JPH0458082A - Hermetic type compressor - Google Patents

Abstract

PURPOSE:To reduce the mass of a compressor section by making up a valve plate blocking the opening end face of the cylinder of a compressor section from engineering plastics which is of cooling medium resistance, oil resistance and of heat resistance, and thereby fixedly bonding a mounting leg integrally formed with the valve plate onto a frame body. CONSTITUTION:A valve plate 13 blocking the opening end face of the cylinder 9a of a compressor section 4 is made up from engineering plastics which is of cooling medium resistance, oil resistance and of heat resistance. Furthermore, a mounting leg 16 is integrally formed with the valve plate 13, and the mounting leg 16 is fixedly bonded onto a frame body 5. As a result, not only the mass of the compressor section 4 is reduced but also both a gas outlet port 18 and a gas inlet port 17 can be simultaneously formed by the use of a plate forming metal mold, furthermore, the both end faces of the plate 13 can be finished with high accuracy even with no particular polishing work processed, work hours can thereby be reduced.

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Field of Industrial Application The present invention relates to a hermetic compressor used in refrigerators, freezer showcases, and the like.

(Example) Conventional technology Conventionally, this type of hermetic compressor was
As described in the above-mentioned publications, a frame body, an electric motor section and a compressor section attached to the frame body are housed in a closed container, and these two machine sections are connected by a rotating shaft. It is constructed by closing the opening of the cylinder of the compressor section with a valve plate and cylinder head. Here, since the closed container is a pressure container to which an internal pressure of 4 to 5 kg/cm2 is normally applied, it is generally formed by welding a pair of cup-shaped containers formed by deep drawing of a steel plate. In addition, since the ambient temperature inside the closed container during operation usually reaches 100°C or higher, the frame body is formed by casting, and the cylinder on which the piston slides and the bearing of the rotating shaft are not included. It is integrally formed and attached to the stator core of the electric motor section. Further, the piston, which reciprocates within the cylinder, is connected to a crank pin of a rotating shaft by a so-called polge joint method, and reciprocates within the cylinder.

(c) Problems to be Solved by the Invention However, according to the above structure, since the cylinder and valve plate are formed by casting cast iron, etc., there is a problem that they are relatively heavy and increase the weight of the compressor. However, the frame and cylinder, and the cylinder and valve plate, etc., are each made of metal and are secured by bolts, so the cylinder bore will be distorted due to stress when tightening the bolts, resulting in poor bore clearance. Therefore, there was a problem in that the coefficient of performance of the compressor was lowered.

In addition, since the valve plate is also made of metal such as casting, gas discharge holes and suction holes must be formed in the plate by secondary machining, and both end surfaces of the plate are difficult to maintain their sealing properties. From this point of view, high-precision polishing must be performed, which increases the number of man-hours required.

The present invention was made in view of these points, and it not only aims to make the compressor lighter by reducing the mass of the components of the compressor section, but also improves the coefficient of performance of the compressor by reducing the distortion of the cylinder bore. At the same time, we abolished the cutting process of the valve plate.
The purpose is to provide a hermetic compressor that can increase productivity and reduce costs.

(d) Means for Solving the Problems The present invention provides a system in which a frame body, a compressor part and an electric motor part are housed in a closed container with the frame sandwiched therebetween, in which the cylinder of the compressor part is A valve plate that closes the opening end face of the valve plate is formed of an engineering plastic having refrigerant resistance, oil resistance, and heat resistance, and a mounting leg is integrally formed on this valve plate, and the mounting leg is fixed to the frame body. In addition, the valve plate has gas suction holes and gas discharge holes.

Further, the valve plate is formed with a threaded portion for screwing together the cylinder on which the piston slides and the cylinder head forming the gas chamber inside.

Furthermore, a frame body, a compressor part and an electric motor part are housed in a sealed container, and the frame body is made of engineering plastic having refrigerant resistance, oil resistance, and heat resistance. The formed valve plate is fixed, and a cylinder made of engineering plastic is screwed onto one side of the valve plate through a suction valve plate and a gasket, while a cylinder made of engineering plastic is screwed onto the other side through a discharge valve plate and a gasket. The cylinder head is screwed together.

(e) Function The hermetic compressor of the present invention has the following functions due to the above-mentioned configuration.

The valve plate that closes the opening end surface of the cylinder of the compressor section is made of engineering plastic that is resistant to refrigerants, oil, and heat, and a mounting leg is integrally formed on this valve plate. Since it is fixed to the frame, not only can the mass of the compressor section be reduced, but also gas discharge holes and suction holes can be formed simultaneously using the mold for forming the plate, and both ends of the plate can be formed simultaneously. Since the surface can be finished with high precision without any special polishing process, the number of work steps can be reduced.

In addition, by forming threads on the valve plate to screw together the cylinder on which the piston slides and the cylinder head that forms the gas chamber inside, the cylinder and valve plate, and the cylinder head and valve plate can be assembled. In this case, bolts can be eliminated, and bolt tightening will not distort the cylinder bore due to stress, improving the coefficient of performance of the compressor.

(F) Embodiments Hereinafter, embodiments of the present invention will be explained based on FIGS. 1 to 5.

In FIG. 1, 1 houses a frame 5, a compressor section 4 and an electric motor section 3 with the frame in between, and connects the two machine sections 3 and 4 with a rotating shaft 6 in a closed container 2. This is a hermetic compressor. The electric motor section 3 is composed of a stator 7 and a rotor 8 around which a coil 9 is wound. The compressor section 4
The frame body 5 is fixed to the upper surface of the stator 7 and has a cylinder 9a attached thereto, the Polege 3 Indian type piston 10 that reciprocates inside the cylinder 9a, and the piston and the crank pin 11 of the rotating shaft 6. Connecting rod 12 that connects
, a valve plate 13 that closes the open end surface of the cylinder 9a, and a cylinder head 14. 1
5 is a balancer formed integrally with the rotating shaft 5.

