DE102008023594A1 - compressor unit - Google Patents

Abstract

The invention relates to a compressor device with at least one first and one second compressor (1, 2), wherein the compressor device has at least two operating modes. Starting from this, a compressor device is provided with at least one first and second compressor, which allows a significantly larger pressure medium flow rate with respect to known compressor devices comparable effort. For this purpose, in a first operating mode, the first and the second compressor (1, 2) can be operated in the manner of a parallel connection, such that the compressible medium supplied to the second compressor (2) is independent of the medium delivered by the first compressor (1), and in a second mode of operation, the first and second compressors (1, 2) are operable in a series connection fashion such that the second compressor (2) receives and compresses already compressed compressible medium from the first compressor (1).

Description

The The invention relates to a compressor device with at least one first and a second compressor according to the Claim 1.

Compressor devices with a first and a second compressor are known for example as so-called two-stage compressors, z. B. from the DE 1 815 163 or the DE 1 686 214 , Such two-stage compressors are used in particular for generating a high compression end pressure. In this case, a first compression of the pressure medium is effected by a first compressor stage and fed to the compressed compressor of the second compressor stage for further compression.

Two-stage Due to their design, compressors have a relatively low fluid pressure throughput, measured in terms of required space and weight.

Of the Invention is therefore based on the object, a compressor device to provide at least a first and second compressor, the in comparison with known compressor devices comparable Expenditure a significantly larger pressure fluid delivery allowed.

These The object is achieved by the invention specified in the patent claim 1 solved. Further developments and advantageous embodiments are given in the subclaims.

The Invention has the advantage, by the possibility of the first and the second compressor optionally both in the manner of a parallel circuit as also to operate in the manner of a series connection, the advantages of one-stage compression with those of two-stage or multi-stage compression to combine. The one-stage compression allows large Flow rates of the pressure medium. Especially when used the compressor device according to the invention in a compressed air system of a vehicle, this has the advantage that at the start of the vehicle, the compressed air reservoir can be replenished relatively quickly, so that the vehicle is ready to use quickly, giving the vehicle user Saves time and money. Advantages of two-stage or multi-stage compression are, in addition to generating a higher pressure level, one lower compression end temperature and thus a reduced oil decomposition the oil used for lubrication and a reduction the oil consumption of the compressor device. Reduced from this an improved air quality compared to single-stage compression. Another advantage of the two- or multi-stage compression is that the degree of delivery of the compressor device higher is as in single-stage compression. The delivery grade indicates the quotient of the actually funded Amount of air and the design theoretically eligible Air volume.

One Another advantage of the invention consists in their diverse Applications. Thus, the invention already with two compressors are advantageously realized. An extension Another compressor is possible without much effort. Then is in the first mode of operation are the other compressor by type a parallel connection in parallel with the first and second compressors operable such that it is supplied to the further compressor Compressible medium independent of that of the first and the second compressor is discharged medium. In the second mode are the first, the second and the other compressor in the manner of one Series circuit operable, such that the further compressor from the second compressor absorbs already compressed compressible medium and further condensed. In the same way is an extension Advantageously possible on further compressors.

According to one advantageous development of the invention is for switching between the first mode (parallel connection) and the second mode (Series connection) provided a valve device. This is with little effort the switch between the two modes realizable.

The Valve device may according to an advantageous Continuing education as by an electronic control device electrically be executed actuatable valve device. This has the advantage of having the criteria for switching between the operating modes taking into account a wide variety of input signals the electronic control device can be fixed, whereby a optimized pressure medium delivery adapted to the respective operating conditions is possible.

The Invention allows, at any time of the first mode in the second mode and vice versa. So z. B. switching to the second mode with the associated benefits, once an improvement in the Air quality seems reasonable or necessary. For example the changeover can be triggered by an external signal be that of the compressor device of an electronically controlled Air treatment plant is supplied.

According to an advantageous embodiment of the invention, the switching from the first mode to the second mode, as soon as the output side pressure level of the second compressor reaches or exceeds a predetermined pressure value. This makes it possible, in cases where large pressure medium flow rates are required, for. B. at a rapid filling of pressure fluid reservoirs at the start of the vehicle to provide the required large flow available until the compressed air tank was filled to a sufficient for the vehicle start pressure level. Then can be switched on reaching this pressure on the second mode with the associated advantages.

