KR20030052290A - A compressor mounting structure for air conditioner - Google Patents

Abstract

PURPOSE: Structure for mounting a compressor of an air conditioner is provided to continuously perform smooth vibration prevention function, although the compressor is used for long time, with being mounted to the air conditioner. CONSTITUTION: Structure for mounting a compressor(1) of an air conditioner includes a bolt installed to a base fan(21) constituting the lower external appearance of the air conditioner, to combine the compressor; a vibration preventing part disposed on the bolt; and a support plate installed to the upper part of the vibration preventing part and attached to the lower end of the compressor, to be combined with the bolt by a nut. The vibration preventing part comprises vibroisolating rubbers(25') for preventing vibration transmission and a compression spring(31). The compression spring is disposed between the vibroisolating rubbers. The compression spring has some portions overlapped with the vibroisolating rubbers. Thus, the compression spring complements reduction of elasticity of the vibroisolating rubbers.

Description

A compressor mounting structure for air conditioner

The present invention relates to an air conditioner, and more particularly, to a compressor mounting structure of an air conditioner having an anti-vibration unit consisting of a dustproof rubber and a compression spring.

Generally, an air conditioner is a device for maintaining indoor air in a state most suitable for use and purpose. For example, in summer, the room is adjusted to cool air condition, and in winter, the room is controlled to warm heating condition. In addition, the air conditioner controls the humidity in the room, and controls the air in the room to a comfortable clean state.

1 is a cycle diagram illustrating a cycle flow of a general air conditioner.

As shown, the compressor 1 of the air conditioner compresses a low pressure refrigerant to introduce a high temperature and high pressure refrigerant into the condenser 3, and the condenser 3 converts a high temperature and high pressure gas refrigerant into a low temperature and high pressure liquid refrigerant. Switch to

The low temperature and high pressure liquid refrigerant discharged from the condenser 3 passes through a capillary tube 5, and the capillary tube 5 decompresses the low temperature and high pressure liquid refrigerant discharged from the condenser 3. By adjusting the state to be easy to evaporate in the evaporator 7, the refrigerant flows at a constant rate.

As soon as the liquid refrigerant passing through the capillary tube 5 reaches the evaporator 7, it is ejected into a spray form and turned into gas, and the low temperature and low pressure gas refrigerant passing through the capillary tube 5 is evaporator 7. Flows into). The low temperature refrigerant takes heat away from the hot air in the room to cool the air in the room, and the refrigerant, which has exchanged heat with the air in the evaporator 7, flows back into the compressor 1 and circulates.

2 shows the configuration of an integrated air conditioner, generally called a window type. According to this, an evaporator 7 is installed at the indoor side of the air conditioner, and the evaporator 7 allows the refrigerant flowing therein and the indoor air to exchange heat with each other. A blower 11 is installed inside the evaporator 7 to suck air in the room through the evaporator 7, and the blower 11 is installed inside an air guide (not shown). The air guide functions as a flow path of cold air formed by the blower 11. Next to the blower 11 is formed a discharge part 13 which is sucked by the blower 11 and heat exchanged through the evaporator 7 to discharge the air having a relatively low temperature back into the room.

A condenser 3 is installed on the outdoor side of the air conditioner, and a fan 15 for sucking and delivering outdoor air to the condenser 3 is installed inside the condenser 3. In addition, a motor 17 for driving the fan 15 and the blower 11 is installed between the blower 11 and the fan 15. In addition, a compressor 1 for compressing the refrigerant in the refrigeration cycle is installed next to the motor 17 on the outdoor side.

On the other hand, the barrier 19 is air-conditioned to distinguish the indoor side where the evaporator 7 and the blower 11 are installed and the outdoor side where the condenser 3, the motor 17, the compressor 1, etc. are installed. Installed across the machine.

3 is an exploded perspective view showing a main configuration of a compressor mounting structure according to the prior art. According to this, the compressor mounting structure is a bolt 23 that is fixed to the base fan 21 of the air conditioner by welding, etc., and the dust-proof for preventing the vibration of the compressor 1 from being transmitted to the base fan 21. It consists of a rubber (25), a bracket (27) for preventing the left and right movement of the compressor (1), and a nut (29) formed with an internal thread on an inner circumferential surface to mate with a threaded portion of the bolt (23). In addition, the lower end of the compressor (1) is attached to the triangular-shaped support plate 30 is formed with a through hole in the corner portion to facilitate the coupling by the bolt (23).

