KR100600067B1 - Air conditioner - Google Patents

Abstract

The present invention relates to an air conditioner, an object of the present invention is to provide an air conditioner provided to improve the structure of the heater to improve the blowing and heating efficiency of the indoor unit.

To this end, the present invention provides a main body having a suction port and a discharge port, a blower that provides a blowing force to blow the indoor air into the main body through the suction port, and blows it to the discharge port side, and the air passing through the main body during the heating operation. In the air conditioner provided between the inlet and the discharge port for heating and having a heater including a frame and a plurality of heating wires installed in the frame, the plurality of heating wires are arranged to form a single layer over the entire frame, It is characterized in that it is arranged to be concentrated in a large portion of the passage amount of air.

Description

Air Conditioner {AIR CONDITIONER}

1 is a perspective view showing the structure of an indoor unit of an air conditioner according to the present invention, a part of which is cut away.

2 is a side cross-sectional view showing the structure of an indoor unit of an air conditioner according to the present invention.

Explanation of symbols on the main parts of the drawings

10: main body 11: discharge port

12: suction port 20: blower

22: pan casing 22a: exit

22b: inlet 22c: extension

30: evaporator 40: heater

41: frame 42: heating wire

The present invention relates to an air conditioner, and more particularly, to an air conditioner having a heater installed inside the main body for heating the room and provided to heat the air discharged into the room.

In general, an air conditioner is a device that harmonizes air using a refrigeration cycle, and includes an outdoor unit installed outdoors and an indoor unit installed indoors, and the outdoor unit and the indoor unit are connected to each other through a refrigerant pipe.

The outdoor unit is equipped with a compressor, a condenser, and a blower fan of the refrigeration cycle, and condenses the condenser by sucking the outdoor air through the blower fan during the cooling operation, and the evaporator and the blower of the refrigeration cycle are installed in the indoor unit. The indoor air passes through the evaporator and heats up to generate cold air by the blowing power of the air.

In addition, recently, the indoor unit may be provided to perform a heating operation without using a heat pump method by installing a heater inside the main body to heat the air passing through the main body.

Therefore, such an indoor unit performs heating by driving only the blower and the heater in a state in which the cooling operation by the refrigeration cycle is stopped by stopping the operation of the compressor. The heater forms a frame and an interior of the frame. It is provided with a plurality of heating wires provided to generate heat at power supply.

In addition, the plurality of heating wires are arranged to form a plurality of layers in the frame so that the air passing through the respective parts of the heater can be heated in a double or triple through a plurality of heaters, each heating wire is arranged between the heating wires arranged in adjacent layers It is located at the position corresponding to.

However, such a conventional air conditioner has a problem in that the plurality of heating wires installed in the frame are arranged to form a multi-layer structure, thereby lowering the blowing efficiency of air passing through the main body during cooling and heating.

In addition, since the heaters are arranged so that a plurality of heating wires form a plurality of layers, the number of heating wires is greatly increased when the electric field or cross-sectional area of the heater is largely formed so that most of the air moving from the inlet side to the outlet side can pass through the heater. Electric power consumption may also be excessively increased, so it is usually installed only at the place where air flow is concentrated. In this case, the amount of air discharged into the room through the discharge port is increased without going through a heater, thereby improving the heating efficiency of the room. The problem of falling also occurs.

The present invention is to solve such a problem, it is an object of the present invention to provide an air conditioner provided to improve the structure of the heater to improve the blowing and heating efficiency of the indoor unit.

In order to achieve the above object, the present invention provides a main body having a suction port and a discharge port, a blower that provides a blowing force to blow the indoor air into the main body through the suction port and blows it to the discharge port side, and the main body at the time of heating. In the air conditioner provided between the inlet and the discharge port to heat the air passing through the air conditioner having a frame and a plurality of heating wires installed inside the frame, the plurality of heating wires are a single layer throughout the frame Is arranged to achieve, characterized in that arranged to be concentrated in a large portion of the passage amount of air.

And the blower includes a fan casing provided at an outside of the blower fan to surround the blower fan and the blower fan, the fan casing having an inlet open toward the inlet and an outlet open to the outlet. Is installed in, the interval between each heating wire is characterized in that the outlet and the corresponding portion is arranged narrower than the other portion.

In addition, the heater is characterized in that it is provided so that most of the air passing through the body substantially.

The apparatus may further include an evaporator provided inside the main body to cool the air passing through the main body during the cooling operation, wherein the heater is provided between the discharge port and the evaporator.

In addition, the discharge port and the suction port are respectively provided on the upper and lower front of the main body, each heating wire is disposed so that both ends are directed to each side of the main body, the heater is the front end of the lower side of the discharge port of the main body It is characterized in that it is installed inclined inside the discharge port so that it is supported on the front side and the rear end is supported on the rear side of the main body of the discharge port upper side.

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

1 and 2, the indoor unit of the air conditioner according to the present invention has a rectangular parallelepiped main body 10 forming an external appearance, and the discharge openings 11 are respectively provided on the upper and lower portions of the front surface of the main body 10. FIG. ) And a suction port 12 are formed.

