KR20020083290A - A heat exchanger's structure for the air-conditioner - Google Patents

Abstract

PURPOSE: A structure of heat exchanger of air conditioner for heating and cooling is provided to improve efficiency of heat exchange of a heater and to reduce manufacturing cost. CONSTITUTION: A structure includes a refrigerant pipe(62) installed in a cabinet(52) in a plurality of rows and exchanging heat with indoor air introduced by an air blowing device(54) to heat and cool; a plurality of fins(64) installed to cross the refrigerant pipe so as to expand area over which the refrigerant pipe exchanges heat with indoor air; and a heater coil(66) installed to the fins to use the fins jointly and heating.

Description

A heat exchanger's structure for the air-conditioner

The present invention relates to a heater of a combined air conditioning and air conditioner, in particular, the heater is installed in the fin of the heat exchanger, the fin of the heat exchanger can be shared by the heater to improve the heat exchange efficiency of the heater, It relates to a heater installation structure of the air conditioner so that the space can be reduced.

1 is an exploded perspective view showing a conventional air-conditioning combined air conditioner according to the prior art.

The conventional air-conditioning combined air conditioner includes a cabinet (2) having an inlet (2a) and an outlet (2b), a blower (4) installed inside the outlet (2b) for forcibly flowing indoor air, and It is installed in the horizontal direction on the upper surface of the heat exchanger (10) for cooling the indoor air sucked in the front side inside the suction port (2a) and the housing base for fixing the blower (4) to the inner wall of the cabinet (2) And a heater 6 for heating the indoor air sucked in.

Here, the heat exchanger 10 is a refrigerant pipe 12 to absorb the heat of the indoor air while the low-temperature low-pressure refrigerant supplied from the indoor unit flows, and to increase the heat exchange area of the refrigerant pipe 12 It is formed in a panel shape so that it is composed of a plurality of pins 14 fitted to cross the refrigerant pipe (12).

The coolant pipe 12 has a constant shape so that the coolant flowing through the coolant pipe 12 is reciprocated in the left and right directions, and is moved in the up and down direction so as to widen the contact area with the indoor air as much as possible to improve heat exchange efficiency. It is reciprocated in the left and right directions to form one row, and a plurality of rows thus formed are arranged side by side.

In addition, the outer wall of the refrigerant pipe 12 is formed in a panel shape so as to cross the refrigerant pipe 12 so as to further increase the heat exchange efficiency between the refrigerant pipe 12 and the indoor air. A plurality of fins 14 are provided to enlarge the heat exchange area between the air 10 and the indoor air.

The heater 6 is an apparatus for improving the heating capacity of the heat exchanger 10 when the air conditioner performs a heating operation, and is made of a resistor that generates heat when power is applied, and a cabinet (2) While dividing the inside, a plurality of units are installed on the upper surface of the housing base on which the blower 4 is mounted to heat the indoor air from the outlet of the blower 4.

Looking at the operation of the air-conditioning combined air conditioner according to the prior art configured as described above are as follows.

First, when power is applied, the blower 4 is driven to force suction of indoor air, and the sucked indoor air passes through the heat exchanger 10 during cooling operation, and heat is emitted. Passing through (4) through the discharge port (2b) to the room to achieve the cooling operation.

In addition, during the heating operation, a refrigerant of high temperature and high pressure flows in the heat exchanger 10 while the refrigeration cycle is circulated in the reverse direction, and the indoor air sucked by the blower 4 passes through the heat exchanger 10. Absorbs and discharges to achieve heating.

In addition, the indoor air passing through the heat exchanger 10 absorbs heat again while passing through the heater 6 through the blower 4, and thereafter, is discharged into the room through the discharge port 2b and heated. It works.

However, in the heat exchanger structure of the conventional air conditioner combined air-conditioner, the heat exchanger 10 is installed inside the inlet port 2a, and the heater 6 is blown inside the discharge port 2b unlike the heat exchanger 10. Since the installation space of the heater 6 is required separately because the heat is installed on the outlet side of the apparatus 4, it is difficult to reduce the volume of the air conditioner. There is a problem in that the heat exchange area of the heater 6 is small and it is difficult to improve the heat exchange efficiency of the heater 6.

The present invention has been made to solve the above problems of the prior art, the heater for heating operation is installed in the fin of the heat exchanger, the fin to enlarge the heat exchange area is shared with the heater to improve the heat exchange efficiency of the heater In addition, the purpose of the present invention is to provide a heat exchanger structure of a combined air-conditioning and air conditioning system, which can reduce production costs by reducing the space required for heater installation.

1 is an exploded perspective view showing a conventional air-conditioning combined air conditioner according to the prior art,

Figure 2 is an exploded perspective view showing a combined air conditioning and air conditioner according to the present invention.

