ES2313120T3 - REFRIGERANT COMPRESSOR. - Google Patents

Abstract

This invention relates to a compressor (1) preferably used in refrigerators, wherein an insulator (10) minimizes the heat transfer between a suction muffler (4) minimizing the noise generated by the refrigerant during the refrigeration cycle and a cylinder head (3) used to attach the suction muffler (4) to the cylinder (2).

Description

Refrigerant Compressor

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The present invention relates to a compressor preferably used in refrigerators in which a silencer  minimizes the noise generated by the refrigerant during the cycle of cooling and a cylinder head is used to join the silencer to the cylinder.

In refrigerators, cooling is achieved by circulating a refrigerant in a cycle that It generally comprises a condenser, which transfers heat to the outside, a pressure reducer used to regulate pressure, an evaporator that absorbs heat and a compressor. In the compressors used in the cycle mentioned above, it they use intake silencers so the refrigerant used to get the cooling reaches the block of cylinder without being heated and avoiding noise that could have been generated by the refrigerant. The intake silencer It is usually made of plastic material and placed both on the cylinder head and between the cylinder head and the valve plate. The sucked refrigerant reaches the cylinder block passing through a silencer in which its part that forms the suction manifold is placed inside of the cylinder head. While trying to minimize noise generated during this period, it is necessary to improve performance thermodynamic However, heat transfer occurs in the section in which the cylinder head and the head of silencer are connected, so that the refrigerant, and as a consequence the thermodynamic cycle is affected.

In these applications, the cylinder head It is made of a single piece and a part of it is in full contact with the silencer surfaces that form the suction manifold. In this case, the refrigerant reaches the cylinder through the silencer in which its part that forms the Suction manifold is placed in the cylinder head. The coolant temperature taken inside the cylinder is rises due to the temperature gradient formed in the cylinder head cylinder as a result of gas discharge prior to exhaust manifold of the cylinder head after leaving the cylinder, in which both the pressure and the temperature of the gas are increase by the compression process in the cylinder. The coolant temperature rise causes its volume increase resulting in a compression of an amount lower gas in a normal stroke volume and a decrease in volumetric performance of the compressor.

In the current state of the art, in the European patent application EP 195486, a application to reduce heat transfer between the cylinder head of the cylinder and the silencer.

In the current state of the art, in the patent No. 4,573,881, a description of a part is provided additional cylindrical made of insulating material that is arranged to reduce heat transfer.

Compressors with features techniques as defined in the preamble of claim 1 of the patent are known from EP 1 347 175 TO; US Patent No. 6,305,912; US Patent No. 4,759,693 or the US Patent No. 5,762,478.

The objective of the present invention is to realize a compressor with increased volumetric efficiency in which means for transferring the refrigerant to the cylinder without being heated in the section in which the cylinder head and muffler.

The compressor designed to reach Objectives of the present invention are illustrated in the figures. attached, in which:

Figure 1 is a cross-sectional view. of a compressor,

Figure 2 is a perspective view of a cylinder head and an intake silencer,

Figure 3 is an exploded view of a cylinder head, a valve plate and a silencer admission,

Figure 4a is a schematic representation of a cylinder head in which the intake silencer is mounted on it and comprising an insulator inside of the silencer head,

Figure 4b is a schematic representation. of a cylinder head in which the intake silencer is mounted on it and comprising an insulator inside of the exhaust volume,

Figure 4c is a schematic representation. of a cylinder head in which the intake silencer is mounted on it and comprising an insulator between the head of silencer and exhaust volume.

The elements represented in the figures are numbered as follows:

one-

Compressor

2-

Cylinder

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3-

Cylinder head

4-

Intake silencer

5-

Valve plate

6-

Exit hole

7-

Muffler Head Housing

8-

Muffler Head

9-

Exhaust volume

10-

Insulator

In household appliances, preferably in refrigeration devices, refrigerant circulation used to perform cooling is achieved by a hermetic piston compressor (1).

The compressor (1) comprises a cylinder (2) that provides the pumping of the refrigerant in it, a cylinder head cylinder (3) placed on the cylinder (2) through which circulates the refrigerant that is sucked and discharged, a plate of valves (5) between the cylinder (2) and the cylinder head (3), on which the cylinder head (3) is placed, a intake silencer (4), with insulating properties, placed on the cylinder head (3) and preferably made in plastic, in which the acoustic energy of the refrigerant that circulates inside it is reduced by minimizing the noise generated during circulation and ensuring that the refrigerant reaches the cylinder head (3) without being heated and one or more insulators (10) that provide a reduction in heat transfer between the cylinder head (3) and the muffler head (8) and prevents the coolant temperature from rising by minimizing the contact with hot surfaces.

