into the evaporation body 51 to form a refrigerant movement path, and the inside of the evaporation body 51 for heat exchange between the refrigerant and the object to be cooled. It may include an evaporation fan 53 for discharging the cooling water to the outside of the evaporation body 51.

A detailed configuration of the evaporator 50 may be substantially the same as that of the condenser 20 described above.

Looking at the operation of the air conditioning system according to an embodiment of the present invention, the compressor 10 compresses the high-temperature and low-pressure gaseous refrigerant and sends it to the condenser 20, and the condenser 20 avoids the high-temperature and high-pressure gaseous refrigerant. It exchanges heat with the cooling water and sends it to the expansion valve (40).

At this time, the refrigerant in the condenser 20 is condensed into a low-temperature, low-pressure liquid state by heat exchange with the object to be cooled. In the initial heat exchange process of the condenser 20, the refrigerant must maintain a constant high-temperature and high-pressure state. Since it is continuously supplied, the refrigerant in the condenser 20 cannot reach an appropriate temperature and pressure. Accordingly, since the opening of the output unit 312 is adjusted according to the operation of the air volume control module 35 in the initial heat exchange process of the condenser 20, the air volume of the object to be cooled passing through the condensing coil 25 is conveniently controlled, The refrigerant can smoothly reach an appropriate temperature and pressure in the condenser 20 before the circulation cycle of the refrigerant is stabilized. After the circulation cycle of the refrigerant is stabilized, normal operation is performed according to the temperature and pressure of the refrigerant.

The expansion valve 40 expands the low-temperature and high-pressure liquid refrigerant and sends it to the evaporator 50, and the evaporator 50 exchanges heat with the low-temperature and low-pressure liquid refrigerant and sends it to the compressor 10. It is possible to cool the room with the cooling material discharged from the evaporator 50 while the refrigerant circulates. Here, the object to be cooled is made of air.

According to the above-described blower fan for air conditioning and the air conditioning system equipped with the same, the air volume of the blower fan for air conditioning can be conveniently adjusted using the air volume control module 35 .

In addition, the sirocco motor 34 does not use a conventional inverter method, the rotational speed of the sirocco blades 33 by the sirocco motor 34 can be maintained constant, and the coupling relationship of the air volume control module 35 Through this, it is possible to easily control the discharge amount of the cooling object discharged from the sirocco body 31, and the refrigerant smoothly reaches the proper temperature and pressure in the condenser 20 before the circulation cycle of the refrigerant is stabilized.

In addition, by adjusting the opening of the output unit 312 through the air volume control module 35, the air volume of the object to be cooled discharged from the air conditioning blower fan can be easily controlled.

In addition, it is possible to conveniently adjust the opening of the output unit 312 through the detailed coupling relationship of the air volume control module 35 .

As described above, the preferred embodiments of the present invention have been described with reference to the drawings, but those skilled in the art can make various modifications to the present invention within the scope not departing from the spirit and scope of the present invention described in the claims below. may be modified or changed.

10: compressor 20: condenser 21: condensation body
211: suction part 212: condensation space 213: discharge part
214: blowing space 215: delivery unit 22: coil body
23: blower body 24: support bulkhead 25: condensation coil
26: condensation fan 31: sirocco body 311: input
312: output unit 313: discharge space 314: output bracket
315: support bracket 32: fan shaft 33: sirocco wing
34: sirocco motor 35: air volume control module 351: control shaft
352: control wing 353: control motor 40: expansion valve
50: evaporator 51: evaporation body 52: evaporation coil
53: evaporation fan

Claims (4)

A blower fan for air conditioning that allows the cooled material to pass through a condensing coil forming a flow path of the refrigerant for heat exchange between the refrigerant and the cooled material;
A sirocco body consisting of a hollow body;
a fan shaft rotatably coupled to the sirocco body;
Sirocco wings coupled to the fan shaft inside the sirocco body;
A sirocco motor coupled to the sirocco body to rotate the sirocco wing; and
Blowing fan for air conditioning, characterized in that it comprises a; air volume control module coupled to the sirocco body to adjust the discharge amount of the cooling object accommodated in the sirocco body.
According to claim 1,
In the sirocco body,
an input unit that is open in the axial direction of the fan shaft and into which the object to be cooled flows;
an output unit that is open in a direction perpendicular to the fan axis and discharges the object to be cooled; and
A discharge space accommodating the cooling object and forming an installation space for the sirocco blade and the air volume control module;
The air volume control module,
Blowing fan for air conditioning, characterized in that for adjusting the opening degree of the output unit.
According to claim 2,
The air volume control module,
an adjustment shaft rotatably coupled to the sirocco body in parallel with the fan shaft;
Control wings coupled and fixed to the control shaft from the inside of the sirocco body; and
A blowing fan for air conditioning, characterized in that it comprises a; control motor that is spaced apart from the sirocco motor and coupled to the sirocco body and rotates the control shaft to adjust the opening of the output unit.
A compressor for compressing high-temperature and low-pressure refrigerant;
a condenser that exchanges heat between the high-temperature and high-pressure refrigerant delivered from the compressor and an object to be cooled;
an expansion valve for expanding the low-temperature and high-pressure refrigerant delivered from the condenser; and
An evaporator for heat-exchanging the low-temperature and low-pressure refrigerant transferred from the expansion valve with the object to be cooled;
the condenser,
a hollow condensed body;
a condensation coil built into the condensation body to form a flow path for the refrigerant; and
And a condensation fan for discharging the cooling object inside the condensation body to the outside of the condensation body for heat exchange between the refrigerant and the cooling object,
The condensation fan,
An air conditioning system comprising the blowing fan for air conditioning according to any one of claims 1 to 3.

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