ES2313372T3 - COMPRESSOR. - Google Patents

Abstract

This invention relates to a compressor (1) with a suction muffler (4) comprising a flow leading pipe (9) which enables the transfer of fluid into the cylinder (2) with less pressure loss and/or less heating up.

Description

Compressor.

The present invention relates to a compressor which comprises a suction silencer that minimizes noise.

Suction silencers in compressors they are used for the purpose of damping pressure waves generated as a result of the opening and closing of the saucer of the valve during the periodic movement and the piston cycle and Decrease the sound energy level of the compressor. But nevertheless, compressor behavior is greatly affected by reducing the density of the fluid caused by the heat transfer in the silencer and pressure loss in the flow line In the current state of the art, they are used large volumes before the suction port to reduce pressure losses and due to the heating of the expected fluid in this volume for several cycles, the capacity is degraded and Compressor behavior Although there is less warming in applications where an enclosure is not used just before of the suction port and in which the direct connection to the intake of the suction port by means of a pipe conduction, the pressure loss increases since the fluid is dragged through the pipe and increasing the diameter of the pipe prevents damping of the sound energy level.

In the current state of the art, in the patent No. 4,755,108, a suction silencer is described in hermetic compressors comprising a body that reduces loss pressure and excessive heating of the fluid and attenuates the pressure waves and an isolated discharge chamber mounted on the cylinder head suction manifold. The body of silencer consists of two chambers and the pipeline of the silencer that starts from the intake of the silencer It is designed to meet the suction pipe of the compressor providing fluid communication between these two enclosures by means of radial holes. In order to reduce the contact between the metal surfaces of the cylinder head and the silencer outlet part placed in the cylinder head of cylinder, a metal coil spring is used. In this application heating fluid cannot be avoided completely since the part used as a fluid reservoir It is surrounded by metal surfaces inside the cylinder head and the volume of the tank is insufficient to large capacity compressors.

In the current state of the art, in the international patent application WO 00/52334, a suction silencer is described, the interior of which is divided into two resonance chambers and which is designed to reduce the sound energy level of the compressor and increase the performance of hermetic compressors. Said silencer comprises a bottom element in the form of an empty rectangular prism with its upper part open and a top element that functions as a cover. The upper element that functions as a cover comprises an empty chamber and a part shaped as a pipe that allows connection to the compressor suction port. Two interconnected pieces are placed inside the silencer which basically comprises a lower element with a rectangular prism shape and an upper element that functions as a cover. These pieces form a T-shape when connected in which one has different pins and extensions that correspond to perforations and grooves in the other, by means of which the two pieces are joined together. When the inner section comprising two pieces is placed at the bottom of the silencer and the upper element that functions as a lid is closed, the upper element and the inner parts constitute a third volume that is similar to the suction manifold. In this silencer, two plates are described, which form a T-shape when joined using pins and extensions and which divide the silencer chamber into two identical resonance chambers and an output volume in the upper section when placed in the body after they have been joined. In this type of application, the volume can be adjusted by changing the height of the volume used as a suction tank. When the volume is large, the time in reserve of the fluid and the heating will be increased thereby reducing the capacity; in the case of a reduction of the volume reducing the height, the pressure loss will increase due to the reduction in the distance between the two horizontal planes during the fluid inlet. As a solution to these problems, the introduction of two small boxes that act together placed in the joint pieces with only the open interface surfaces is considered. In this way, it is possible to reduce the volume without reducing the height of the tank excessively and reduce the heat transmission by means of the wall thicknesses of the two small ones
boxes

Another document described in the current state of The technique is US Patent Application No. 5,201,640. This document discloses a set of suction silencer for hermetic compressors in which the muffler body it comprises a lower part provided with a peripheral edge in its open top end and a top cover piece that transports the gas outlet of the muffler body and includes a part of the peripheral lower seating surface to be seated on the peripheral edge of the piece lower silencer body and peripheral skirt exterior extending downward from said part of lower seating surface and surrounding it, the hole being gas intake in the defined silencer body, so less partially, in the lower part of the body of the muffler; the suction silencer assembly being also provided with fixing means to hold and press the top cover piece against the peripheral edge end of the lower part of the muffler body.

The object of this invention according to the Claim 1 is the embodiment of a compressor, comprising a  suction muffler, in which the fluid flowing through the it is taken inside the cylinder with a loss of reduced pressure or less heating.

