KR20080064214A - A hermetic type compressor - Google Patents

Abstract

A hermetic compressor is provided to increase the vibration absorption capacity without reducing a spring constant of a spring element excessively by absorbing vibration through a multi-degree of freedom vibration isolation system by the help of an auxiliary elastic element. A hermetic compressor includes a vibration reducing unit(30) having a spring element(31) positioned between equipment part(20) and a lower container(10A) for elastically supporting thereof, a first fixing element(32) provided to the equipment part for fixing an upper end of the spring element, a second fixing element(33) provided to the lower container for fixing a lower end of the lower container, and an auxiliary elastic element(34) positioned between the second fixing element and the lower container for elastic supporting thereof.

Description

Hermetic Compressor {A HERMETIC TYPE COMPRESSOR}

1 is a cross-sectional view showing the structure of a vibration reducing device employed in a conventional hermetic compressor.

2 is a cross-sectional view showing the structure of a vibration reducing device in a hermetic compressor according to an embodiment of the present invention.

3 is a cross-sectional view showing the fixing member and the installation protrusion in the vibration reducing device of FIG.

FIG. 4 illustrates a state in which the auxiliary elastic member is shrunk in FIG. 2.

Explanation of symbols on the main parts of the drawings

10: sealed container 10A: lower container

11: mounting protrusion 11a: support part

11b: protrusion 20: mechanism unit

30: vibration reduction device 31: spring member

31: first fixing member 33: second fixing member

33c: insertion groove 33d: stepped portion

The present invention relates to a hermetic compressor, and more particularly, to a hermetic pusher having a vibration reducing device to reduce the transmission of vibration generated from the mechanism unit to the hermetic container.

In general, the hermetic compressor is employed in a refrigeration cycle of an air conditioner or a refrigerator, and is provided to compress the refrigerant. The hermetic compressor forms an exterior through a hermetically sealed container formed by combining an upper container with a lower container.

Inside the hermetically sealed container, a compression mechanism unit for compressing a refrigerant and a mechanism unit formed by combining a driving mechanism unit for providing a driving force according to the compression action of the refrigerant are incorporated therein. A refrigerant discharge pipe for supplying the compressed refrigerant compressed through the condenser side of the refrigeration cycle is installed.

Therefore, in the hermetic compressor, vibration is generated through the refrigerant discharge pipe in the process of supplying the refrigerant compressed into the sealed container out of the sealed container along the refrigerant discharge pipe, and driving the compressor mechanism unit and the drive mechanism unit. Vibration and the like are transmitted, and particularly during the vibration, a vibration transmitted from the mechanism unit to the sealed container is strongly generated.

Therefore, in the conventional hermetic compressor, a vibration reducing device is provided between the instrument unit and the lower vessel to absorb the vibration transmitted from the instrument unit to the hermetic container.

Figure 1 shows the structure of a vibration reducing device employed in a conventional hermetic compressor.

As shown in FIG. 1, the conventional vibration reducing device 1 includes a spring member 4 and an upper end of the spring member 4 provided to elastically support the mechanism unit 2 and the lower container 3. A first fixing member 5 provided at the side of the mechanism unit 2 to be fixed, and a second fixing member 6 provided at the bottom side of the lower container 3A to fix the lower end of the spring member 4, The vibration reducing device 1 is usually installed at three or four points between the instrument unit 2 and the lower container 3A.

In the case of the first fixing member 5, the first fixing member 5a is provided to be inserted into the upper inside of the spring member 4, and is attached to the lower end of the instrument unit 2, and the second fixing member (6) has a second insertion portion (6a) is provided to be inserted into the lower inner side of the spring member (4) is fixed in a state that is forced to the installation projection (3a) provided on the bottom of the lower container (3A). .

Therefore, the vibration reduction device configured as described above absorbs the vibration generated from the mechanism unit 2 through the buffering action of the spring member 4 so that the vibration generated from the mechanism unit 2 is sealed in the sealed container 3. To be suppressed.

However, in the conventional hermetic compressor, the vibration reduction device 1 of the mechanism unit 2 is provided so as to perform the vibration absorbing action by the one degree of freedom vibration suppression system through one elastic member provided as the spring member 4. There was a limit to effectively reducing vibration.