The valve plate 13 is made of engineering plastic having refrigerant resistance, oil resistance, and heat resistance and is molded into a substantially circular shape, and has mounting legs 16 to the frame body 5, gas suction holes 17, and A gas discharge hole 18, a female threaded portion 19 for mounting the cylinder 9a, and a male threaded portion 20 for mounting the cylinder head 14 are integrally formed. This valve plate 13 has a suction valve plate 21 on its negative side, and a male screw portion 23 of the cylinder 9a made of engineering plastic is screwed into the female socket 19 via a gasket 22. Discharge valve plate 24 and gasket 25 on the side
The cylinder 9a and the cylinder head 14 are assembled by screwing and fastening a mounting member 27 made of engineering plastic having a female threaded portion 26 through the mounting member 27. Here, engineering plastic has a tensile strength of 5k.
g/mm2 or more and a long-term heat resistance temperature of 100°C or more, but in the present invention, the linear expansion coefficient is particularly close to that of cast iron (1, I x 10-5/'C). It is preferable to use a thermosetting engineering plastic that has excellent refrigerant resistance, oil resistance, and heat resistance, such as reinforced ebo resin or reinforced polyamide resin. It is a resin containing fillers such as.

In the hermetic compressor configured in this manner, the valve plate 13 is made of engineering plastic that is resistant to refrigerants, oil, and heat, and the mounting legs 16 are integrally formed with the valve plate. Since this mounting leg is fixed to the frame 5, not only can the mass of the compressor section be reduced, but also the gas discharge hole 18 and suction hole 17 can be simultaneously formed by the mold for forming the plate. Moreover, since both end surfaces of the plate can be finished with high precision without any special polishing, sealing performance can be maintained with a simple configuration of intervening gaskets 22 and 25, reducing the number of work steps. Can be reduced.

Further, by forming threaded portions 19° 20 on the valve plate 13 to screw together the cylinder 9a on which the piston 10 slides and the cylinder head 14 forming a gas chamber inside, the cylinder 9a and the valve plate 13, Also, when assembling the cylinder head 14 and the valve plate 13, bolts can be eliminated, and the bolt tightening will not distort the cylinder bore due to stress, and the sliding clearance can be maintained appropriately to maintain the compressor. can improve the coefficient of performance.

Further, since the cylinder 9a is made of engineering plastic, its self-lubricating property reduces sliding resistance on the sliding surface, prevents an increase in input, and helps improve the coefficient of performance of the compressor.

(G) Effects of the Invention As described above, according to the present invention, the valve plate that closes the open end face of the cylinder of the compressor section is formed of an engineering plastic having refrigerant resistance, oil resistance, and heat resistance. Since a mounting leg is integrally formed on this valve plate and this mounting leg is fixed to the frame, it is possible to reduce the mass of the compressor part (in addition, the gas discharge hole and suction hole are The plate can be formed simultaneously using a mold, and both end surfaces of the plate can be finished with high precision without any particular polishing process, so the number of work steps can be reduced.

In addition, by forming threads on the valve plate to screw together the cylinder on which the piston slides and the cylinder head that forms the gas chamber inside, the cylinder and valve plate, and the cylinder head and valve plate can be assembled. In this case, bolts can be eliminated, and bolt tightening will not distort the cylinder bore due to stress, improving the coefficient of performance of the compressor.

[Brief explanation of the drawing]

Fig. 1 is a longitudinal sectional view of a hermetic compressor showing an embodiment of the present invention, Fig. 2 is an exploded sectional view of the compressor section, and Fig. 3 is a front view of the valve plate with a cylinder attached. Plan view,
FIG. 5 is a sectional view thereof. 2...Airtight container, 3...Electric motor section, 4-...Compressor section, 5--Frame body, 9a--Cylinder, 13--Valve bullet, 14--Cylinder head, 16--Installation Department,
17... Suction hole, 18... Discharge hole, 21... Suction valve plate, 2225... Gasket, 24- Discharge valve plate, 27
...Mounting parts. Figure 2 Figure 3

Claims (4)

[Claims] (1) In a device in which a frame body, a compressor part, and an electric motor part are housed with the frame in between, the valve plate that closes the open end face of the cylinder of the compressor part is A hermetic compressor, characterized in that it is made of engineering plastic having refrigerant properties, oil resistance, and heat resistance, and a mounting leg is integrally formed on the valve plate, and the mounting leg is fixed to the frame. (2) The hermetic compressor according to claim 1, wherein the valve plate is formed with a gas suction hole and a gas discharge hole. (3) Claim 1 characterized in that the valve plate is formed with a threaded portion that screws together the cylinder on which the piston slides and the cylinder head that forms a gas chamber therein.
Hermetic compressor as described. (4) A frame body, a compressor part, and an electric motor part are housed in a sealed container with the frame body sandwiched therebetween, and the frame body is made of engineering plastic having refrigerant resistance, oil resistance, and heat resistance. At the same time, a cylinder made of engineering plastic is screwed and fastened to one side of this valve plate through a suction valve plate and a gasket, while a cylinder made of engineering plastic is screwed to the other side through a discharge valve plate and a gasket. A hermetic compressor characterized by a plastic cylinder head screwed together.