DE1025909B - Electromagnetic vibration compressor, especially for small refrigeration systems - Google Patents

Description

Electromagnetic vibration compressor, especially for small refrigeration systems The invention relates to an electromagnetic swing compressor, in particular for small refrigeration systems, in which to avoid the piston hitting the If the back pressure is insufficient, an antechamber is provided through the cylinder cover a spring-loaded valve is closed against the pressure side and thereby at Start-up is quickly charged to a sufficient counter pressure.

Such a diaphragm valve continues when it meets the sealing requirements and pressure loads, the most precise processing of its individual parts ahead and is quite prone to failure, since its effectiveness primarily depends on its elasticity depends on the membrane. It has been shown that it is quite difficult to find one corresponding: \ Te.nibranmaterial, and the known ones for refrigerant compressors The proposed membranes lose their elasticity quickly, so that the Menibran valve no longer opens after the compressor has been running for a short time.

The invention relates to a vibrating compressor as described above Type with an antechamber, and the misfinding is based on the task to eliminate the mentioned valve clipping and thus the operational safety of a such l "to increase ompressorh and at the same time to simplify its structure for this purpose, the antechamber against the liquefier is not through one as before Meinbranventil completed, but according to the invention "": mäf, this Menibranventil is replaced by a simple e # return valve.

In this way, the structure of such a vibrating compressor is on the one hand simplified and also one of the most failure-prone parts of such a system replaced by an arrangement that is of practically unlimited life, none Shows signs of aging and degradation and is made from known red-free material can be produced.

The use of check valves between the cylinder and the Antechamber is known, but according to the state of the art it seemed necessary to to form the valve between the antechamber and your condenser in such a way that the 3'entil opens at a certain pressure in the antechamber and then constantly is kept open. It should only be used as a pressure valve when the 3rd sealer starts up work, but remain open during operation. and should be a grim task then taken over by the intermediate valve arranged between the cylinder and the antechamber will. To fulfill this task, a membrane valve, as shown in FIG. to be particularly cheap. Contrary to this approach, it has been shown that this Replaced the diaphragm with a spring-loaded check valve can be, as shown in FIG.

In the figures, 1 denotes the cylinder housing, and 2 denotes that of an antechamber trained cylinder and finite 3 denotes the necklace. Between the cylinder space 5 and the prechamber 6, an intermediate valve 4 is provided, which by means of a spring against erring on the cylinder wall formed paragraph is pressed and thereby the li @ eiden rooms. voneiiiand .., r separates. This valve is so arranged. that the h @@ ll> en press it in front of you into the c'or l: amm @ r if the oscillation amplitude is large can. This yTorkannn; r is opposite to the other parts of the fiält "eanlage]), ei the earlier arrangement shown in Fig. 1 closed by a diaphragm valve, which consists of a valve disk 8, a membrane 9 and a pressure 1; spring 10 lies. The valve disk closes the prechamber against an annular space 11, wi which the pressure line 12 leading to the preliminary liquid is attached.

The arrangement shown in Fig. 2 according to the invention can be achieved See simplification clearly. The antechamber 6 is up into the cover 13 extended and from this by a valve seat plate 14 with a bore 15, in Greed the setback 16 sits, g.trnat. (excite the valve seat plate 14 to fit the spring 7 of the intermediate valve 4 mounted, and the Rückschlagventi116 is also means one in the cover of the compressor: arranged spring 17 preloaded.

The 3'orli load of the check valve 16 can be much lower in the arrangement according to the invention than in the case of eirein \ lemliranveiitil, because the full pressure of the condenser is always applied to the check valve, while the 3''orli load of the 3-diaphragm valve must be such that. it only takes place at a certain pressure in the condenser and in the chamber is opened, i #, both pressures against the Spring preload are directed. Another advantage the arrangement according to the invention lies therein. that the check valve immediately after the piston has its stayed; fötpürll @ tlage pass through hati, d'n @ eifüssier seals against the Vörkäintrier tilid sbtnit j) ralciischl hfn häiripi-iinated gas from the condenser into the Antechamber and, in the event of a leaky valve between the Antechamber and the cylinder, in this back- can flow, so that when the compressor is switched off no restoring force is effective on the piston will. If the pressure in the condenser drops, it can however, an overpressure in the antechamber over this Compensate for kickback in the condenser. Since the non-return valve is in operation with each The Kölberii's work aisles close, last one on the Zwilsche @ nventil between the antechamber and your Cylinder chamber does not have the entire pressure of the condenser but only that of the gas remaining in the antechamber. This will relax though. The Ztvischenr-valve is practically only backed up by its spring preload on the valve seat, so with only low pressure and de-inflated soft stop, so that?) also the low noise to be demanded for a refrigeration compressor is guaranteed.

Claims (1)

PATENT CLAIM Electromagnetic vibrating coinl> re #; sor. in, special for small refrigeration systems, with an antechamber, which is opposite to the Kompre; sorzyIinder as well as with respect to the pressure line connected to its outlet by spring-loaded Valves is complete. characterized in that the outlet valve is a non-return valve (1.6) is formed.