Of course, when the spring constant value of the spring member 4 is reduced, the vibration insulation characteristic of the vibration reducing device 2 can be improved. However, the spring member is considered in consideration of the circulation environment of the hermetic compressor or the starting stop noise. It is difficult to lower the spring constant value of (4) below a certain value.

The present invention is to solve such a problem, it is an object of the present invention to provide a hermetic compressor provided to more effectively reduce the transmission of the vibration generated from the mechanism unit to the sealed container.

The hermetic compressor according to the present invention for achieving the above object is a compressor mechanism unit for performing a compression action of the refrigerant inside the sealed container formed by coupling the upper vessel and the lower vessel and a drive mechanism unit for providing a compression driving force of the refrigerant. There is a built-in instrument unit, a vibration reducing device is provided between the instrument unit and the lower container to absorb the vibration transmitted from the instrument unit to the sealed container, the vibration reducing device is provided between the instrument unit and the lower container. A spring member provided to elastically support, a first fixing member provided on the mechanism unit side to fix the upper end of the spring member, a second fixing member provided on the lower container side to fix the lower end of the spring member, and the second fixing member And an auxiliary elastic member provided to elastically support the member and the lower container. Gong.

And the bottom of the lower container is provided with a mounting projection for the installation of the second fixing member, the auxiliary elastic member is provided to support the second fixing member to be lifted and flowable in the state inserted into the installation projection. It is done.

In addition, the installation protrusion has a lower end and a support portion having a smaller diameter than the support portion in the upper portion of the support portion extending a predetermined length to the upper portion, the second fixing member is formed longer than the projection portion so that the protrusion is fitted An insertion groove is opened to a lower portion, and a stepped portion is formed in the middle of the insertion groove so that an upper diameter of the insertion groove is smaller than a lower diameter, and the auxiliary elastic member is inserted into the protrusion inside the insertion groove. The stepped portion is supported and characterized in that the lower end is provided to be supported by the support portion.

In addition, the auxiliary elastic member is characterized in that it comprises a spring.

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

As shown in FIG. 2, the hermetic compressor according to the present embodiment is used to provide a condenser by compressing a refrigerant received from an evaporator and used in a refrigeration cycle such as an air conditioner or a refrigerator. The container 10A forms an appearance through the sealed container 10 formed by being coupled to each other.

Inside the hermetic container 10, there is a built-in mechanism unit 20 formed by combining a compression mechanism unit performing a compression action of the refrigerant and a drive mechanism unit providing a driving force according to the compression action of the refrigerant. The refrigerant compressed in the sealed container 10 by 20 is supplied toward the condenser of the refrigeration cycle along a refrigerant discharge pipe (not shown) installed at one side of the sealed container 10.

In addition, when driving the mechanism unit 20 for the compression of the refrigerant inevitably accompanied by vibration, the driving vibration of the mechanism unit 20 is transmitted to the sealed container 10, the instrument unit 20 and The vibration reduction device 30 is provided between the lower vessels 10A to absorb the vibrations transmitted from the mechanism unit 20 to the sealed vessel 10 in this way.

Vibration reducing device 30 according to the present embodiment is a spring member 31 provided to elastically support between the mechanism unit 20 and the lower container (10A), and the mechanism so that the upper end of the spring member 31 is fixed The instrument unit 20 includes a first fixing member 32 provided on the unit 20 side and a second fixing member 33 provided on the bottom side of the lower container 10A to fix the lower end of the spring member 31. ) And three or four points between the lower vessel 10A.

The first fixing member 32 has a first inserting portion 32a provided to be inserted into the upper inside of the spring member 31 and is attached to the lower end of the instrument unit 20, and the second fixing member ( 33 is provided on the bottom side of the lower container 11A through the installation protrusion 11 installed at the bottom of the lower container with a second insertion part 33a provided to be inserted into the lower inner side of the spring member 31. .

The installation protrusion 11 may be welded to the bottom of the lower container 10A, and the first fixing member 32 of the upper end of the first inserting portion 32a and the second fixing portion of the lower end of the second inserting portion 33a. The member 33 has support jaws 32b and 33b for supporting the upper and lower ends of the spring member 31, respectively.

