KR100512240B1 - The forming structure of base plate using air conditioner outdoor unit - Google Patents

Abstract

The present invention relates to a foaming structure of a base plate for an outdoor unit of an air conditioner, which is a whole forming portion of the base plate connecting the blower portion to which the axial fan is fixed and the machine room to which the compressor is fixed. It is possible to reduce the deformation of the base plate by reducing the deflection due to the load and vibration and vibration power flow transmitted from the compressor, thereby improving the damping action characteristics against vibration. There is.

In addition, by forming the bent portion with respect to the limited area of the entire forming portion of the base plate, while preventing the occurrence of the plate sag due to the load and vibration of the compressor, and to withstand the load and vibration of the compressor, There is also an excellent effect to improve the rigidity of the base plate.

Description

Forming structure of base plate using air conditioner outdoor unit

The present invention relates to an air conditioner outdoor unit, and more particularly, the base plate is deformed by the load and vibration of the compressor delivered to the base plate by mitigating the gradient of vibration power flow and the deflection caused by the load and vibration transmitted from the compressor. At the same time, the shape of the entire forming portion of the base plate, that is, the blowing portion to which the blowing fan is fixed and the machine room to which the compressor is fixed, is reduced to reduce vibrations and improve the damping action characteristic of the vibration. A forming structure of a base plate for an air conditioner outdoor unit is formed so that several forming parts are not connected to each other.

In general, an air-conditioner has a refrigeration cycle device composed of a compressor, a condenser, a capillary tube, and a heat exchanger. It is a device that keeps the atmosphere of the room comfortable.

The air conditioner is classified into a window type air conditioner in which a refrigeration cycle device is mounted in one body and installed in a window, and a separate air conditioner separately installed in the indoor and outdoor units by separating the indoor unit and the outdoor unit. At this time, the outdoor unit of the separate air conditioner is usually configured to include a high noise generating compressor, a condenser, a cooling fan, and the like, and the indoor unit includes an evaporator and a blowing fan.

1A and 1B illustrate an example of the air conditioner outdoor unit. As shown in FIG. 1, the air conditioner outdoor unit compresses the refrigerant gas to a high temperature and high pressure state on one side of the base plate 10 having a square-shaped area. Is installed, and an accumulator (30) for temporarily storing the refrigerant flowing into the compressor (20) on the side of the compressor to separate the refrigerant in the gas state and the liquid state is connected by a connection pipe (P). Is installed. And the bent condenser 40 is discharged to the outside on one side of the base plate 10 so as to be located on the side of the compressor 20 is connected and installed by the compressor 20 and the connection pipe (P) The side of the condenser 40 is provided with an axial flow fan 50 for generating a flow to discharge the heat generated from the condenser 40 to the outside. The motor 60 is coupled to the axial fan 50 to rotate the axial fan 50. And the base plate 10 is formed in a predetermined shape and the case 70 is formed in one side of the air vent 71 is formed such that the components such as the compressor 20, the condenser 40, the axial fan 50 is located inside. It is coupled to the cover, the case 70 is coupled to the base plate 10 so that the blower 71 faces the axial flow fan (50).

In addition, the dustproof rubber 80 having a predetermined height is provided below the compressor 20 to support the compressor 20 and to prevent the vibration generated from the compressor 20 from being transmitted to the base plate 10. It is coupled by a bolt 90 and a nut 91. Since the compressor 20 is supported by the anti-vibration rubber 80, the compressor 20 is coupled to the base plate 10 to have a predetermined height.

