JPH07208334A - Enclosed type compressor - Google Patents

Abstract

PURPOSE:To provide an enclosed type compressor having high reliability, wherein energy efficiency (EER) is high, having an energy-saving type, having low noise, having soft living environment, and having large construction strength. CONSTITUTION:An enclosed type compressor is provided with a connecting pipe 40 which is constituted integratedly with an intake muffler 39, and a heat shield tube 41 whose one end is connected to the connecting pipe 40, the other end is opposed adjacent to the intake hole 31 of a valve plate 35. The intake chamber 36 of a cylinder head 38 is formed so as to enclose the circumference of the outlet hole 43 of a heat shield tube 41, and the inner capacity of the intake chamber 36 is increased more than the inner capacity of the heat shield tube 41. Structure strength is large since the heat shield tube 41 is inserted in the cylinder head 38.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hermetic compressor used in electric refrigerators and the like.

[0002]

2. Description of the Related Art In recent years, it has been strongly desired for hermetic compressors to have improved energy efficiency (EER) and low noise for the purpose of energy saving.

An example of the conventional hermetic compressor described above will be described below with reference to the drawings.

FIG. 9 shows a suction muffler and a cylinder head of a hermetic compressor shown in US Pat. No. 5,207,564.

In FIG. 9, 1 is a suction muffler made of a plastic (material such as PBT) that controls heating of intake gas, 2 is a passage for intake gas, 3 is a small space for intake gas, and 4 is a cylinder head. 5, 5 is a cylinder head stay, 6 is an oil capillary, 7 is a valve plate having a suction hole 8, 9 is a suction valve lead for opening and closing the suction hole 8, and in the cylinder bore 11 of the cylinder 10,
The piston 12 is inserted. Reference numeral 13 is a spring that fixes the small space 3 and the oil capillary 6 between the cylinder head stay 5 and the valve plate 7.

In the above structure, the suction gas is sucked into the cylinder bore 11 from the suction muffler 1, the suction gas passage 2, the small space 3 of the suction gas passage 2 through the suction hole 8. Then, it is compressed by the piston 12 and discharged from the discharge port.

[0007]

However, the above-mentioned structure has a problem that the intake gas is heated from the valve plate 7 side in the small space 3 to lower the energy efficiency. Further, there is a problem that noise is large because the volume of the small space 3 is small. Further, since the small space of the suction gas made of plastic is pressed against the valve plate by the spring, there is a problem that it is disengaged by a shock.

In view of the above problems, the present invention is to improve the energy efficiency of a hermetic compressor. Reduce noise. In addition, the structural strength is increased to provide a highly reliable hermetic compressor.

[0009]

In order to solve the above-mentioned problems, the hermetic compressor of the present invention comprises a cylinder head having a suction chamber and a discharge chamber defined by a valve plate, and a heat insulating property. A suction muffler made of plastic, a connection pipe integrally formed with the suction muffler, a heat shield tube having one end connected to the connection pipe and the other end closely facing the suction hole of the valve plate are provided. There is.

Further, the outlet hole of the heat cutoff tube is inclined and inserted in the suction chamber of the cylinder head so as to approach the valve plate.

Furthermore, the outlet hole of the heat shield tube is arranged along the obliquely machined surface near the suction hole of the valve plate.

Furthermore, a heat blocking tube having one end connected to the connecting pipe and the other end closely facing and facing the suction hole of the valve plate is provided, and the suction of the cylinder head is surrounded so as to surround the outlet hole of the heat blocking tube. The chamber is shaped like a heart.

Furthermore, the internal volume of the suction chamber of the cylinder head is larger than the internal volume of the heat shield tube.

Further, according to the present invention, the heat-shielding tube 41 is formed into a f-shape, one end thereof is arranged obliquely inside the cylinder head, and the other end is arranged straight above the cylinder head. After the connecting pipe 40 is covered on the straight portion 47, the connecting pipe is fixed to the cylinder head with a steel band and bolts.

[0015]

According to the present invention, due to the above-mentioned constitution, the heat of the suction gas is suppressed by the heat cut-off tube.

Further, since the suction port 31 and the outlet hole 43 are close to each other, heating is suppressed. Furthermore, since the suction port 31 and the outlet hole 43 are in close contact with each other along the diagonally machined surface, heating is further suppressed.

Further, refilling (refrigerant gas compressed in the cylinder is transferred from the suction lead to the cylinder side at a certain timing) The gas is transferred to the suction chamber to form a cushion of the refrigerant gas.

Furthermore, the refilling gas is passed to the suction chamber having a large internal volume and becomes a further cushion of the refrigerant.