On the other hand, the vibration reduction device 30 according to the present embodiment further comprises an auxiliary elastic member 34 provided to elastically support the second fixing member 33 and the lower container (10A), the auxiliary The elastic member 34 may be provided with the same spring as the spring member 31.

The auxiliary elastic member 34 is elastically supported between the mechanism unit 20 and the lower container 10A together with the spring member 31 so that the vibration reducing device 30 absorbs vibration by the multiple degree of freedom vibration suppression system. It is provided to perform, so that the vibration absorption capacity of the vibration reducing device 30 is doubled without excessively reducing the spring constant value of the spring member 31.

That is, the auxiliary elastic member 34 is provided to elastically support the second fixing member 33 in a liftable state while being inserted into the installation protrusion 11 to double the cushioning function of the spring member 31. Will be.

As shown in FIG. 3, the installation protrusion 11 has a lower end of the support part 11a and a protrusion having a smaller diameter than the support part 11a above the support part 11a to extend a predetermined length upward. 11b), and the second fixing member 33 has an insertion groove 33c which is formed longer than the protrusion 11b and is opened downward so that the protrusion 11b is fitted.

In addition, a step portion 33d is formed in the middle of the insertion groove 33c so that the upper diameter of the insertion groove 33c is smaller than the lower diameter, and the auxiliary elastic member 34 is inside the insertion groove 33c. The upper end is provided to be supported by the step portion 33d and the lower end is supported by the support portion 11a in a state of being fitted into the protrusion part 11b, and the upper part of the protrusion part 11b of the installation protrusion 11 is the step portion ( 33d) it is located inside the insertion groove 33c.

Therefore, in this state, as shown in FIG. 4, the auxiliary elastic member 34 is guided to the upper part of the protrusion part 11b through the insertion groove 33c on the upper side of the step part 33d. It is to be able to elastically support the lifting flow through), wherein the upper portion of the protrusion (11b) is preferably in close contact with the side wall of the insertion groove (33c) of the upper portion of the step (33d).

As described above in detail, the hermetic compressor according to the present invention has a vibration reduction device provided to absorb vibrations transmitted from the mechanism unit to the hermetic container to absorb the vibration to the multiple degree of freedom vibration suppression system through the configuration of the auxiliary elastic member. Being able to perform, has the advantage that the vibration absorption capacity of the vibration reducing device can be doubled without excessively reducing the spring constant value of the spring member.

Claims (4)

A mechanism unit including a compression mechanism unit for compressing the refrigerant and a driving mechanism unit for providing a compression driving force of the refrigerant is embedded in the sealed container formed by combining the upper container and the lower container with each other. In the hermetic compressor provided with a vibration reducing device between the vessel to absorb the vibration transmitted from the mechanism unit to the hermetic container, The vibration reducing device includes a spring member provided to elastically support the mechanism unit and the lower container, a first fixing member provided on the side of the mechanism unit to fix the upper end of the spring member, and the lower portion to fix the lower end of the spring member. A hermetic compressor comprising a second fixing member provided on the container side and an auxiliary elastic member provided to elastically support the second fixing member and the lower container. The method of claim 1, An installation protrusion for installing the second fixing member is provided at a bottom of the lower container, and the auxiliary elastic member is provided to support lifting and lowering of the second fixing member while being inserted into the installation protrusion. Hermetic compressor. The method of claim 2, The installation protrusion includes a support portion at a lower end, and a protrusion portion having a smaller diameter than the support portion on the support portion and extending a predetermined length upward. The second fixing member is formed longer than the protrusion is formed with an insertion groove which is opened to the lower portion so that the protrusion is fitted, In the middle of the insertion groove is formed a stepped portion so that the upper diameter of the insertion groove is formed smaller than the lower diameter, The auxiliary elastic member is hermetic compressor characterized in that the upper end is supported on the stepped portion and the lower end is supported on the support in the state inserted into the protrusion inside the insertion groove. The method of claim 2, The auxiliary elastic member is a hermetic compressor, characterized in that it comprises a spring.

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