KR101861677B1 - Air-conditioner - Google Patents

Abstract

The present invention relates to an air conditioner, and more particularly to an air conditioner having a case having an air inlet and an air outlet, an outdoor heat exchanger provided inside the case, a blowing fan provided inside the case to generate air flow, A windshield device for blocking external air from being directly introduced into the front surface of the air intake port and an airflow control member for adjusting the opening of the bypass intake port. The present invention can stably perform the cooling operation even at a low temperature by controlling the amount of the air flowing into the case from the windshield device installed on the air inlet side of the air conditioner more quickly and accurately.

Description

Air-conditioner

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner, and more particularly, to an air conditioner capable of stably performing a cooling operation even when the outdoor temperature is low.

The air conditioner is a device for cooling / heating the room or purifying the air to create a more comfortable indoor environment for the user.

Such an air conditioner can be divided into a separate type air conditioner in which the indoor unit and the outdoor unit are separated from each other, and an integrated type air conditioner in which the indoor unit and the outdoor unit are combined into one unit. In addition, a single type air conditioner configured to be used in a narrow place with a capacity capable of driving one indoor unit according to the capacity of the air conditioner, a large-sized air conditioner configured with a very large capacity for use in a company or a restaurant, And a multi-air conditioner configured to sufficiently drive an indoor unit.

Here, the separate type air conditioner is composed of an indoor unit installed in the indoor space to supply warm air or cold air to the inside of the air conditioning space, and an outdoor unit that compresses and expands the refrigerant so that a sufficient heat exchange operation can be performed in the indoor unit.

Such an air conditioner has a cycle in which the refrigerant circulating inside circulates heat in the order of compression, condensation, expansion and evaporation. According to the cycle, the air conditioner operates as a cooling cycle for discharging the heat in the room to the outside during the summer, and as a heating cycle for heating the heat pump to circulate heat to the room in the opposite direction to the cooling cycle during the winter season.

On the other hand, when the cooling operation of the air conditioner is performed in an environment having a low outdoor temperature (for example, -5 DEG C), the refrigerant condensation temperature or condensation pressure in the outdoor heat exchanger is lowered, It is difficult to operate normally due to escape or increased amount of liquid refrigerant.

Accordingly, in order to reduce the amount of low-temperature external air flowing into the interior of the outdoor unit, a damper for controlling an air discharge amount on the outdoor unit air outlet side and a wind shield are provided on the air inlet side.

However, the damper provided on the side of the air outlet of the outdoor unit is not a method of directly controlling the amount of air to be introduced, but it is difficult to accurately control the amount of air inflow because it is an indirect method of controlling the amount of air flowing in from outside by adjusting the amount of air in the outdoor unit.

In addition, since both the damper and the windshield are installed in the outdoor unit, the volume of the outdoor unit is increased, and the installation space of the air conditioner is limited.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems of the prior art, and it is an object of the present invention to provide an air conditioner which can smoothly perform cooling operation even at a low temperature by more accurately controlling the amount of low- And to provide a miniaturized air conditioner.

In order to achieve the above object, an air conditioner according to a preferred embodiment of the present invention includes a case having an air inlet and an air outlet, an outdoor heat exchanger provided inside the case, A ventilation fan which has a blowing fan for generating a flow and a bypass suction port and is provided at the air suction port side to block external air from being directly introduced into the front surface of the air suction port and an air flow control device for controlling the opening degree of the bypass suction port And the air introduced through the bypass inlet flows into the outdoor heat exchanger through the air inlet.

In the present invention, it is preferable that the windshield device includes a front member facing the air inlet, a side member coupled to both sides of the front member and the case, a top member coupled to the front member and the side member, And a lower member coupled to the lower side of the side member.

In addition, the present invention is characterized in that the bypass member is provided on the side member.

Further, the present invention is characterized in that the bypass member is provided on the front member.

Further, in the present invention, the front member and the top surface member are inclined downward, and the bypass member is provided on the bottom member.

In addition, the present invention is characterized in that the air volume adjusting member is a vane that rotates around an axis in the vertical direction.

Further, in the present invention, the bypass inlet is divided into a plurality of suction areas, and the air volume adjusting member is a blade for adjusting the opening of each suction area.

In addition, the present invention is characterized in that the case includes a plurality of the wind-up units provided with a plurality of the air inlets and a plurality of the air inlets.