On the other hand, the work of connecting the heat cutoff tube and the connecting pipe is simplified. Also, the strength of the connecting portion is increased.

[0020]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A hermetic compressor according to an embodiment of the present invention will be described below with reference to the drawings. The same parts as those in the conventional example will be described using the same reference numerals, and the same parts in the configuration and operation will be omitted.

In FIGS. 1 to 3, an electric motor 21 and a compression element 22 are suspended from a spring 23 inside a sealed case 20. Reference numeral 24 is an oil capillary.

The opening 25 is housed in the closed case 20.
And a compression unit 29 including a cylinder block 28 having a piston 27 in the cylinder 26, an electric motor 21 for reciprocating the piston 27 of the compression unit 29, and an opening 25 of the cylinder 26. The valve plate 35 covers.

FIGS. 4 to 8 are enlarged views of the main part, which cover the opening 25 of the cylinder and cover the intake port 31 and the discharge port 32 with valves 33,
Valve plate 35 with 34 and valve plate 3
5, a cylinder head 38 partitioning and forming a suction chamber 36 and a discharge chamber 37, a suction muffler 39 formed of a heat insulating plastic, a connection pipe 40 integrally formed with the suction muffler 39, and one end A heat insulating tube 41 made of PBT, which is connected to the connecting pipe 40 and has the other end closely facing and facing the suction hole 31 of the valve plate 35, is provided.

The heat shield tube 41 is connected to the cylinder head 38.
Is hermetically inserted into the upper hole 42 of the valve plate 35.
Is installed in the suction chamber 36. And outlet hole 4 at the tip
3 is inclined and inserted so as to approach the valve plate 35. The upper hole 42 of the cylinder head 38 is inclined so as to be inclined.

The outlet hole 43 is formed in the valve plate 3
5 is arranged along the diagonal processing 44 provided near the suction hole 31.

A suction chamber 36 of the cylinder head 38 is formed so as to surround the outlet hole 43 of the heat shield tube 41. In order to increase the internal volume of the suction chamber 36, its shape is heart-shaped.

When the inner volume of the suction chamber of the cylinder head is V ₂ and the inner volume of the heat cutoff tube is V ₁ , V _{2 is}
The noise caused by the refilling of the gas compressed in the cylinder as> V ₁ is reduced by cushioning in V ₂ .

The arrows in the drawing of FIG. 6 indicate the flow of the refilling gas. In the above structure, the suction gas is sucked into the cylinder through the suction muffler, the connecting pipe, the heat shield tube and the suction port. The heat insulation tube is used to insulate the heat on the way, and the small space 3 having a large opening toward the valve plate does not receive heat from the valve plate side as in the conventional case, and the heating of the intake gas is suppressed.

Therefore, the energy efficiency (EER) represented by the refrigerating capacity (BTU / h) / input (W) is improved. According to the experiment, a compressor having a cylinder volume of 7.7 cm ³ for a refrigerator has an EER of 5.1 according to the experimental value according to the conventional specification, but the EER is 5.2 according to the specification of the present invention.

Further, in the above structure, the refrigerant gas compressed in the cylinder is refilled, that is, the refrigerant gas compressed in the cylinder escapes from the suction lead to the cylinder head at a certain timing. Since the small space 3 was filled and the cushioning action was not obtained, the noise was large.

In the present invention, the flow of the refilling gas is shown by the arrow → in FIG. 6, but the noise is reduced because it escapes into the suction chamber 36 and cushions the refrigerant gas as shown by the arrow.

According to the experiment, the refrigerator has a cylinder volume of 7.7c.
When measuring the noise at the power level (PWL) by assembling compressor m ³ in electric refrigerators, in the conventional design 43db
(A), but according to the specification of the present invention, 40 db (A)
The difference is 3 db (A), which is a large reduction.

Further, in the above-mentioned structure, since the plastic in the small space 3 is conventionally exposed in the valley of the cylinder head 4, it may be broken by hitting other parts in the assembly process. Further, since the small space 3 is pressed against the valve plate 7 by the spring 13, the small space 3 may be disengaged from the valve plate 7 by a shock.

According to the present invention, the heat-shielding tube 41 is formed into a f-shape, one end of which is obliquely arranged in the cylinder head 38, and the other end of which is straightly arranged above the cylinder head.

After the connecting pipe 40 is covered on the straight portion 47, the connecting pipe 40 is fixed to the cylinder head 38 with the steel band 45 and the bolt 46, so that the connecting work is easy and the connecting portion is easy. Is strong.