<Explanation of symbols on main parts of the drawings>

52: cabinet 52a: inlet

52b: discharge port 54: blower

60: heat exchanger 62: refrigerant tube

64: pin 66: heater coil

The heat exchanger structure of the combined air conditioning and air conditioner according to the present invention for solving the above problems is installed in the cabinet to form a plurality of heat in the heat exchanger of the combined air conditioning and air conditioner introduced by the blower A plurality of coolant pipes intersected with the coolant pipes so as to expand the area in which the coolant pipes exchange heat with the indoor air and exchange heat with the indoor air; It is characterized in that it comprises a fin and a heater coil installed in the fin so as to share the fin to perform a heating operation.

Hereinafter, an embodiment of a heat exchanger structure of a combined air conditioning and air conditioner according to the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is an exploded perspective view showing a combined air conditioning and air conditioner according to the present invention.

The combined air-conditioning and air conditioner according to the present invention includes a cabinet 52 having a suction port 52a and a discharge port 52b, a blower 54 installed inside the discharge port 52b to force suction of indoor air, and the suction port. It is configured to include a heat exchanger (60) installed inside to achieve cooling operation and heating operation.

Here, the heat exchanger 60 may increase the heat exchange area of the refrigerant pipe 62 and the refrigerant pipe 62 to exchange heat with the indoor air while the low-temperature low-pressure refrigerant supplied from the indoor unit flows. A plurality of fins 64 formed in the shape of a panel so as to intersect with the refrigerant pipe 62, and a heater that is inserted into the fin 64 like the refrigerant pipe 62 to generate heat when power is applied. It consists of a coil 66.

The refrigerant pipe 62 is shaped so that the refrigerant flowing through the refrigerant pipe 62 is reciprocated in the left and right directions and is moved in the vertical direction to be sucked, thereby increasing the contact area with the indoor air as much as possible to improve heat exchange efficiency. The predetermined number of times are reciprocated in the left and right directions to form one row, and a plurality of rows thus formed are arranged side by side.

In addition, the coolant pipe 62 is formed in a panel shape on the outer wall of the coolant pipe 62 so as to cross the coolant pipe 62 so as to further increase the heat exchange efficiency between the coolant pipe 62 and the indoor air. A plurality of fins 64 are provided to enlarge the heat exchange area between the pipe 62 and the indoor air.

In addition, the heater coil 66 is reciprocated in a left and right direction for a predetermined number of times as in the refrigerant pipe 62 to form one row, and is configured in a plurality of rows in the vertical direction to form a refrigerant pipe 62 and It is installed to intersect with the pin 64 to share the pin (64).

In addition, since the heater coil 66 is alternately installed with the refrigerant pipe 62 one by one, it is possible to effectively share the fin 64, it is possible to obtain a higher heat exchange efficiency.

Since the heat exchanger 60 configured as described above has an upper portion inclined to the front side inside the inlet port 2a of the cabinet 2, the indoor air flows through the inlet port 2a formed at the lower side and moves upward. Can be heat exchanged effectively.

Looking at the operation of the air-conditioning combined air conditioner according to the present invention configured as described above are as follows.

First, when power is applied, the blower 54 is driven to forcibly suck the indoor air, and the air sucked by the blower 54 passes through the heat exchanger 60 during cooling and heats the coolant pipe 62. Air is discharged to the room, and the cooling is performed by relatively low temperature and humidity.

In addition, during the heating operation, the refrigerant is circulated in the reverse direction, and high-temperature and high-pressure refrigerant flows in the heat exchanger 60, and the indoor air sucked by the blower 54 passes through the heat exchanger 60, and the heat exchanger ( 60) and the heater coil 66 is supplied with heat to discharge the air having a relatively elevated temperature to the room to achieve the heating operation.

At this time, since the heater coil 66 is alternately installed in the fin 64 of the heat exchanger 60 together with the refrigerant pipe 62 one by one, the space required for the heater installation is reduced and the heat ( Iii) the area of the exchange action is increased to obtain more improved heat exchange efficiency.

In the heat exchanger structure of the combined air-conditioning and air conditioner according to the present invention configured as described above, the heater is alternately installed in the fins of the heat exchanger one by one, so that the space required for the heater is reduced and the air conditioner is reduced. Since the volume of the gas is reduced, the production cost can be reduced, and the heat exchange area of the air and the heater is increased during heating operation, thereby achieving a stable operation of improved heat exchange efficiency.

Claims (3)

In the heat exchanger of the air-conditioning combined air conditioner, A refrigerant pipe installed to form a plurality of heats in the cabinet and performing heat and cold operation by exchanging heat with the indoor air introduced by the blower; A plurality of fins installed to intersect the refrigerant pipe so that an area in which the refrigerant pipe exchanges heat with indoor air can be enlarged; Heat exchanger structure of a combined air conditioning and air conditioner, characterized in that comprises a heater coil installed in the fin to share the fin to perform a heating operation. The method of claim 1, The heater coil is arranged in a reciprocating number of times in the left and right directions on the same plane, and arranged on a plurality of planes parallel to each other. The method according to claim 1 or 2, The heater coil is installed in parallel with the refrigerant pipe, the heat exchanger structure of the air conditioner for both air conditioning and heating, characterized in that alternately installed with the refrigerant pipe one by one.