DD298151A5 - DEVICE FOR DAMPING PRESSURE PULSATIONS - Google Patents

Abstract

The invention relates to the device for damping pressure pulsations in flowing media within a pipeline system, in particular for installation in compressor-operated Kaelteerzeugungsgeraete consisting of a tubular Daempferkammer of rigid material, in which an inlet and a discharge for the flowing medium and ends in the interior of a tube-like body of resilient material is coaxially arranged. The invention is applicable to the reduction of vibration and sound radiation through piping systems in which a flowing medium is subjected to pressure pulsations. Gemaesz of the invention, the tubular body consists of a cylindrical molded part made of elastomeric material whose Auszenzylinderflaeche has a resilient Abstuetzung to Innenzylinderflaeche the Daempferkammer geweihrleistende structuring, wherein the molding is closed on both sides by existing elastomeric material end plates, which have the Daempferkammer parallel-axis channels on the Inlet and outlet sit and frontally against the Daempferkammer are supported, which has a transverse division, which is bridged by a connecting part of elastomeric material. {Daempfungsvorrichtung; pressure pulsations; streaming media; Pipeline system; Kaelteerzeugungsgeraet; Compressor; Daempferkammer; elastomeric material}

Description

For this 1 page drawings

Device for damping pressure pulsations

The invention relates to a device for damping pressure pulsations in flowing media within a piping system, in particular for installation in compressor-fired refrigeration appliances, consisting of a tubular, sealed on both sides end-side damper chamber made of rigid material into which an inlet and a discharge for the flowing medium opens and in the interior of which a tubular body of resilient material is coaxially arranged.

The invention is applicable to the reduction of vibration and sound radiation through piping systems with medium to small pipe diameter, in which a flowing medium is subject to pressure pulsations due to nonuniformities in the conveying process, or through aggregates connected to such piping systems.

In particular, the invention is applicable for damping pulsation peaks and structure-borne noise in the piping system of compressor-operated refrigeration appliances.

It is known to insert devices for damping vibrations and thus caused sound in piping systems. Thus, according to DE-OS 2 657 523 a silencer for the reduction of water sound from an elastic piece of pipe and a piece of pipe surrounding with distance rigid sleeve known. With this silencer is neither an interruption of the forwarded through the pipe structure-borne noise, nor a significant reduction of possibly acting in the flowing medium pressure pulsations reached.

According to DE-OS 2902995, the known per se reflection muffler principle is applied to a liquid muffler by the fluid supply line is arranged transversely to the longitudinal extension of an elongated expansion chamber. Structure-borne sound is transmitted unhindered with this silencer.

According to DE-OS 3010158 a broadband vibration damper for installation in a pipeline for damping pressure fluctuations within a liquid is known. This consists of a pressure chamber which is separated by a membrane from an internal flow chamber, wherein pressure fluctuations in the liquid are compensated by controlling the air pressure in the pressure chamber.

This vibration damper is relatively complicated and expensive and in particular unsuitable for piping systems of smaller diameter. Structure-borne sound is transmitted without hindrance.

Furthermore, according to DE-OS 3311822 a device for damping of pressure pulsations in fluids is known, which is formed by a tubular element which is inserted into a piping system. This device consists of an inner body, which is made of a resilient material, and an outer body of rigid material, with an annular compensation chamber therebetween. This contains a pressure medium whose pressure is variable in dependence on the pressure pulsation-induced deformation of the inner body. This device is relatively complex and expensive and unsuitable for smaller diameter pipes. Structure-borne sound is not dampened.

From DE-OS 3735081 lit further a pressure pulsation damper for flow media known. This consists of a

indirectly coupled in the pipeline hydropneumatic pressure accumulator, wherein a pressure transducer is intermediate business, which transmits the pressure pulsations on a transmission medium via an elastic separating element. In this case, the pressure transducer has inserted into the pipe tubular housing, in the interior of which an elastically expandable hose is arranged, which is flowed through by the flow medium and thereby the function of the ela; .ische separating element takes over. to

Prevention of overstretching is provided a tube coaxially surrounding tubular support body. These too

known device is expensive and therefore expensive. The space requirement is considerable, so that the device is not suitable for extremely space-saving solutions. The supply and discharge of the medium into the housing or the hose is alsgeradlinige implementation, so that additional damping effects (reflection, absorption, dissipation, resonance) are not achievable. The structure-borne sound transmission is not interrupted.