The air conditioner outdoor unit configured as described above presses the refrigerant having a low temperature and low pressure gaseous state discharged from an evaporator (not shown) installed in the indoor unit while the compressor 20 is operated by the applied current to the high temperature and high pressure state to condenser 40. The refrigerant flowed into the condenser 40 is discharged to an expansion valve (not shown) while making a phase change to a liquid state at room temperature and high pressure through heat exchange with external air, and the liquid refrigerant flowing into the expansion valve is After the pressure is reduced to a low-temperature low-pressure liquid state so that heat exchange with the internal air through the evaporator, it is introduced into the evaporator mounted in the indoor unit and absorbs the heat of the external air from the evaporator to form cold air. In addition, waste heat generated from the compressor 20 and heat radiated from the condenser 40 are discharged to the outside through the air outlet 71 of the outdoor unit case 50 by the rotation of the axial fan 50, and thus the condenser 40. And the compressor 20 is cooled.

However, in the outdoor unit configured as described above, as the deflection phenomenon occurs in which the base plate 10 sags due to the load of the compressor 20, the compressor 20 fixed to the base plate 10 is also the base plate ( There is a big problem that the amount of deflection of the base plate 10 is further increased as the deflection amount of 10) increases, and as the occurrence of vibration due to the driving of the compressor 20 is further increased.

In addition, the base plate 10 connecting the blower part to which the axial fan 50 is fixed and the machine room to which the compressor 20 is fixed among the structures of the outdoor unit is connected to the base through the connection forming part 14 as shown in FIG. 2. Since the entire forming part 12 of the plate 10 is molded in an interconnected state, when the load and vibration are transmitted from the compressor 20 to the base plate 10, the load transmitted from the compressor 20. And the vibration is not dissipated from the forming part 12 of the base plate 10, but is concentrated at both ends of the connection forming part 14 connecting the forming part 12. There was also a big problem that the noise and vibration is generated in itself.

In the case of the conventional base plate 10, since the forming part 12 of the entire base plate 10 is interconnected by the connection forming part 14 as described above, a condenser which is a component of the outdoor unit is provided. When the discharged water is accumulated on the base plate 10 through the heat exchange action of the 40, the flow of the discharged water by the connecting forming unit 14 connecting the entire forming unit 12 of the base plate 10. As the furnace is clogged, the discharge water is not discharged to the outside of the base plate 10, but is accumulated inside the base plate 10, that is, inside the outdoor unit, and has a large problem that adversely affects other devices.

The present invention has been made in order to solve the above problems, the shape of the overall forming part of the base plate, which is the bottom surface of the air conditioner outdoor unit, that is, the overall forming part connecting the blower part in which the axial fan is fixed and the machine room in which the compressor is fixed. It is formed so that several forming parts are not connected to each other except the end part, and the deformation of the base plate is reduced by reducing the gradient of vibration power flow and the deflection caused by the load and vibration transmitted from the compressor, and at the same time, damping against vibration. The purpose is to improve the action characteristics.

In addition, by forming the bent portion with respect to the limited area of the entire forming portion of the base plate, while preventing the occurrence of the plate sag due to the load and vibration of the compressor, and to withstand the load and vibration of the compressor, Another purpose is to improve the rigidity of the base plate.

The object of the present invention, the base plate for the air conditioner outdoor unit is formed so that the overall forming part shape of the base plate connecting the blower part fixed axial fan and the machine room fixed compressor is connected so that several forming parts other than one end portion is not connected to each other. It can be solved by the forming structure of the bar, will be described in detail with reference to the accompanying drawings.

Figure 3 shows an exploded perspective view of the air conditioner outdoor unit to which the base plate of the present invention is applied, Figure 4 shows a perspective view of the base plate to which the present invention is applied, Figure 5 shows another embodiment of the base plate of the present invention.

The forming structure of the base plate for an air conditioner outdoor unit of the present invention includes a compressor 20 and a condenser 40 in which a compression action and a condensation action are performed among refrigeration cycle devices for generating cold air, and an axial flow rate installed at the side of the condenser 40. An air conditioner outdoor unit including a fan (50), a case (70) surrounding and protecting the devices, and a base plate fixed to a bottom surface of the case (70) while the compressor (20) is fixedly installed;

The axial fan 50 to reduce the deflection of the base plate 110 and to improve the damping action characteristics of the vibration by reducing the gradient of the sag and vibration power flow due to the load and vibration transmitted from the compressor 20 Several forming parts 120a and 120b are not connected to each other except at one end of the entire forming part 120 of the base plate 110 connecting the fixed blower part and the machine room to which the compressor 20 is fixed. It is the structure shape | molded in the form which does not.