Further, the present invention is characterized by including a control unit for controlling the operation of the blowing fan and the opening of the air volume adjusting member in accordance with the outdoor temperature or the condensation pressure of the refrigerant during the cooling operation of the air conditioner.

Further, the present invention is characterized in that the controller reduces the RPM of the blowing fan when the outdoor temperature or refrigerant condensation pressure is reduced to a first set value or less.

The present invention is characterized in that the control unit reduces the opening degree of the air flow rate adjusting member when the outdoor temperature or the refrigerant condensation pressure is reduced to a second predetermined value or lower than the first set value.

Further, in the present invention, the controller controls the air flow rate adjusting member to shield the bypass inlet when the outdoor temperature or the refrigerant condensation pressure is reduced to a third predetermined value or lower than the second set value .

Further, according to the present invention, when the bypass inlet is shielded, the control unit stops the operation of the blowing fan.

According to the present invention, it is possible to control the amount of inflow air more quickly and accurately by directly controlling the amount of air flowing into the outdoor unit from the windshield device installed on the air intake port side of the outdoor unit.

In addition, according to the present invention, the windshield device can block external air from being directly introduced into the air intake port, and performs both functions of controlling the amount of air flowing in. Therefore, no additional structure is required, can do.

1 is a configuration diagram of an air conditioner according to a preferred embodiment of the present invention.
2 is a cross-sectional view of an air conditioner having a windshield device according to a preferred embodiment of the present invention.
3 is a perspective view of an air conditioner having a windshield device according to a preferred embodiment of the present invention.
4 is a perspective view of a windshield device having a vane according to a preferred embodiment of the present invention.
5 is a perspective view of a windshield device having a blade according to a preferred embodiment of the present invention.
6 is a perspective view of a windshield device according to a preferred embodiment of the present invention in which a bypass inlet is closed.
7 is a perspective view showing a modified example of the windshield device according to the present invention.
8 is a perspective view of an air conditioner having a plurality of windshields according to a preferred embodiment of the present invention.

Hereinafter, an air conditioner according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

In addition, the same or corresponding components are denoted by the same reference numerals regardless of the reference numerals, and redundant description thereof will be omitted. For convenience of explanation, the size and shape of each constituent member shown may be exaggerated or reduced have.

On the other hand, terms including an ordinal number such as a first or a second may be used to describe various elements, but the constituent elements are not limited by the terms, and the terms may refer to a constituent element from another constituent element It is used only for the purpose of discrimination.

As shown in FIG. 1, the air conditioner according to the present invention may include a plurality of outdoor units 100a, 100b, and 100c and at least one indoor unit 200a, 200b, and 200c. The outdoor units 100a, 100b and 100c are provided with an outdoor heat exchanger, a compressor and an outdoor fan. The indoor units 200a, 200b and 200c may be provided with an indoor heat exchanger and an indoor fan. but. The present invention is applicable to a single type air conditioner including a single indoor unit and an outdoor unit.

In this document, the air conditioner may be used as a concept including both an outdoor unit and an indoor unit, or may be used as a concept including only an outdoor unit. For convenience of explanation, the air conditioner will be limited to only an outdoor unit .

FIG. 2 is a cross-sectional view of an air conditioner having a windshield device according to a preferred embodiment of the present invention, and FIG. 3 is a perspective view of an air conditioner having a windshield device of the present invention.

The air conditioner according to the present invention includes a case 110 having an air inlet 112 and an air outlet 114, an outdoor heat exchanger 120 provided inside the case 110, A ventilation device 300 having a bypass inlet 310 for blocking external air from directly entering the front of the air inlet 112, And an air flow rate regulating member 320 for regulating the opening degree of the air flow.

In addition, the air conditioner may include an expansion valve (not shown) for expanding the refrigerant, a compressor 140 for compressing the refrigerant, and an accumulator 150 for preventing the liquid coolant from flowing into the compressor 140.

First, the case 110 of the present invention forms an outer appearance of an outdoor unit and plays a role of supporting internal components. The case 110 may have a structure in which a plurality of unit cases 110 are assembled. In one embodiment, the case 110 has an air inlet 112 through which external air is sucked into the side surface, and an air outlet 114 through which the heat-exchanged air is discharged onto the upper surface of the case 110. The air inlet 112 and the air outlet 114 may be provided in the case 110 according to the cooling / heating performance of the air conditioner.