Therefore, there are effects that the energy efficiency is improved, the noise is reduced, and the structural strength can be increased.

[0037]

As described above, according to the present invention, by providing the heat shield tube having one end connected to the connecting pipe and the other end closely facing and facing the intake hole of the valve plate, the heat shield tube heats the intake gas. Is suppressed, energy efficiency (EER) is improved.

Since the outlet hole of the heat cutoff tube is slanted toward the valve plate side and inserted into the suction chamber of the cylinder head, heating is suppressed by bringing the suction port 31 and the outlet hole 43 close to each other, so that energy efficiency ( EER) is improved.

By disposing the opening end of the outlet hole of the heat-shielding tube along the obliquely machined surface near the valve plate intake hole, the intake port 31 and the outlet hole 43 come into close contact with each other along the obliquely machined surface, so that the heating is further improved. Is suppressed, the energy efficiency (EER) can be further improved.

On the other hand, a suction chamber of the cylinder head is formed so as to surround the heat shield tube. Since the suction chamber has a large inner volume and is formed into a heart shape, the refilling gas flows into the suction chamber and serves as a cushion for the refrigerant gas, so that noise is reduced.

Since the internal volume of the heat cutoff tube is set smaller than the internal volume of the suction chamber of the cylinder head, the refilling gas is transferred to the suction chamber having a large internal volume and serves as a further cushion for the refrigerant. Noise generation is reduced.

After forming the heat-shielding tube into a heap shape, disposing one end obliquely in the cylinder head and disposing the other end straight at the upper part of the cylinder head, and covering the straight part with a connecting pipe. By fixing the connecting pipe part to the cylinder head via the steel band, the work of connecting the heat cutoff tube and the connecting pipe is simplified and the strength of the connecting part is increased, so the suction muffler (integrated with the connecting pipe in a small space ) Can be provided, while the structural strength can be increased.

[Brief description of drawings]

FIG. 1 is a front sectional view of a hermetic compressor according to an embodiment of the present invention.

FIG. 2 is a side sectional view of FIG.

3 is a plan sectional view of FIG.

FIG. 4 is an enlarged cross-sectional view of the main part of FIG.

5 is a cross-sectional view taken along the line AA of FIG.

FIG. 6 is an enlarged cross-sectional view of portion B in FIG.

FIG. 7 is a view on arrow CC of FIG.

FIG. 8 is a view on arrow D-D of FIG.

FIG. 9 is an enlarged sectional view of a suction muffler and a cylinder head of a conventional hermetic compressor.

[Explanation of symbols]

 20 Airtight Case 21 Electric Motor 25 Opening 26 Cylinder 27 Piston 28 Cylinder Block 29 Compression Unit 31 Suction Port 32 Discharge Port 33, 34 Valve 35 Valve Plate 36 Suction Chamber 37 Discharge Chamber 38 Cylinder Head 39 Suction Muffler 40 Connection Pipe 41 Heat Cutoff Tube 42 Upper hole 43 Outlet hole 44 Diagonal processing 45 Steel band 47 Straight part

Claims (6)

[Claims] 1. A hermetically sealed case, a cylinder housed in the hermetically sealed case and having an opening, and a compression unit including a cylinder block having a piston therein.
An electric motor that reciprocates the piston of this compression unit, a valve plate that covers the opening of the cylinder and has valves at the suction port and the discharge port, and a suction chamber and a discharge chamber are defined by the valve plate. Cylinder head, a suction muffler formed of heat insulating plastic, a connecting pipe integrally formed with the suction muffler, one end connected to the connecting pipe, and the other end close to the suction hole of the valve plate. A hermetic compressor characterized by being provided with heat-shielding tubes facing each other. 2. An outlet hole of the heat cutoff tube is tilted so as to come close to the valve plate, and is inserted (installed in the suction chamber) of the cylinder head.
The hermetic compressor described. 3. The hermetic compressor according to claim 2, wherein an opening end of the outlet hole of the heat cutoff tube is arranged along an obliquely machined surface near the valve plate suction hole. 4. The hermetic compressor according to claim 1, wherein the suction chamber of the cylinder head is formed in a heart shape so as to surround the heat insulating tube. 5. The hermetic compressor according to claim 1, wherein the heat shield tube has an inner volume smaller than that of the suction chamber of the cylinder head. 6. A heat-insulating tube is molded into a flat shape, one end of which is obliquely arranged in the cylinder head, and the other end of which is straightly arranged above the cylinder head, and the straight portion is covered with a connecting pipe. The hermetic compressor according to claim 1, wherein the connecting pipe portion is fixed to the cylinder head via a steel band after the connection.