Looking at the assembly process of the compressor mounting structure having such a configuration, first insert the dust-proof rubber 25 in the bolt 23 fixed to the base fan 21, and then seat the compressor (1). That is, the anti-vibration rubber 25 is positioned between the support plate 30 attached to the bottom of the compressor 1 and the base fan 21 so that the compressor 1 does not collide with the base fan 21. At the same time, the vibration generated by the compressor is not transmitted to the base fan 21. Next, a bracket 27 for preventing the left and right movement of the compressor 1 is installed while wrapping the edge portion of the support plate 30 formed in a triangular shape. A nut 29 coupled to the bolt 23 is fastened to the upper portion of the bracket 27 to fix the compressor 1 to the base pan 21.

As described above, the anti-vibration rubber 25 has a vibration preventing function for minimizing noise, impact, etc. due to compressor vibration, and as shown in FIG. 4, the bolt 23 may be inserted therein. It is penetrated up and down so that the outer surface is uneven ( , ) Is molded.

However, the conventional compressor mounting structure having the above configuration has the following problems.

In the above prior art, in order to prevent transmission of vibration generated in the compressor 1, the anti-vibration rubber 25 as shown in FIG. 4 is used, which is composed of rubber material only. Therefore, the length of the anti-vibration rubber, that is, the length of the 'A' portion shown in FIG. As a result, the space between the compressor 1 and the base fan 21 is narrowed. As a result, vibration and friction sounds due to the contact between the compressor 1 and the base fan 21 are generated outside the initial design specification, and the compressor 1 is impacted. This can happen. In addition, this causes a resonance sound when the air conditioner is operating, causing vibration to the peripheral device also adversely affects.

Accordingly, an object of the present invention is to solve the problems of the prior art as described above, and provides a compressor mounting structure capable of continuously performing a smooth anti-vibration function even when the compressor is used for a long time in a state in which the compressor is mounted on the air conditioner. It is.

1 is a cycle configuration diagram of a general air conditioner

Figure 2 is a perspective view showing the internal configuration of a general integrated air conditioner

Figure 3 is an exploded perspective view showing the main configuration of the compressor mounting structure according to the prior art

4 is a cross-sectional view of the anti-vibration rubber according to the prior art

Figure 5 is an exploded perspective view showing the main configuration of the preferred embodiment of the compressor mounting structure according to the present invention.

Figure 6 is a front view showing the main portion of the vibration preventing portion constituting an embodiment of the present invention

Explanation of symbols on the main parts of the drawings

1 ..... Compressor 21 ..... Base Fan

23 ..... Bolt 25 '..... upper dustproof rubber

25 "..... Lower dustproof rubber 27 ..... Bracket

29 ..... nut 30 ..... support plate

31 ..... compression spring

According to a feature of the present invention for achieving the object as described above, the present invention is provided in the base fan constituting the lower appearance of the air conditioner and the bolt for fastening the compressor, provided on the upper portion of the bolt and vibration transmission Vibration prevention part consisting of a vibration-proof rubber and a spring for preventing the, and is installed on the vibration prevention part and comprises a support plate attached to the bottom of the compressor to be fastened to the bolt by a nut.

The anti-vibration part is installed between the upper and lower anti-vibration rubber and the upper anti-vibration rubber and the lower anti-vibration rubber to be inserted into the upper part of the bolt to prevent vibration transmission and reinforce the elastic force of the upper and lower anti-vibration rubber. Characterized in that the configuration.

And, the compression spring is characterized in that it is installed so as to overlap a predetermined portion with the upper, lower anti-vibration rubber.

In addition, a bracket or washer may be further provided on the support plate to prevent the compressor from flowing.

According to the present invention having such a configuration, there is an advantage that can effectively prevent the transmission of vibration generated in the compressor even in a long period of use in the state in which the compressor is mounted in the air conditioner to protect the compressor and peripheral devices in a safe state.

Hereinafter, a preferred embodiment of the compressor mounting structure of the air conditioner according to the present invention as described above will be described in detail with reference to the accompanying drawings. The same thing as that of the prior art will be described using the same reference numeral.

First, Figure 5 is an exploded perspective view showing the main configuration of the preferred embodiment of the compressor mounting structure according to the present invention. Accordingly, the compressor mounting structure includes a bolt 23 fixed to the base fan 21 of the air conditioner by welding or the like, a dustproof rubber 25 ′, 25 ″ and a compression spring 31 to prevent vibration of the compressor 1. An internal thread is formed on the inner circumferential surface to mate with the anti-vibration portion preventing the transfer to the base pan 21, the bracket 27 for preventing the left and right movement of the compressor 1, and the screw portion of the bolt 23. It is composed of a molded nut 29. In the support plate 30 of the lower end of the compressor (1) is formed a through hole through which the bolt 23 can be inserted.