Next, the outdoor heat exchanger 120 functions to exchange heat between the air sucked into the case 110 and the refrigerant. The outdoor heat exchanger (120) is provided on the side of the air inlet (112) inside the case (110). In order to increase the heat exchange area, the outdoor heat exchanger 120 may have a shape bent in a 'C' shape or a 'C' shape so as to face the plurality of air intake openings 112 face to face.

Next, the blowing fan 130 sucks outside air into the case 110, and discharges the heat-exchanged inside air to the outside of the case 110. The blowing fan 130 is disposed on the side of the air outlet 114 in the case 110, and a plurality of the blowing fans 130 may be provided.

The cooling operation of the air conditioner will be briefly described as follows. The refrigerant condensed by heat exchange with the outside air in the outdoor heat exchanger (120) expands while passing through the expansion valve, and becomes a low temperature and low pressure state. The low-temperature refrigerant flows into the indoor heat exchanger and absorbs the heat of the room air, thereby cooling the room.

At this time, according to the present invention, the external air to be heat-exchanged with the outdoor heat exchanger 120 is introduced through the bypass inlet 310 of the wind guard 300 and is guided through the air inlet 112 to the outdoor heat exchanger 120). That is, the outside air does not directly flow into the air intake port 112 of the case 110 but flows into the windshield 300 through the bypass intake port 310 and enters the air intake port 112 provided in the case 110, .

The present invention can control the amount of inflow air by controlling the RPM of the air blowing fan 130 as well as adjusting the amount of external air flowing into the air conditioner by using the air volume adjusting member 320 provided in the wind guard 300, Can be adjusted. Accordingly, the present invention can lower the heat exchange load of the outdoor heat exchanger 120 and can stably perform the cooling operation even at a low temperature. Hereinafter, the windshield device 300 will be described in detail with reference to the drawings.

As shown in FIG. 4, the windshield device 300 of the present invention has a bypass inlet 310 through which external air is sucked, and a flow rate control member 320 is installed in the bypass inlet 310. The windshield device 300 prevents the direct introduction of the low temperature external air to the front surface of the air inlet 112 of the case 110 so that the temperature or the pressure of the internal refrigerant in the outdoor heat exchanger 120 is prevented from being drastically reduced have.

The windshield device 300 of the present invention may have a box-like shape with one side opened, but it is not limited thereto and may have various shapes depending on an installation space or an operating environment.

The members constituting the external appearance of the wind guard 300 include a front member 331 facing the air inlet 112, a side member 332 coupled to both sides of the front member 331 and the case 110, An upper face member 333 which is coupled to the upper side of the front face member 331 and the side face member 332 and a lower face member 334 which is coupled to the lower side of the face member 331 and the side face member 332. However, the number of members constituting the wind guard 300 may vary depending on the shape of the wind guard 300 (for example, a triangular prism or a cylindrical shape).

A bypass inlet 310 through which external air is sucked is provided on one side of the windshield 300. Specifically, a bypass inlet 310 may be provided in the side member 332. Since the area of the side member 332 that sucks air is smaller than that of the front member 331, there is a limitation on the amount of air to be introduced even when the outside air suddenly increases, and the amount of inflow air can be controlled in a smaller unit. In addition, since the air introduced from the side member 332 flows through the curved flow path into the air inlet 112 located at a predetermined angle and spaced apart from the side member 332, it is prevented from directly contacting the outdoor heat exchanger 120 can do.

Alternatively, the front member 331 may be provided with a bypass inlet 310. Since the front member 331 faces the air inlet 112, external air can flow into the air inlet through the bypass inlet 310 in a linear direction, thereby reducing the flow resistance of the air.

The air volume adjusting member 320 is provided in the bypass inlet 310 to adjust the opening of the bypass inlet 310. The air amount adjusting member 320 can control the amount of air introduced by controlling the opening of the bypass inlet 310 by blocking a part of the open portion of the bypass inlet 310. [ That is, it is possible to reduce the amount of air inflow by reducing the area of the bypass inlet 310 that is opened, or to increase the area of the open bypass inlet 310 to increase the air inflow.

The air flow rate regulating member 320 may be a vane (see FIG. 4) or a blade (see FIG. 5). The vane is panel-shaped and adjusts the opening of the bypass inlet 310 by rotating about a vertical axis. Both sides of the vane can be coupled to the top surface member 333 and the bottom surface member 334, respectively.