The cylinder head (3) comprises a silencer head housing (7) that provides placed on the intake silencer (4) and an exhaust volume (9) in which the refrigerant discharged from the cylinder circulates (2).

The intake silencer (4) comprises a silencer head (8) adjusted in the head housing of the silencer (8) so it is fixed to the cylinder head (3) and an outlet (6) in the muffler head (8) which allows the refrigerant to pass to the cylinder (2) through the same.

In an application of the present invention, use an insulator (10) placed on the muffler head (8).

In another application of the present invention, use an insulator (10) placed inside the head of the silencer (8) (figure 4a).

In another application of the present invention, use an insulator (10) placed on the surfaces of the silencer head housing (7).

In another application of the present invention, use an insulator (10) placed inside the wall between the surfaces of the silencer head housing (7) and the exhaust volume (9) (figure 4c).

In another application of the present invention, use an insulator (10) placed on the surface of the volume exhaust (9) (figure 4b).

In another application of the present invention, use an insulator (10) placed around the exit hole (6).

In an application of the present invention, the insulator (10) is in the form of an insulating wall so the contact between the refrigerant from the silencer intake (4) and hot interior surfaces are minimized while the refrigerant passes through the cylinder head (3) and prevents the coolant intake temperature increase

In an application of the present invention, the insulator (10) has the shape of an insulating chamber so that the contact between the refrigerant from the silencer intake (4) and hot interior surfaces are minimized while the refrigerant passes through the cylinder head (3) and prevents the coolant intake temperature increase

The insulator (10) according to the present invention can be mounted and can be removed from its position on the silencer head (8) or intake silencer (4) as a separate module or it can be fixed to these parts and apart, it can be manufactured in one piece with the intake silencer (4) or the muffler head (8) in a suitable position.

In another application of the present invention, the air between the intake silencer (4) and the head of the silencer (8) is used as an insulator (10) and works as a insulating wall or an insulating chamber.

By means of the application according to the present invention, the contact surface of the head housing silencer (7) and the silencer head (8) decreases ensuring the admission of the refrigerant to the cylinder at a low temperature and therefore at a higher density, improving the behavior of the compressor (1).

Claims (4)

1. Compressor (1) comprising: a cylinder (2) that provides the pumping of the refrigerant therein; a cylinder head (3) disposed above the cylinder (2), through which the refrigerant that is sucked and discharged circulates, and which comprises an exhaust volume (9) in which the discharged refrigerant of the cylinder (2) circulates ), and a silencer head housing (7) which provides that it be placed on the suction silencer (4); an intake silencer (4) in which the acoustic energy of the refrigerant circulating inside it is reduced thereby minimizing the noise generated during the circulation and comprising a silencer head (8) adjusted in the head housing of the silencer (8); and comprising one or more insulators (10) that provide a reduction in heat transfer between the cylinder head (3) and the muffler head (8) and prevents the coolant temperature from rising by minimizing contact with hot surfaces, characterized in that said insulators (10) are placed

?

both inside the head of the silencer (8) and / or

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as on the surfaces of exhaust volume (9) and / or

?

inside the wall between the surfaces of the silencer head housing (7) and the exhaust volume (9).

2. Compressor (1) according to claim 1, characterized in that it comprises an intake silencer (4) having an outlet (6) in the muffler head (8) that allows the refrigerant to pass into the cylinder (2) a through it. 3. Compressor (1) according to claim 1 or 2, characterized in that it comprises an insulator (10) in the form of an insulating wall whereby the contact between the refrigerant that comes from the intake silencer (4) and the hot interior surfaces is minimizes while the refrigerant passes through the cylinder head (3) and prevents the coolant intake temperature from rising. 4. Compressor (1) according to any of the preceding claims, characterized in that it comprises an insulator (10) in the form of an insulating chamber whereby the contact between the refrigerant that comes from the intake silencer (4) and the hot interior surfaces is minimizes while the refrigerant passes through the cylinder head (3) and prevents the coolant intake temperature from rising.