KR20030049534A - Connection pipe for damping vibration of compressor - Google Patents

Abstract

PURPOSE: A connecting piping for damping the vibration of a compressor is provided to supply a coil shape vibration damping unit for efficiently damping vibration transmitted from the compressor to a condenser. CONSTITUTION: In a connecting piping(31) for a compressor(11) arranged between the compressor compressing refrigerants and a condenser(21) separated in a predetermined distance and arranged at a side of the compressor to radiate refrigerants with connecting the compressor and the condenser to be mutually communicated, the connecting piping for damping the vibration of the compressor comprises a coil shape vibration damping unit(32) extended along a connected direction of the compressor and the condenser to damp the vibration generated from the compressor.

Description

CONNECTION PIPE FOR DAMPING VIBRATION OF COMPRESSOR}

The present invention relates to a connection pipe for vibration damping of a compressor, and more particularly, to a connection pipe for vibration damping of a compressor to effectively attenuate the vibration generated from the compressor and transmitted to the condenser.

The compressor is a component of the refrigerating cycle that recompresses the refrigerant having been cooled, and is mainly adopted in refrigerators, air conditioners and the like which perform the cooling. As components of the refrigeration cycle, in addition to the compressor, a condenser for condensing the refrigerant compressed by the compressor through heat dissipation, an expansion device for condensing and expanding the refrigerant condensed by the condenser, and disposed in the cooling zone to absorb the latent heat of the surroundings There is an evaporator which performs cooling while evaporating.

1 is a view showing the use of the vibration damping unit of the conventional compressor, Figure 2 is an enlarged view of the vibration damping unit region of FIG. As shown in these figures, a compressor 11 is installed at one side of the inside of the machine room 10 of the refrigerator body 1 to compress the refrigerant, and at one side of the compressor 11 a predetermined distance along the horizontal direction. A condenser 21 spaced apart and connected in communication with the discharge side of the compressor 11 to radiate the compressed refrigerant is provided. One side of the condenser 21 is provided with a blowing fan 23 for blowing heat toward the condenser 21 to promote heat dissipation of the refrigerant.

The compressor 11 includes a casing 13 forming an accommodation space therein, a compression unit (not shown) accommodated in the casing 13 to compress the refrigerant, and an electric motor for providing a driving force to the compression unit. A part (not shown) is provided. Mounting brackets 15 are integrally coupled to the lower side of the casing 13, and a plurality of mount brackets 15 are usually coupled to the mounting brackets 15 so that vibration of the compressor 11 can be suppressed from being transmitted to the lower mounting surface 12. Dustproof rubber 17 is combined.

On the other hand, between the compressor 11 and the condenser 21 is formed a vibration damping portion 25 having a "Ｕ" cross-sectional shape to attenuate the vibration generated by the compressor 11 and transmitted to the condenser 21 have.

By the way, in the vibration damping part of such a conventional compressor, the refrigerant pipe is simply bent to have a "Ｕ" shape so as to elastically correspond to the displacement of the compressor 11, and is generated from the compressor 11 to condenser 21. However, due to the characteristics of the material and the bending stiffness of the refrigerant pipe, vibrations of a specific frequency band, particularly relatively low frequency bands, are transmitted to the condenser 21 so as to attenuate the vibration. There is a problem that it causes.

Accordingly, an object of the present invention is to provide a connection pipe for vibration damping of a compressor having a coil-type vibration damping portion capable of effectively attenuating the vibration transmitted from the compressor to the condenser.

1 is a view showing a state of use of the vibration damping unit of a conventional compressor,

FIG. 2 is an enlarged view of the vibration damping unit region of FIG. 1;

3 is a view showing a state of use of the connection pipe for vibration damping of the compressor according to an embodiment of the present invention,

4 is an enlarged view of the connection pipe of FIG.

5 is a cross-sectional view of the connecting pipe of FIG.

Explanation of symbols on the main parts of the drawings

11: compressor 21: condenser

32: vibration damping unit

According to the present invention, the object is interposed between a compressor for compressing a refrigerant and a capacitor spaced apart a predetermined distance on one side of the compressor so as to dissipate the refrigerant compressed by the compressor mutually between the compressor and the condenser In the connection pipe of the compressor to connect in communication, the compressor characterized in that the coil-shaped vibration damping portion is formed elastically along the connection direction for connecting the compressor and the condenser to attenuate the vibration generated from the compressor. Achieved by connecting piping for vibration damping.

Here, the vibration damping unit is preferably formed to have a number of windings of two or more times.