On the other hand, the blade is in a panel shape and adjusts the opening of the bypass inlet 310 by rotating about a horizontal axis. That is, the bypass inlet 310 can be divided into a plurality of suction areas, and the blades adjust the opening of each suction area. Both sides of the blade may be coupled to the side member 332 or may be coupled to the side member 332 and one side of the case 110, respectively.

As shown in FIG. 6, the air amount adjusting member 320 shields the bypass air inlet 310, thereby preventing external air from flowing into the air conditioner. When it is necessary to raise the refrigerant condensation pressure in the outdoor heat exchanger 120 suddenly for normal operation of the compressor 140, the air flow rate regulating member 320 shields the bypass inlet 310.

7, the front surface member 331 and the top surface member 333 of the wind guard 300 may be inclined downward. The top surface member 333 and the front surface member 331 are inclined downward so that snow does not accumulate on the upper surface of the windshield 300 and drops downward along the tilting.

At this time, the bypass member 334 may be provided with a bypass inlet 310. A bypass inlet 310 may be provided in the bottom member 334 to allow only air to flow through the bypass inlet 310 because snow may block the bypass inlet 310 when snowfall occurs .

8, the present invention includes a plurality of windshields 300a, 300b, and 300c provided in the plurality of air intake ports 112 and having a plurality of air intake ports 112 in the case 110 can do. The air conditioners 300a, 300b, and 300c may be provided on each of the plurality of air inlets 112 to control the amount of external air flowing into the case 110. [

At this time, the air flow rate adjusting members 320a, 320b, and 320c provided in the bypass inlets 310a, 310b, and 310c of the plurality of air vents 300a, 300b, and 300c can be controlled simultaneously, The air flow rate regulating members 320a, 320b, and 320c may be separately adjusted so that the opening degrees of the bypass inlets 310a, 310b, and 310c are different according to the positions of the air intake ports 310a, 310b, and 310c.

Meanwhile, the present invention may include a control unit (not shown) for controlling the operation of the blowing fan 130 and the opening of the air volume adjusting member 320 according to the outdoor temperature or the condensation pressure of the refrigerant during the cooling operation of the air conditioner . The present invention can control the flow rate of the air blowing fan 130 (hereinafter referred to as RPM) to control the flow rate of air and control the amount of air flowing through the flow rate regulating member 320.

That is, the control unit controls the blowing fan 130 and the air flow rate regulating member 320 such that the amount of air flowing into the case 110 is reduced when the outdoor temperature or the condensation pressure of the refrigerant is decreased to a predetermined value or less. The refrigerant condensation pressure of the outdoor heat exchanger 120 is lowered so that the refrigerant is discharged from the operation region of the compressor 140 or the liquid refrigerant flows into the compressor 140 do. Accordingly, the control unit decreases the inflow amount of the low-temperature outside air to increase the temperature of the outdoor heat exchanger 120 and increase the refrigerant condensation pressure.

If the amount of air flowing into only the blowing fan 130 is adjusted, if the rotational speed of the blowing fan 130 is lowered to a certain RPM or lower, it is possible to perform only on / off control repeatedly due to the operation limit. If there is such a discontinuous control period, a problem arises in that the condensation temperature or the evaporation temperature of the refrigerant in the cooling cycle hunts to provide a pleasant cooling to the occupant.

Therefore, the present invention can control the air inflow amount even in the operating limit range of the blowing fan 130 by adjusting the opening degree of the air flow rate regulating member 320. [ That is, when the condensation pressure of the refrigerant is very low, the opening degree of the air volume adjusting member 320 may be lowered so that a smaller amount of air can be introduced into the case 110.

In contrast to the indirect type in which the amount of air inflow is controlled by controlling the amount of air discharged through the damper, the control unit of the present invention is installed in the case 110 from the wind turbine 300 installed on the air inlet 112 side By directly controlling the air amount, it is possible to control the inflow air amount to the inside of the outdoor unit more quickly and accurately.

The control of the air blowing fan 130 and the air flow rate control member 320 of the control unit according to the present invention will be described in detail as follows.