The aforementioned known devices are particularly suitable for installation in compressor-operated refrigeration appliances and

other in-line piping systems unsuitable where priority is

To dampen pressure pulsations in presupposed by a conveyor in flow media and simultaneously from the Conveyor caused to reduce transmitted through the pipe structure-borne sound. This should be vibrations

and sound emissions from the piping systems and / or from the pipes carrying surfaces or

Housings are avoided. In the case of refrigeration appliances, moreover, the space required by the device and the volatility of the flowing medium

Of particular note; even these conditions do not meet the said known devices.

It is an object of the invention to provide a damping device, by which at the lowest cost vibrations and Sound radiation through the piping system or this bearing surfaces are vorormieden. The invention is based on the object, a device for damping of pressure pulsations in flowing media

within a piping system, in particular for installation in compressor-operated refrigeration appliances, consisting of a tubular, sealed on both sides end side damper chamber made of rigid material into which a supply and a

Discharge for the flowing medium opens and in the interior of a tubular body of resilient material coaxial

is arranged to create, wherein pressure pulsations in the flowing medium and the structure-borne sound propagation through the

Piping be effectively damped. According to the invention this is achieved in that the tubular body of a cylindrical molded part of an elastomeric Material consists, the outer cylindrical surface of a resilient support to Innoniy linderfläche the damper chamber

b ^M währleistende structuring, wherein the molded part on both sides of existing from nostomerem material

End plates is closed, which have parallelachsige channels to the damper chamber, sitting on the inlet and outlet

and frontally supported against the damper chamber, and the damper chamber has a transverse partition which is bridged by a connecting piece of elastomeric material.

Particularly useful is both supply and discharge in the interior of cylindrical molding and damper chamber relative to

whose longitudinal axis angled in opposite directions.

Advantageously, the structuring of the outer cylindrical surface of the cylindrical molded part continues to consist of a

primarily longitudinally extending corrugations whose upper edges rest against the inner cylinder surface of the damper chamber.

It is further for the purpose of additional sound attenuation advantage that the inner cylinder surface of the cylindrical molding

is provided with a structuring.

In connection with the application to a compressor-operated refrigeration device, it is particularly advantageous

that damper chamber with the inside located in the cylindrical cylindrical part inside the hermetic capsule of the

Compressor, after the exhaust valve, is inserted into the pipeline. The invention will be explained in more detail using an exemplary embodiment. In the accompanying drawing show

1: the axial section through a device according to the invention, FIG. 2: the cross section along the line H-II in FIG. 1, FIG. 3: the cross section along the line III-III in FIG.

The use of a device according to the invention in a compressor-operated household refrigerator is described by way of example, without this example being intended to have a restrictive effect on the comprehensive applicability of the inventive idea in piping systems.

The device consists of a tubular damper chamber 1, which is inserted into the piping system of a refrigerator. The supply line 2 (of the pipe power system) is located in the middle or immediate vicinity of the outlet valve of the compressor of the refrigerator (not shown), while the derivative 3 of the device-interrupted by the device itself -Conducting the refrigerant flow to the (further) Rohrleitungsstem the refrigerator serves. The cross section of the damper chamber 1 is a multiple of the cross section of the supply line 2 and discharge 3; the corresponding pipe sockets are fastened in the end faces of the damper chamber 1. In addition, the projecting into the damper chamber 1 pipe socket of lead 2 and 3 discharge relative to the longitudinal axis in opposite directions at an angle in the approximate range of 5-20 ° (18 ° in the embodiment) slightly angled (see Fig. 1). The damper chamber 1 further has a transverse division 4, whereby it is divided into two damper chamber parts 1.1 and 1.2. Both damper chamber parts 1.1 and 1.2 are bridged and connected by a connecting part 5 of refrigerant-resistant rubber. Inside the damper chamber 1 and coaxial with this is a cylindrical molding 6 made of refrigerant-resistant rubber. Whose Außenenzylinderfiäche woist in such a structuring that sio has a primarily longitudinally extending corrugations 7, whereby a resilient support of the molding 6 to the inner cylinder surface of the damper chamber 1 and a pressure equalization is achieved. On both sides, the cylindrical shaped part 6 is closed by end discs 8 made of refrigerant-resistant rubber. These spindles 8 sit on the pipe socket of the supply line 2 and the discharge 3. They have to the axis of the Dämpferkammw 1 parallel-axis channels 9 and are based on Anlageringe 10 stii nf eitig against the Dämpferkarr animal 1 from.