The compressor designed to achieve the object of the present invention is illustrated in the attached figures, in the which:

Figure 1 is a sectional view of a compressor,

Figure 2 is a perspective view of a suction silencer,

Figure 3 is a schematic view of a suction silencer,

Figure 4 is a perspective view exploded from a suction silencer,

Figure 5 is a perspective view of a flow conduit pipe comprising a suction chamber placed above a separator,

Figure 6 is the schematic view of a suction silencer in an alternative application of said invention,

Figure 7 is a schematic view of a suction silencer in another alternative application of said invention.

The elements represented in the figures are numbered as follows:

one.

compressor

2.

cylinder

3.

cylinder head

Four.

suction silencer

5.

valve support table

6.

muffler outlet

7.

muffler head

8.

suction muffler inlet

9.

flow conduit pipe

10.

orifice

eleven.

suction chamber

12.

separator

13.

suction chamber inlet

14.

suction chamber outlet

fifteen.

resonator chamber

16.

guide

17.

muffler body

18.

accommodation

In home appliances, preferably in refrigeration devices, the circulation of fluid used for cooling is carried out by means of a compressor (1).

The compressor (1) comprises a cylinder (2) that provides the pumping of the circulation fluid, a cylinder head cylinder (3) placed on the cylinder (2) that conducts the fluid from pumped and sucked circulation, a support table of the valve (5) on which the cylinder head (3) and a suction silencer (4), preferably made of plastic, which allows the circulation fluid, whose acoustic energy is reduce, circulate inside to reach the cylinder (2) without warming up and avoiding the noise that can be generated by the fluid traffic.

The suction silencer (4) comprises a silencer body (17) on which the pieces are placed,  one or more spacers (12) that divide the muffler body (17) in sections, at least two resonator chambers (15), which attenuate the vibrations, formed by the separator (12) that divides the inside of the silencer body (17), a head of silencer (7) that allows its mounting on the cylinder head (3), a muffler outlet (6) that is placed on the head of the silencer (7) that allows the transfer of fluid from circulation inside the cylinder (2), an inlet of the suction silencer (8) that provides the fluid inlet of circulation, one or more pipes that conduct the flow (9) in the resonator chamber (15), through which the fluid flows from circulation, which extends from the muffler inlet of suction (8) to the muffler outlet (6), a chamber of suction (11) that is placed in the pipe leading the flow (9) and is not in contact with the muffler body (17) thereby minimizing fluid heat transfer and reducing the acoustic energy inside while functioning as a reservoir of fluid and one or more holes (10) placed in the flow conduit pipe (9) in which each one opens to at least one resonator chamber (15) and provides attenuation of pressure waves.

The suction chamber (11) comprises an inlet of the suction chamber (13) and an outlet of the suction chamber (14) in which both are connected to the conduit pipe of the flow (9).

The muffler body (17) comprises one or more guides (16) by means of which the separator (12) is attached and a housing (18), which allows fixing the entrance of the suction silencer (8).

In the preferred embodiment of the present invention, the suction chamber (11) is placed in the separator (9).

In yet another preferred embodiment of the present invention, the suction silencer (4) comprises a suction chamber (11) in the direction of fluid flow, which has an area of the cross section greater than that of the pipe of flow conduction (9).

In another preferred embodiment of the present invention, the suction silencer (4) comprises a suction chamber (11) that allows the creation of a volume of fluid as large as stroke volume before suction and ensures that the fluid is carried inside the cylinder (2) mainly from this volume with a loss of pressure reduced or reduced heating.

In the application, which is the object of the present invention, when the refrigerant fluid that comes from the evaporator to which the compressor (1) is connected enters the inside the compressor (1), it is carried inside the silencer suction (4) by means of the suction inlet (8). The fluid that flows into the flow conduit pipe (9) in the silencer suction (4) first enters the suction chamber (11) and is transferred to the cylinder (2) by means of the silencer outlet (6). When the suction valve plate opens during compressor suction phase (1) fluid suction starts from the muffler head (7). The suction chamber (11) It is connected by the suction chamber (14) and the compressor fluid suction (1) during the suction stroke it is operated from the suction chamber (11) with a volume which is equal to or greater than the volume of the race, reducing from this way the losses of the suction phase. Therefore, it presents an advantage by reducing the energy of inlet compared to silencers in which fluid flows only through pipes.