Hereinafter, the forming structure of the base plate for an air conditioner outdoor unit of the present invention will be described in detail.

In the base plate forming structure of the present invention, the overall forming part 12 formed on the base plate 10 is connected to each other through the connection forming part 14 at a predetermined position, and the base plate 10 is formed from the compressor 20. In order to solve the conventional problem that the load and the vibration transmitted to) are concentrated on both ends of the connection forming unit 14, not only the sag of the base plate 10 itself but also noise and vibration are generated. The overall forming part 120 of the shape is formed so that several forming parts 120a and 120b are not connected to each other except one end, or the entire forming part 120 of the base plate 110 is formed in the middle. Molded in a predetermined shape continued in a zigzag without a connection portion, the detailed configuration of the present invention is as follows. The same reference numerals apply to the same configurations of the air conditioner outdoor unit to which the present invention is applied and the conventional air conditioner outdoor unit described above.

Looking at the overall configuration of the outdoor air conditioner outdoor unit to which the present invention is applied, which is the same as the overall configuration of the conventional air conditioner outdoor unit shown in Figures 1a and 1b, as shown in Figure 3, on one side of the base plate 110 A fixed and compressed compressor 20 for compressing a low temperature low pressure refrigerant to a high temperature high pressure state; An accumulator (not shown) connected to a side of the compressor 20 to separate a refrigerant flowing into the compressor 20 from an evaporator (not shown) into a gas state and a liquid state; A condenser 40 for discharging the refrigerant heat through heat exchange between the refrigerant pressurized and discharged from the compressor 20 by the refrigeration cycle and the external air; An axial fan (50) fixed to the condenser (40) side and driven by a motor (60) to discharge heat emitted from the condenser (40) to the outside of the outdoor unit; A blower port 71 is formed at one side, and the case 70 covers and protects the compressor 20, the condenser 40, the axial fan 50, and the like; The compressor 20 is fixed to the bottom surface of the case 70 in a fixed state of installation is composed of a base plate 110 for sealing the case 70.

At this time, the base plate 110 is located at a predetermined position of the base plate 110, that is, a portion connecting the blower part to which the axial fan 50 is fixed and the machine room to which the compressor 20 is fixed, as shown in FIG. 4. Several long forming parts 120a and 120b are formed to improve the rigidity of the base plate, and in particular, the base plate is relieved from the deflection of the load and the vibration transmitted from the compressor 20 and the gradient of the vibration power flow. In order to reduce the deformation of the 110 and to improve the damping action characteristic of the vibration, the structure of the several forming parts 120a and 120b is not connected to each other except at both ends of the several forming parts 120a and 120b. Is molded.

In addition, as another forming structure of the base plate 110 of the present invention, it is to reduce the gradient of the vibration power flow and the deflection due to the load and vibration transmitted from the compressor 20 to reduce the deformation and vibration of the base plate 110 In order to improve the damping action characteristic for the axial fan 50, the entire forming part 120 of the base plate 110 connecting the blower part to which the axial fan 50 is fixed and the machine room to which the compressor 20 is fixed is zigzag-free. It is the structure shape | molded in the continuous predetermined shape.

At this time, the entire forming portion of the base plate 110 forms a structure formed in any one form of 'S', 'W', 'M', in particular to improve the rigidity of the base plate 110 To this end, as shown in FIG. 5, the bent portion 130 was formed with respect to a limited area of the entire forming portion 120 of the base plate 110.

Figure 6 shows a state in which the load and vibration flow gradient of the compressor applied to the base plate of the present invention is relaxed.

