DE3307064A1 - Pneumatic compressor with at least one compressor stage, particularly for high voltage output switches - Google Patents

Abstract

Pneumatic compressor with at least one compressor stage, particularly for high voltage output switches and for use at ambient temperatures below freezing point. Each compressor stage has a compressor unit with assigned cooler. For each cooler a parallel path is provided for the compressed air, the parallel paths being automatically switched on by means of a control device when the assigned cooler is closed due to icing or closure due to icing is to be anticipated. At the same time the parallel paths can be adapted in their technical dimensions to the assigned compressor unit in such a way that the temperatures of the compressed air in the parallel paths lie above the freezing point and the pneumatic compressor remains fully operational.

Description

330706A

Licentia Patent-Verwaltungs-GmbH PTL-HH / Sl / ge

Theodor-Stern-Kai 1 KS 83/02

D-6000 Frankfurt 70

"Compressed air compressor rait at least one compressor stage, in particular for high voltage circuit breakers "

The invention relates to a compressed air compressor according to the preamble of claim 1.

Each compression stage of a compressed air compressor has a compressor unit with a downstream cooler, a water cooler generally being used will. The compressor units are designed for operation at temperatures above freezing point. The cooling the compressor is based on the highest ambient temperature and is dimensioned in such a way that under these conditions the permissible limit temperatures are not exceeded in any area of the compressor. This conditional on the cooler during the compressor running set only slight over-the-air limits.

Then there are ratios that deviate from the usual conditions of use when the coapressors, such as the compressed air supply for high-voltage circuit breakers, are suitable for outdoor conditions Ambient temperatures are exposed, with the freezing point being partly can be significantly undercut. In many cases, the overtemperature that occurs during the coapresor process is then insufficient

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KS 83/02

to prevent parts of the compressor, especially to serve Coolers fall below the freezing point at correspondingly low ambient temperatures. The consequence is that in these areas a deposit of ice forms on the walls. The ambient temperature remains for a longer time below freezing point, the ice layer will grow until the available cross-sections are frozen over, and the compressor fails.

To avoid this problem it is known, for example, to use thermostats Provide electrically controlled heating resistors for the coapressors. Such heaters can be dimensioned so that the temperature is kept above freezing point in large areas of a compressor when the compressor is at a standstill. In many cases, however, they are in the cooling air flow arranged cooler thermally coupled only weakly with the compressor, so that the temperature on even with such a heater the cooler can fall below the freezing point at low ambient temperatures. An increase in the heating power to raise the cooler temperature in these cases would lead to overheating of other parts of the compressor.

The invention is based on the object of a compressed air compressor To propose the type mentioned at the beginning, the proper operation permitted at ambient temperatures below freezing point.

According to the invention, the object is achieved by the characterizing features of claim 1 solved.

Refinements of the invention are described in claims 2 to 6.

The invention can advantageously be used in compressed air compressors use several compressor stages, with each compressor stage being independent of the operation of the other compressor stages.

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ICS 83/02

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In the drawing, an ÄusfUhrungsbeispiel according to the invention is shown, namely a two-stage compressed air compressor is drawn and described.

The first stage, which is upstream of an air filter 2 by means of a pipe 1, consists of a compressor unit 3 and a downstream cooler 4 (intercooler). To the cooler 3 is about a Again with the pipeline designated 1, the compressor unit 5 of the second stage is connected. The compressor unit 5 is followed by a cooler 6 (aftercooler), which is connected via pipes 1 to a drainage device 7 and a consumer, not shown in the drawing, is connected. The drainage device 7 consists of a water separator 8, a drainage valve 9 and a dryer unit 10.

A parallel path 11 and 12 for the compressed air is arranged in each case for the intercooler 4 and the aftercooler 6, each parallel path being equipped with a check valve 13 and 14, respectively. The parallel paths 11 and 12 are automatically switched on by a control device (not shown in the drawing) when the associated cooler 4 or 6 closed by ice formation or a closure by ice formation is to be expected. There is thus an automatic switchover to less cooling in the affected stage or stages of the compressed air compressor. The parallel paths 11 and 12 for the condensed The technical dimensions of air can be sent to the assigned comm pressor unit 3 and 5 be adapted so that the temperatures of the compressed air in the parallel paths 11 and 12 are above freezing point. The compressed air compressor then remains fully functional.

Each parallel path 11 or 12 can contain a thermostatic valve that for example, can be controlled as a function of the temperature of the cooling air. For example, a thermostatic valve can open its associated parallel path when the cooling air temperature is below 0 C.

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KS 83/02

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The compressed air compressor according to the invention is not just for use can be used at ambient temperatures below freezing point. It can also be used at ambient temperatures close to the Freezing point or just above it.

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Claims (6)

Licentia Patent-Verwaltungs-GmbH PTL-HH / Sl / ge Theodor-Stern-Kai 1 KS 83/02 D-6000 Frankfurt 70 PATENT CLAIMS \ 1J Compressed air compressor has at least one compressor stage, especially for high-voltage circuit breakers and for use at ambient temperatures below freezing point, each compressor stage having a compressor unit with a downstream cooler, characterized in that a parallel path (11, 12) is provided for the compressed air, and that the parallel paths (11 or 12) are automatically switched on by means of a control device when the associated cooler (4 or 6) is closed by ice formation or a closure by ice formation is to be expected . 2. Compressed air compressor according to claim 1, characterized in that the technical dimensions of the parallel paths (H, 12) are adapted to the associated compressor unit (3 or 5) in such a way that the temperatures of the compressed air in the parallel paths (H, 12) lie above the Gerierpunkt and the compressed air compressor remains fully functional. 3. Compressed air compressor according to claim 1 or 2, characterized in that that each parallel path (11, 12) has a check valve (13, 14) contains. COPY \ IiS 83/02 - 2 - 4. Compressed air compressor according to claim 1, 2 or 3, characterized in that that each parallel path (11, 12) contains a thermostatic valve. 5. Compressed air compressor according to claim 4, characterized in that a thermostatic valve controls its associated parallel path (11, 12) as a function of the temperature of the cooling air. 6. Compressed air compressor according to claim 5, characterized by a thermostatic valve which the parallel path (11, 12) at a cooling air temperature opens below 0 C. COPY j