In another application of the present invention, the suction silencer (4) comprises a suction chamber (11) placed below the suction silencer (4) that allows the fluid makes a rotation of approximately 180º in the pipe of flow conduction (9). The suction chamber (11), which is placed in the section of the pipe that conducts the flow (9) in the that the fluid makes a rotation of approximately 180º, it works both as a flow line or as a silencer and contributes to the reflection of the pressure waves (figure 4).

With the application that is the object of the present invention, since the suction chamber (11) is placed independent of the silencer body (17) on the separator (9) inside the suction silencer (4) without contact with silencer body (17), chamber volume Suction (11) can be adjusted as necessary and the Heat transfer to the fluid is reduced by extra thickness  from the wall of the suction chamber (11) which is isolated from the surroundings by the silencer body (17).

In another application of the present invention, the suction silencer (4) comprises a suction chamber (11) and a flow conduit pipe (9) made of a material insulating.

In the application of the present invention, prevents the heating of the fluid since the area of the Heat transfer surface is reduced due to the small volume of the suction chamber (11), the loss of pressure since the fluid intake is made from this volume during circulation and at the same time the advantage of the damping effect of the sound waves of this additional volume

Claims (10)

1. Compressor (1) comprising a cylinder (2) that allows the pumping of the circulation fluid inside, a suction silencer (4) that allows the fluid with a reduced acoustic energy circulating inside reach the cylinder (2) without heating up and avoiding the noise that can be generated by the circulation fluid, a silencer body (17) inside which parts and one or more flow conduit pipes (9) are placed inside the body of the silencer (17) through which the circulation fluid flows, characterized in that the suction silencer (4) comprises a suction chamber (11) placed in the flow conduction pipes (9), such that the chamber Suction (11) is not in contact with the silencer body (17) and thus minimizes the transfer of heat to the fluid while it is functioning as a fluid reservoir and allows the reduction of acoustic energy inside. 2. Compressor (1) according to claim 1, characterized in that the suction silencer (4) comprises one or more separators (12) that divide the interior of the muffler body (17) into sections, at least two resonator chambers ( 15) created by dividing the interior of the muffler body (17) by means of the separator (12) that dampens the vibrations and the suction chamber (11) that is placed in at least one of the resonator chambers (15). 3. Compressor (1) according to claims 1 and 2, characterized in that the suction silencer (4) comprises a cylinder head (3) placed in the cylinder (2) that directs the suctioned and pumped circulation fluid, a head of the silencer (7) that allows connection to the cylinder head (3), an outlet of the silencer (6) placed in the head of the silencer (7) that allows the transfer of circulation fluid inside the cylinder (2), an inlet of the suction muffler (8) that allows the admission of the circulation fluid into the flow conduit pipe (9) whose outlet is formed by the inlet of the suction muffler (8) and the outlet of the muffler (6). 4. Compressor (1) according to claims 1 to 3, characterized in that the suction silencer (4) in the direction of the fluid flow comprises a suction chamber (11) having an area of the cross-section greater than that of the flow conduit pipe (9). 5. Compressor (1) according to claims 1 to 4, characterized in that the suction silencer (4) comprises the suction chamber (11) which allows the creation of a volume prior to suction identical to that of the stroke volume and performs the suction of fluid from this volume and provides the fluid to be transferred to the cylinder (2) with a reduced pressure loss or less heating. 6. Compressor (1) according to any of the preceding claims, characterized in that the suction silencer (4) comprises the suction chamber (11) placed in the separator (9). 7. Compressor (1) according to claims 1 to 6, characterized in that the suction silencer (4) comprises the suction chamber (11) provided with a suction inlet (13) and a suction outlet (14) which are connected to the flow conduit pipe (9). Compressor (1) according to claims 1 to 7, characterized in that the suction silencer (4) comprises the suction chamber (11) that functions as a fluid reservoir, a fluid flow line and as a silencer, and positioned below the flow conduit pipe (9) so that the fluid performs a rotation of approximately 180 °. 9. Compressor (1) according to any of the preceding claims, characterized in that the suction silencer (4) comprises the suction chamber (11) in which the transfer of heat to the fluid can be reduced by means of its extra thickness of the wall. 10. Compressor (1) according to any of the preceding claims, characterized in that the suction silencer (4) comprises the suction chamber (11) and the flow conduit pipe (9) made of insulating material.