In the specific embodiment, the device described above is inserted within the hermetic capsule of the refrigerator, immediately after the outlet valve of the compressor, in the pipeline, which is made possible by the extremely small space requirement of the device.

The mode of action is as follows:

During operation of the compressor of the refrigerator both pressure pulsations in the refrigerant and sound pressure vibrations in the supply line 2 of the piping system are generated. In particular, by the effect of

Transverse division 4 of the damper chamber 1 and the bridging through the connecting part 5 made of rubber, the direct transmission of structure-borne noise is interrupted on the piping system.

Furthermore, due to impedance jumps due to the change in cross section of the Dämprerkammer 1 and due to the change in material (molded part 6 with end plates 8 made of rubber) reflections opposite to the propagation device of the sound energy, i. back to the sound source (compressor), so that another sound energy loss is effective. The elasticity of the walls of the cylindrical molded part 6 within the damper chamber 1 dampens the pulsation peaks by receiving the alternating pressure. This effect is additionally supported by the cross-sectional widening (cylindrical shaped part 6 in the damper chamber 1). The elastic material of the cylindrical molding 6 and its resilient support via the corrugation 7 acts at pressure equalization as an acoustic Rundumauskleidung in a channel. In this elastic material there is a dissipation. acoustic energy in heat energy and thus to a sound attenuation. In this case, a pressure equalization between the interior of the cylindrical molding 6 and the interior of the damper chamber 1 is ensured via the channels 9 in the end plates 8 and the corrugation 7, otherwise recorded a rigid behavior of the molded part 6 with negative consequences

The slightly angled pipe sockets of supply line 2 and discharge line 3 direct the pulsating sound beam directly to the elastic wall surface of the cylindrical molded part 6. This results in a stronger turbulence and thus increased energy expenditure; the pulsation-related momentum experienced by the elastic material damping.

For frequencies above a cutoff frequency, the damper chamber 1 interacts with the cylindrical molded part β in the interior as a resonance silencer.

In one embodiment, the inner cylinder surface of the cylindrical molded part 6 has a structuring (not shown). This may for example have the form of a thread; it serves the additional Schalldämfpung.

The above-described device according to the invention attenuates pressure pulsations in the refrigerant flow with simultaneous interruption of the body-chute forwarding with little effort, so that vibrations and sound radiation through the pipeline system or this supporting housing are largely avoided. The extremely small space requirement allows a favorable arrangement in the immediate vicinity of the sound source. An escape of the extremely volatile refrigerant in the environment is avoided.

Claims (5)

1. A device for damping of pressure pulsations in flowing media within a piping system, in particular for installation in compressor-driven refrigeration appliances, consisting of a tubular, sealed on both sides end side damper chamber made of rigid material into which an inlet and a discharge for the flowing medium and in the Inner space is arranged coaxially a tubular body made of resilient material, characterized in that the tubular body consists of a cylindrical shaped part (6) made of a Elastorreren material whose outer cylindrical surface has a resilient support to the inner cylinder surface of the damper chamber (1) ensuring structuring, wherein the molded part (6) is closed on both sides by means of elastorneren material existing end plates (8), which have parallelachsige channels (9) to the damper chamber (1) on the supply line (2) and the discharge (3) sitting and frontally against the Dämpferka (1) are supported, and the damper chamber (1) has a transverse distribution (4), which is bridged by a connecting part (5) made of elastomeric material. 2. Device according to claim 1, characterized in that both lead (2) and discharge (3) in the interior of cylindrical shaped part (6) and damper chamber (1) are angled relative to the longitudinal axis in opposite directions. 3. Apparatus according to claim 1, characterized in that the structuring of the outer cylindrical surface of the cylindrical molded part (6) consists of a primarily longitudinally extending corrugations (7), the upper edges of the inner cylinder surface of Dämpferkarnmer (1) abut. 4. Apparatus according to claim 1, characterized in that the inner cylinder surface of the cylindrical molded part (6) is provided with a structuring for the purpose of additional sound attenuation. 5. Apparatus according to claim 1 to 4 for a compressor-operated refrigeration device, characterized in that the damper chamber (1) is inserted with the inside located in the cylindrical cylindrical part (6) within the hermetic capsule of the compressor, after the outlet valve in the pipeline.