KR980008617U - Frame of hermetic compressor - Google Patents

Abstract

The present invention relates to a frame of a hermetic compressor, and conventionally, the refrigerant gas flowing out of the discharge silencer flows along the path of the cold air discharge loop pipe, but the loop pipe is surrounded by an elastic body and is generated by the reciprocating motion of the piston. The vibration of the refrigerant is transmitted to the outside to generate noise, or the refrigerant gas sucked into the suction silencer vibrates the refrigerant inlet pipe and delivers it to the suction silencer and the discharge silencer, thereby further vibrating the cold air leakage loop pipe, thereby causing noise. In the present invention, the refrigerant gas inflow path and the refrigerant gas outflow path of the suction silencer and the discharge silencer supported by the frame are formed in the frame itself, so that the refrigerant gas sucked into the suction silencer is formed. Discharge from instant suction pressure or discharge silencer Has the effect that the material cost as well as reduce the production cost of such loop for the pipe which, by preventing the vibration caused by the moment of the refrigerant gas discharge pressure, reducing the noise of the compressor end.

Description

Frame of hermetic compressor

As shown in FIG. 1, the conventional hermetic compressor frame includes a head cover 1 installed inside a chamber constituting a case and a refrigerant fixed and sucked to a lower side of the head cover 1. Suction silencer 2 for reducing noise of the engine, cylinder 3 and piston 4 for suctioning and discharging refrigerant passing through the suction silencer 2 by reciprocating motion, cylinder 3 and piston 4 ) Is connected to the frame 5 supporting the lower side, the discharge silencer 6 to reduce noise of the refrigerant discharged in communication with the cylinder 3, and the discharge silencer 6 to discharge the refrigerant to the outside. It consists of the loop pipe 7 for refrigerant | coolant outflow which is an elastic body. Reference numeral 8 in the figure indicates a crankshaft.

In the conventional hermetic compressor configured as described above, the refrigerant is sucked and discharged by the reciprocating motion of the piston 4 by the crankshaft 8 while the electric motor is started. In this process, the refrigerant is the suction silencer 2. And noise generated during inhalation or discharge through the discharge silencer 6 is reduced and flows out of the chamber through the refrigerant discharge loop pipe 7 to flow out.

In the conventional frame as described above, the refrigerant gas flowing out of the discharge silencer 6 flows along the path of the refrigerant discharge loop pipe 7, but the refrigerant discharge loop pipe 7 is surrounded by an elastic body. The vibration of the refrigerant generated by the reciprocating motion of the piston (4) to the outside there was a problem that eventually generates noise. Another problem is that the production cost of the roof pipe (7) for the refrigerant outflow, as well as the cumbersome assembly process is required, the production cost is also increased. An object of the present invention for solving the above problems is to allow the refrigerant passing through the discharge silencer to be discharged to the outside without vibrating inside the compressor so that noise caused by vibration is not generated. Another object is to reduce the production cost by eliminating the material cost for the roof pipe as well as the assembly process thereof.

1 is a schematic view showing an example of a hermetic compressor according to the prior art.

2 is a schematic view illustrating the frame of the hermetic compressor according to the present invention.

* Explanation of symbols for the main parts of the drawings

11 head cover 12 suction silencer 12a suction silencer pipe

13: discharge silencer 13a: discharge silencer pipe 14: frame

14a: refrigerant flow path for suction 14b: refrigerant flow path for discharge

An object of the present invention is a frame for supporting a compressor mechanism including a head cover and a suction or discharge silencer, a cylinder, a piston, and the like, the suction refrigerant passage and the discharge refrigerant respectively communicating with the suction or discharge silencer on the frame itself. It is achieved by providing a frame of a hermetic compressor, characterized in that a flow path is formed. Hereinafter, the frame of the hermetic compressor according to the present invention will be described in detail based on the embodiment shown in the accompanying drawings. In the frame of the hermetic compressor according to the present invention, as shown in FIG. 2, a suction silencer 12 and a discharge silencer 13 are respectively attached to the lower side of the head cover 11, and the suction silencer 12 and the discharge silencer 12 are respectively attached. The frame 14 having the suction refrigerant passage 14a and the discharge refrigerant passage 14b is supported at the lower end of the muffler 13, and the suction refrigerant passage 14a and the discharge refrigerant passage 14b are respectively supported. In one axis, the suction silencer pipe 12a and the discharge silencer pipe 13a formed in the lower end surface of each silencer 12 and 13 communicate and are installed. Preferably, the suction refrigerant passage 14a and the discharge refrigerant passage 14b are formed in a straight line. Unexplained reference numerals (2a) (3) and (4) in the drawings are refrigerant inlet pipes, cylinders, cylinders and pistons, respectively. The same reference numerals are given to the same parts in the drawings as in the prior art. In the frame 14 according to the present invention as described above, the refrigerant gas is introduced into the suction silencer 12 through the suction refrigerant passage 14a and the suction silencer pipe 12a, and passes through the cylinder 3 to the discharge silencer 13. ), And the refrigerant gas passing through the discharge silencer 13 flows out through the discharge silencer pipe 13a through the refrigerant passage 14a. At this time, the vibration generated by the reciprocating motion of the piston 4 is transmitted to the discharge silencer pipe 13a, but the vibration is not transmitted because the discharge refrigerant passage 14b is formed in the rigid frame 14 itself. will be. In addition, even during suction, vibration is suppressed in the suction refrigerant passage 14a, so that vibration is also reduced in the suction silencer pipe 12a.

In the frame of the hermetic compressor according to the present invention, the refrigerant gas inlet and the refrigerant gas outlet of the suction silencer and the discharge silencer supported by the frame are formed in the frame itself, and the instantaneous suction of the refrigerant gas sucked into the suction silencer is performed. By preventing the vibration caused by the instantaneous discharge pressure of the refrigerant gas discharged from the pressure or the discharge silencer, in addition to reducing the noise of the compressor, there is an effect of reducing the production cost, such as material costs for the loop pipe.

Claims (1)

The present invention is a frame for supporting the compression mechanism, the frame of the hermetic compressor, characterized in that to form a refrigerant passage in the frame itself. 2. The frame of a hermetic compressor according to claim 1, wherein the refrigerant passage is a suction refrigerant passage communicating with the suction silencer. The frame of a hermetic compressor according to claim 1, wherein the refrigerant passage is a discharge refrigerant passage communicating with the discharge silencer. ※ Note: This is to be disclosed based on the first application.