A blower 20 is provided inside the main body 10 of the inlet 12 to provide a blowing force, and an evaporator of a refrigeration cycle is provided inside the main body 10 between the blower 20 and the discharge port 11. 30 is installed, the blower 20 is a blower fan 21 is provided to suck the air into the central portion to discharge radially, and the air blown by the blower fan 21 more smoothly evaporator ( 30 is provided with a fan casing 22 which is installed outside the blowing fan 21 to guide to the side, and the fan casing 22 has an inlet 22b formed on the front surface to be opened to the inlet 12 and a discharge port ( 11) an outlet 22a is formed on the upper surface so as to open to the side.

The front of the inlet 22b side pan casing 22 and the front surface of the inlet 12 side main body 10 are spaced a predetermined distance to form an air inflow space, and the rear surface of the pan casing 22 is the main body 10. The outlet 22a of the pan casing 22 is provided to be supported on the rear side of the main body 10 and is formed between the rear side of the inner central portion of the main body 10, and the inlet 22b on the upper surface of the pan casing 22 around the outlet 22a. Extension extending to be supported on the inner surface of the main body 10 so that interference does not occur between the air flowing into the fan casing 22 through the fan casing 22 and the air flowing out of the fan casing 22 through the outlet (22a) ( 22c) is provided.

In addition, the evaporator 30 is inclined so that the lower end is supported by the extension part 22c of the front casing 22 of the main body 10 and the upper end is supported by the rear inner side of the rear edge side of the main body 10 so that the outlet 22a is provided. Most of the air blown from the discharge port 11 side is arranged to pass through the evaporator 30.

Therefore, when the blower fan 21 is driven during the cooling operation through the structure, the indoor air introduced into the main body 10 through the inlet 12 passes through the evaporator 30 through the fan casing 22 and exchanges heat. The cold air is formed, and the cold air is discharged into the room through the discharge port 11 by the continuous blowing operation of the blower fan 21, and the room is cooled as the process is repeated.

On the other hand, the heater 40 is installed inside the main body 10 so as to heat the air passing through the main body 10 without using a heat pump method, so that the heating of the room is possible, and the heater 40 is the outside. It comprises a frame 41 forming a frame, and a plurality of heating wires 42 provided inside the frame 41 to generate heat when power is applied.

And the heater 40 is first arranged so that the plurality of heating wires 42 to form a single layer on the frame 41, which arranges the plurality of heating wires 42 in a single layer structure passing through the heater 40 This is to improve the blowing efficiency of the indoor unit during cooling and heating by increasing the flow rate of air.

When the plurality of heating wires 42 installed in the frame 41 form a single layer in this manner, all the air passing through the main body 10 can pass through the heater 40 as in the present embodiment. Even if the electric field or the cross-sectional area of the heater 40 is formed to be long and wide, the number of the heating wires 42 can be greatly reduced compared to the conventional heating wires 42 having a multi-layered structure. Since it does not occur, it is easy to increase the overall length or cross-sectional area of the heater 40 so that air passing through the main body 10 can pass through all the heaters 40.

In addition, the spacing between the heating wires 42 is formed such that the portion of the large amount of air passing through is narrower than the portion of the small amount of air passing through the plurality of heating wires 42 are formed over the entire frame 41 and at the same time It is installed to be concentrated in a large portion of the passage, which is arranged to form a plurality of heating wires 42 to form a single-layer structure, the heating efficiency of the heater 40 by installing the number of each heating wire 42 in proportion to the amount of air passing through Accordingly, to improve the heating efficiency of the indoor unit.

That is, in the detailed structure, the heater 40 is first evaporator 30 so that the air heated in the main body 10 by the heater 40 can be discharged to the room directly through the discharge port 11 without lowering the temperature. And the inside of the main body 10 between the discharge port 11, the frame 41 is provided to have a rectangular shape, the support 51, the front end is installed inside the front of the lower side main body 10 of the discharge port (11) Is supported by the upper end of the evaporator 30 through a locking portion 41a which is integrally supported so that the rear end portion is supported on the rear side of the main body 10 of the upper side of the discharge port 11. It is fixed in the inclined state inside the main body 10, the left and right ends of the frame 41 is supported on the left and right inner surface of the main body 10, each of the heating wires 42, both ends of the main body 10 To form a single layer throughout the entire frame 41 to face the left and right sides of the It is arranged to be parallel to the.

Therefore, the heater 40 is provided so that all the air passing through the frame 41 inside the main body 10 can pass therethrough, and the heating wire 42 is disposed to form a single layer over the entire frame 41. Therefore, it is possible to substantially heat all the air passing through the main body 10 during the heating operation, and at the same time the heating wire 42 forms a single layer to increase the flow rate of air passing through the heater 40 to cool and The blowing efficiency of the indoor unit is improved during heating.