As such, since the shape of the entire forming part 120 formed on the base plate 110 is formed in such a manner that several forming parts 120a and 120b are not connected to each other except one end of each side. When the load and vibration of the compressor 20 act on the base plate 110, as shown in FIG. 6, the base plate 110 is formed by the entire forming unit 120 connected to one end thereof. By bearing the load acting from the compressor 20, it is possible to prevent the deflection of the base plate 110, which is a conventional problem, in particular in the case of the vibration generated by the drive of the compressor 20 also connected only one end When the vibration power generated from driving the compressor 20 is distributed by the entire forming unit 120 connected in a predetermined shape to relax the flow gradient of the vibration power applied to the base plate 110 This strain reduction of from the base plate 110 as well, thereby significantly improving the damping action of the vibration characteristics.

According to the present invention, the entire forming portion of the base plate, which is the bottom surface of the air conditioner outdoor unit, that is, the overall forming portion connecting the blower portion in which the axial fan is fixed and the machine room in which the compressor is fixed, is formed. It is molded to prevent the sag caused by the load and vibration transmitted from the compressor and the gradient of the vibration power flow to reduce the deformation of the base plate, and at the same time has an excellent effect of improving the damping action characteristics against vibration have.

In addition, by forming the bent portion with respect to the limited area of the entire forming portion of the base plate, while preventing the occurrence of the plate sag due to the load and vibration of the compressor, and to withstand the load and vibration of the compressor, There is also an excellent effect to improve the rigidity of the base plate.

In addition, since the entire forming part formed on the base plate is connected to only one end portion to form a continuous shape, the discharge water is collected on the base plate through the heat exchange action of the condenser which is a component of the outdoor unit. However, there is a side effect of effectively discharging the discharged water generated in the outdoor unit, such that the flow path of the discharged water is discharged to the outside of the base plate without being blocked by the open form structure.

Figure 1a is a cross-sectional view showing a typical air conditioner outdoor unit.

FIG. 1B is a front sectional view of the air conditioner outdoor unit shown in FIG. 1A; FIG.

Figure 2 is a schematic perspective view of the base plate showing a state in which the load and vibration of the compressor is concentrated in the base plate which is a component of a conventional air conditioner outdoor unit.

3 is an exploded perspective view of an outdoor unit of an air conditioner to which the base plate of the present invention is applied.

Figure 4 is a perspective view of the base plate to which the present invention is applied.

Figure 5 is another embodiment of the present invention the base plate.

Figure 6 is an operational state diagram showing a state in which the load and vibration flow gradient of the compressor applied to the base plate of the present invention is relaxed.

Explanation of symbols on main parts of drawing

10, 110. Base plate 12, 120. Forming part

14. Connection forming part 20. Compressor

30. Accumulator 40. Condenser

50. Axial flow fan 60. Motor

70.Case 71. Vent

80. Anti-vibration rubber 90. Fixing bolt

91. Nut 100. Sound-absorbing sound absorbing material

130. Bends

Claims (4)

Compressor and condenser of the refrigeration cycle equipment for generating cold air and the condensation action, the axial flow fan is installed on the side of the condenser, the case surrounding the protection of the equipment, the bottom of the case with the compressor installed fixed An air conditioner outdoor unit comprising a base plate fixed to the; The base of the air conditioner outdoor unit is formed in the form of the entire forming portion of the base plate connecting the blower portion fixed to the axial flow fan and the machine room fixed to the compressor, except for one end of the two forming parts are not connected to each other. Forming structure of the plate. The method of claim 1, Forming structure of the base plate for an air conditioner outdoor unit, characterized in that the entire forming part of the base plate is molded into a predetermined shape connected in a zigzag without an intermediate connection. According to claim 1 or 2, wherein the entire forming portion of the base plate of the air conditioner outdoor unit base plate forming structure, characterized in that formed in any one of the form of 'S', 'W', 'M'. The forming structure of the base plate for an air conditioner outdoor unit according to claim 1 or 2, wherein a bent portion is formed for a limited area of the entire forming portion of the base plate.