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

3 is a view showing the use of the vibration damping connection pipe of the compressor according to an embodiment of the present invention, Figure 4 is an enlarged view of the connection pipe of Figure 3, Figure 5 is a cross-sectional view of the connection pipe of Figure 4 to be. The same reference numerals are given to the same and equivalent parts as the above-described and illustrated configurations for the convenience of description of the drawings. As shown in these figures, the compressor 11 installed to compress the refrigerant in the machine room 10 of the refrigerator main body 1 or the like has a casing 13 which forms an accommodating space therein, and the casing 13 of the casing 13. A compression unit (not shown) respectively accommodated therein and compresses the refrigerant, and an electric motor unit (not shown) for providing a driving force to the compression unit. The mounting bracket 15 is integrally coupled to the lower side of the compressor 11 so that the compressor 11 can be fixed to the mounting surface 12, and the mounting bracket 15 is generated when the compressor 11 is driven. A plurality of anti-vibration rubber 17 is coupled to damp the transmission of the vibration to the lower installation surface (12).

One side of the compressor (11) is formed by arranging the refrigerant pipe in a zigzag shape so that the refrigerant compressed by the compressor (11) flows and radiate, and includes a plurality of wires attached to the surface to increase the heat transfer area A condenser 21 is disposed. One side of the condenser 21 is provided with a blowing fan 23 so as to promote heat dissipation of the refrigerant by blowing toward the condenser 21, an embodiment of the present invention between the compressor 11 and the condenser 21 The connection pipe 31 for vibration damping of the compressor is provided.

The vibration damping connecting pipe 31 of the present compressor has one end coupled to communicate with the discharge side of the compressor 11 and the other end connected to communicate with the condenser 21, and the compressor 11 and the condenser 21 in the center region. ), A vibration damping portion 32 having a coil shape that can be expanded and contracted along a connecting direction for connecting the same) is formed. Here, the vibration damping unit 32 is preferably formed so that the number of windings is two or more times.

Hereinafter, the action of the vibration damping connecting pipe of the compressor 11 according to an embodiment of the present invention through the comparison of bending stiffness (K _B ) and the conventional stiffness (K _T ) in the same refrigerant pipe Let's explain. As shown in FIG. 5, when the outer diameter of the refrigerant pipe is d _o and the inner diameter is d _i , the bending stiffness K _B of the conventional “Ｕ” shaped vibration damping unit is as shown in Equation (1) below.

Formula (1)

Where E is the Young's modulus (elastic coefficient), L is the length of the refrigerant pipe, and I _ZZ is the area inertia moment along the Z direction, as shown in Equation (2) below.

Formula (2)

On the other hand, the tonal stiffness K _T in the same refrigerant pipe is represented by the following equation (3).

Formula (3)

Where G is the shear stiffness coefficient and I _Z is the moment of inertia in the Z direction, as shown in Equation 4 below.

Formula (4)

Young's modulus E is represented by the following formula (5).

Formula (5)

Summarizing the above formulas (1) to (5), the bending stiffness K _B is expressed by the following formula (6).

Formula (6)

Accordingly, the bending stiffness K _B has a stiffness of 2.62 to 2.70 times that of the tonal stiffness K _T , so that the conventional vibration damping part is compared with the coil-shaped vibration damping part 32 according to an embodiment of the present invention. It can be seen that it is relatively inelastic.

By virtue of this configuration, when vibration is generated by the compression unit and the electric motor unit when the compressor 11 is driven, the vibration damping connecting pipe 31 of the present compressor interposed between the compressor 11 and the condenser 21 is The coil-shaped vibration damping unit 32 expands and contracts in response to the vibration of the compressor 11, thereby effectively suppressing the vibration of the low frequency band, thereby suppressing the vibration of the low frequency band.

As described above, according to the present invention, one end is connected to each other in communication with the discharge side of the compressor, the other end is connected to each other in communication with the inlet side of the condenser has a coil shape to be stretchable along the connecting direction of the compressor and the condenser in the center By providing the vibration damping part, unlike the conventional art in which the low frequency band vibration sound is generated due to the vibration damping part bent to have a relatively high rigidity, it is possible to attenuate the vibration of the relatively low frequency band transmitted from the compressor to the low frequency band There is provided a connection pipe for vibration damping of the compressor that can suppress the generation of vibration sound.

Claims (2)

Interposed between a compressor for compressing a refrigerant and a condenser disposed at a predetermined distance from one side of the compressor so as to dissipate the refrigerant compressed by the compressor, and connected to a connection pipe of the compressor that connects the compressor and the condenser to each other. In And a coil attenuator is formed in a coil shape along a connecting direction connecting the compressor and the condenser to attenuate the vibration generated from the compressor. The method of claim 1, The vibration damping unit is connected to the vibration damping pipe of the compressor, characterized in that it is formed to have a number of windings two or more times.