In addition, the air discharged from the fan casing 22 during the blowing operation of the blower fan 21 is conveyed to the discharge port 11 side via the upper part of the outlet 22a of the fan casing 22 in most of the structure of the fan casing 22. Only the remaining part is transferred to the discharge port 11 via the upper part of the front side of the outlet 22a of the fan casing 22, and the interval between each heating wire 42 installed in the frame 41 is The outlet 22a side and the rear side of the frame 41 corresponding to the outlet 22a are narrower than the front side so that the number of the heating wires 42 that heats the air is arranged in proportion to the amount of air passing through the heater 40. The heating efficiency of 40) is more effectively improved. In addition, the spacing of the heating wires 42 may be gradually narrowed gradually toward the portion corresponding to the outlet 22a of the pan casing 22.

Next will be described with respect to the operation of the air conditioner according to the present invention configured as described above and the resulting effects.

First, in order to cool the room, the compressor (not shown) and the blower of the indoor unit in the state in which the heating action of the air by the heater 40 is interrupted by cutting off the power supplied to the heating wire 42 of the heater 40. The blower fan 21 of 20 is driven. Then, the indoor air introduced into the main body 10 through the suction port 12 by the blowing action of the blowing fan 21 passes through the evaporator 30 through the fan casing 22 and is heat-exchanged to form cold air. The cold air is discharged into the room through the discharge port 11 by the blowing operation of the blower fan 21, and the room is cooled as the process is repeated. At this time, the air passing through the evaporator 30 passes through the heater 40 before being discharged into the room through the discharge port 11, the heater 40 is a plurality of heating wires disposed on the frame 41 Since the 42 is arranged to form a single layer, the flow rate of air passing through the main body 10 is increased compared to the conventional one, so that the blowing efficiency of the indoor unit can be improved, thereby allowing the indoor unit to cool the room more quickly and effectively. Make sure

In addition, when a room is to be heated using an indoor unit, the air blowing device 20 and the heater 40 are stopped in a state in which the cooling operation by the refrigeration cycle is stopped by stopping the operation of the compressor (not shown) unlike when cooling. In this case, the heating is performed by driving only the heating fan. At this time, the same flow of air is formed by the driving of the blower fan 21, while the cooling operation by the evaporator 30 is not performed, and each heating wire of the heater 40 is formed. Since power is supplied to 42, the indoor air passing through the main body 10 is heated by the heater 40 and the room is heated.

In addition, during the heating operation, the heater 40 is provided so that all the air passing through the main body 10 can pass through so that all the air passing through the main body 10 is heated by the heater 40 and at the same time. Since the heating wire 42 is concentrated in a portion corresponding to the upper side of the outlet 22a of the fan casing 22 having a large amount of air passage, the air passage amount is large while heating the air through the heater 40 as a whole. It is possible to intensively heat the heating efficiency of the heater 40 and thereby the heating efficiency of the room can be improved.

In addition, the heater 40, in which each heating wire 42 forms a single layer structure, increases the flow rate of air passing through the main body 10 even when the heating operation is performed, such that the blowing efficiency of the indoor unit is improved, such as during cooling. .

As described in detail above, the indoor unit of the air conditioner according to the present invention, in the heater installed inside the main body to perform the heating action, a plurality of heating wires installed in the frame is arranged to form a single layer by the heater As the flow rate inside the main body is prevented, the cooling efficiency of the indoor unit is improved during cooling and heating.In addition, the heating wire is greatly increased or the power consumption is excessive even though the electric field and the cross-sectional area of the heater are increased compared with the conventional heating layer. It is more advantageous to form a large electric field and cross-sectional area of the heater so that all the air passing through the inside of the main body can pass through the heater as it is prevented from being increased.

In addition, since the heaters are disposed throughout the heater so that the plurality of heating wires form a single layer, the heaters are installed to be concentrated in a large portion of the air passing through, and the number of heating wires is arranged in proportion to the passage of air passing through the heater. It also has the advantage of improving the heating efficiency and thus the heating efficiency of the indoor unit

Claims (5)

A main body having a suction port and a discharge port formed therein, a blower that provides a blowing force to blow the indoor air into the main body through the suction port, and blows it to the discharge port side; and the suction port to heat air passing through the main body during a heating operation; In the air conditioner provided between the discharge port and the heater having a frame and a plurality of heating wires installed in the frame, The plurality of heating wires are arranged to form a single layer over the entire frame, it is arranged so as to be concentrated in a large portion of the passage amount of air, The blower includes a fan casing provided on the outside of the blower fan to surround the blower fan and the blower fan and having an inlet open to the inlet and an outlet open to the outlet. Installed, The space between each heating line is characterized in that the outlet and the corresponding portion is arranged narrower than the other portion. delete The method of claim 1, And the heater is provided such that most of the air passing through the main body substantially passes therethrough. The method of claim 1, And an evaporator provided inside the main body to cool the air passing through the main body during the cooling operation, wherein the heater is provided between the discharge port and the evaporator. The method of claim 4, wherein The discharge port and the suction port are respectively provided on the upper and lower portions of the front surface of the main body, and each of the heating wires is disposed so that both ends thereof face each side of the main body, and the heater has a front side end portion at the front side of the main body of the lower discharge port side. And a rear side end portion is inclined inside the discharge port so as to be supported by the discharge port upper side and the rear side of the main body.

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