The control unit of the present invention reduces the RPM of the blowing fan 130 when the outdoor temperature or refrigerant condensation pressure is reduced to a first set value or less. Here, the first set value refers to the value of the outdoor temperature or the refrigerant condensation pressure, which starts to suffer from the normal operation of the compressor (140). Therefore, the control unit reduces the RPM of the blowing fan 130 to reduce the air intake amount, thereby increasing the refrigerant condensation pressure of the outdoor heat exchanger 120. [

Further, when the outdoor temperature or refrigerant condensation pressure is reduced to a second set value or less, the control unit reduces the opening degree of the air flow rate regulating member 320. [ Here, the second set value is lower than the first set value. Specifically, the second set value refers to the outdoor temperature or the refrigerant condensation pressure value corresponding to the case where normal operation of the compressor 140 is difficult even when the blowing fan 130 is operated at the lowest RPM. Accordingly, the control unit reduces the amount of air flowing into the case 110 from the time of operating the blowing fan 130 at the lowest RPM by reducing the opening degree of the air amount adjusting member 320.

In addition, when the outdoor temperature or the refrigerant condensation pressure is reduced to a third predetermined value or less, the control unit controls the air flow rate regulating member 320 so as to shield the bypass air inlet 310. Here, the third set value is lower than the second set value. When the outdoor temperature or the refrigerant condensation pressure is lower than the third set value, it is difficult to operate the compressor 140 any more and it is necessary to increase the refrigerant condensation pressure rapidly. Accordingly, the control unit controls the air flow rate regulating member 320 to block the bypass inlet 310 to block the external air suction.

On the other hand, when the bypass inlet 310 is shielded, the control unit stops the operation of the ventilation fan 130. When the bypass inlet 310 is shielded, there is no need to introduce air into the case 110, so the operation of the ventilation fan 130 can be stopped to prevent overload and reduce power consumption.

In addition, the present invention may further include an air volume adjusting motor for operating the air volume adjusting member 320. The air volume adjusting motor may be provided at one side of the wind guard 300. The control unit can adjust the opening degree of the air amount adjusting member 320 by adjusting the RPM of the air amount adjusting motor.

The foregoing description of the preferred embodiments of the present invention has been presented for purposes of illustration and various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention, And additions should be considered as falling within the scope of the following claims.

110: Case 112: Air inlet
114: air outlet 120: outdoor heat exchanger
130: a blower fan 300: a winder
310: Bypass suction port 320: Air volume adjusting member
331: front member 332: side member
333: upper surface member 334: lower surface member

Claims (13)

A case having an air inlet and an air outlet;
An outdoor heat exchanger provided inside the case;
A blowing fan provided inside the case to generate an air flow inside the case;
A wind-up device provided on the side of the air-intake port and configured to block external air from being directly introduced into the front surface of the air-intake port; And
And an air flow rate adjusting member for adjusting the opening degree of the bypass inlet,
The air introduced through the bypass inlet flows into the outdoor heat exchanger through the air inlet,
Wherein the bypass inlet is located at a predetermined angle from the air inlet so as to prevent outside air from directly entering the air inlet and contacting the outdoor heat exchanger. The method according to claim 1,
The air cleaner includes a front member facing the air inlet, a side member coupled to both sides of the front member and the case, a top member coupled to the top of the front member and the side member, And a lower member coupled to a lower side of the lower case. 3. The method of claim 2,
And the bypass member is provided on the side member. 3. The method of claim 2,
And the bypass inlet is provided on the front member. 3. The method of claim 2,
Wherein the front member and the top member are inclined downward, and the bypass member is provided on the bottom member. The method according to claim 1,
Wherein the air volume adjusting member is a vane that rotates around an axis in the vertical direction. The method according to claim 1,
Wherein the bypass inlet is divided into a plurality of suction areas, and the air volume adjusting member is a blade for adjusting the opening of each suction area. The method according to claim 1,
Wherein the case includes a plurality of the air intake openings and a plurality of the windshield openings formed in the plurality of air intake openings. The method according to claim 1,
And a controller for controlling the operation of the blower fan and the opening of the air flow rate adjusting member in accordance with the outdoor temperature or the condensation pressure of the refrigerant during the cooling operation of the air conditioner. 10. The method of claim 9,
Wherein the control unit decreases the RPM of the blowing fan when the outdoor temperature or the refrigerant condensation pressure is reduced to a first set value or less. 11. The method of claim 10,
Wherein the controller reduces the opening degree of the air flow rate adjusting member when the outdoor temperature or the refrigerant condensation pressure is reduced to a second predetermined value or lower than the first set value. 12. The method of claim 11,
Wherein the controller controls the air flow rate adjusting member to shield the bypass inlet when the outdoor temperature or refrigerant condensation pressure is reduced to a third predetermined value or lower than the second set value. 13. The method of claim 12,
Wherein the control unit stops the operation of the blowing fan when the bypass inlet is shielded.

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