Figure 6 shows the main portion of the vibration preventing portion constituting an embodiment of the present invention, whereby the anti-vibration portion of the lower anti-vibration rubber (25 ") and the lower anti-vibration rubber (25) seated on the upper portion of the base fan Compression spring 31 is installed on the upper portion of "), and the upper anti-vibration rubber (25 ') is provided on the upper portion of the compression spring (31).

In addition, the upper and lower anti-vibration rubber (25 '. 25 ") and the compression spring 31 is configured to overlap with each other, as shown in Figure 6 or may be configured not to overlap each other.

Hereinafter, the fastening process and action of the compressor mounting structure of the air conditioner according to the present invention having the configuration as described above will be described with reference to FIGS. 5 and 6.

First, the components constituting the present invention will be described. In the case of the embodiment of the anti-vibration unit as shown in FIG. 6 with reference to FIG. 5, the lower anti-vibration rubber 25 ″ is first inserted into the bolt 23 fixed to the base fan 21. The compression spring 31 and the upper side anti-vibration rubber 25 'are sequentially inserted thereon, wherein portions of both ends of the compression spring 31 are fixed to the outer circumferential surfaces of the upper and lower anti-vibration rubber 25' and 25 ", respectively. It is also possible to insert the bolts 23 at a time after they are integrally formed by overlapping. And the next process is the same as in the prior art. That is, as shown in FIG. 5, the support plate 30 attached to the bottom of the compressor 1 is positioned on the upper anti-vibration rubber 25 ′, and a bracket for blocking the left and right movements of the compressor 1 thereon. 27 or a washer is inserted, and then the nut 29 corresponding to the bolt 23 is fastened to the threaded portion of the bolt 23.

When vibration occurs in the compressor in the mounting structure having such a configuration, the vibration transmitted to the support plate 30 is transmitted to the upper anti-vibration rubber 25 ′, and then the compression spring 31 and the lower anti-vibration rubber ( 25 ”). Since the vibration-proof rubbers 25 'and 25 " and the compression springs 31 themselves have a volume, the support plate 30 and the base fan 21 do not directly collide with each other. 1) vibrates up and down. That is, the anti-vibration rubber 25 ′, 25 ″ and the compression springs 31 reverse the vibration direction of the compressor by their elastic force to reverse (bottom to up), thereby preventing collision between rigid bodies, thereby alleviating the impact. The vertical motion of the compressor 1 gradually decreases in amplitude, and eventually stops vibration.

As described above, according to the present invention, it can be seen that the anti-vibration part installed between the base fan and the compressor of the air conditioner is composed of a vibration proof rubber and a compression spring as a basic technical idea. Within the scope of the basic technical spirit of the present invention, many other modifications may be possible to a person having ordinary skill in the art.

For example, in the above embodiment, the compression spring is to surround the outer surface of the anti-vibration rubber, but it may be configured to be built in the inner surface or the inside.

As described in detail above, the compressor mounting structure of the air conditioner according to the present invention compensates the shrinkage and elasticity reduction of the anti-vibration rubber by the compression spring to effectively block the vibration of the compressor even during long-term use, thereby protecting surrounding components and reducing noise. can do.

In addition, by using a spring with a relatively good elasticity than the anti-vibration rubber is expected to protect the compressor from the instantaneous external impact due to falling of the air conditioner.

Claims (4)

Bolts for fastening the compressor provided in the base fan constituting the lower appearance of the air conditioner, An anti-vibration part provided at an upper portion of the bolt and configured of a vibration-proof rubber and a spring for preventing vibration transmission; Compressor mounting structure of the air conditioner is installed on top of the vibration preventing unit and comprises a support plate attached to the bottom of the compressor to be fastened to the bolt by a nut. According to claim 1, wherein the anti-vibration portion is installed between the upper, lower anti-vibration rubber and the upper anti-vibration rubber and the lower anti-vibration rubber is inserted into the upper portion of the bolt to prevent vibration transmission of the upper and lower anti-vibration rubber Compressor mounting structure of the air conditioner, characterized in that composed of a compression spring to reinforce the elastic force. The compressor mounting structure of claim 1 or 2, wherein the compression spring is installed to overlap with the upper and lower anti-vibration rubber. The compressor mounting structure of claim 1, wherein a bracket or a washer is further provided on the support plate to prevent the compressor from flowing.