The Invention will be described below with reference to further advantages of exemplary embodiments and drawings closer explained.

The 1 to 3 show three advantageous embodiments of the compressor device according to the invention in a schematic form. In the figures, like reference numerals are used for corresponding parts.

In a first mode of operation, the first and second compressors are ( 1 . 2 ) operable in the manner of a parallel connection. Here is the second compressor ( 2 ) supplied compressed medium, ie the air, regardless of that of the first compressor ( 1 ) delivered medium. In a second mode of operation, the first and second compressors ( 1 . 2 ) operable in the manner of a series connection. Here, the second compressor ( 2 ) that of the first compressor ( 1 ) already compressed compressible medium and compresses this further.

In the embodiment according to 1 is a suction port of a first compressor ( 1 ) via an air filter ( 5 ) connected to the atmosphere. The first compressor ( 1 ) is drivable via a drive shaft shown schematically, for. B. from a vehicle engine. During operation, the first compressor sucks ( 1 ) over the air filter ( 5 Air from the atmosphere, compresses them and delivers them via a compressed air outlet port to a first valve ( 4 ). The first valve ( 4 ) is part of a valve device ( 3 . 4 ) for switching between the first and second operating modes of the compressor device. The first valve ( 4 ) is designed as a pneumatically actuated 3/2-way valve and serves to switch the compressed air output port of the first compressor ( 1 ) depending on the first and the second mode. For this purpose, the first valve ( 4 ) to a first output port via an intercooler ( 11 ) with a suction port of a second compressor ( 2 ) connected is. A second output port of the first valve ( 4 ) is via a compressed air line ( 7 ) with the one compressed air outlet connection of the second compressor ( 2 ) connected. By switching the first valve ( 4 ), the compressed air outlet port of the first compressor ( 1 ) optionally with the suction port of the second compressor ( 2 ) or with its compressed air outlet connection - and thus with a compressed air delivery line ( 8th ) of the compressor device - are connected.

The suction port of the second compressor ( 2 ) is additionally connected via a compressed air line ( 6 ) with a second valve designed as a pneumatically controlled 2/2-way valve ( 3 ), the further component of the valve device ( 3 . 4 ). The second valve ( 3 ) connects the suction port of the second compressor ( 2 ) in the first mode via the filter ( 5 ) with the atmosphere and thereby allows a direct intake of air from the atmosphere. In the first mode, the first and second valves are ( 3 . 4 ), with the result that the suction port of the second compressor ( 2 ) over the valve ( 4 ) from the compressed air outlet port of the first compressor ( 1 ) and instead air via the compressed air line ( 6 ), the second valve ( 3 ) and the air filter ( 5 ) sucks. The first compressor ( 1 ) gives the compressed air via the first valve ( 4 ) and the compressed air line ( 7 ) directly into the compressed air delivery line ( 8th ).

In the second mode of operation, the first and second valves are ( 3 . 4 ), with the result that the suction port of the second compressor ( 2 ) over the valve ( 4 ) to the compressed air outlet port of the first compressor ( 1 ) and that of the first compressor ( 1 ), already compressed compressed air via the first valve ( 4 ) and the intercooler ( 11 ) sucks.

The intercooler ( 11 ) serves to cool the discharged due to the compression process at a higher temperature level compressed air. By cooling the efficiency of the second compressor stage can be improved by at least approximately an isothermal compression takes place. Overall, a reduction in the overall temperature level, whereby harmful relatively high compression end temperatures are avoided in each of the compressor stages.

The compressed air delivery line ( 8th ) is connected to a compressed air reservoir ( 9 ), which serves to store the generated compressed air. In the embodiment according to 1 , in the pressure-actuated valves ( 3 . 4 ) are used, their pressure medium control inputs via a compressed air line ( 10 ) with the compressed air reservoir ( 9 ) connected. Once the pressure level in the compressed air reservoir ( 9 ) reaches or exceeds a predetermined value, this pressure causes via the compressed air line ( 10 ) a switching of the valves ( 3 . 4 ) and thus a switching of the compressor device from the first to the second mode.

In the 2 the compressor device according to the invention is shown in an embodiment in which the valve device ( 3 . 4 ) from an electronic control device ( 13 ) is electrically actuated. The first and the second valve ( 3 . 4 ) are actuated, for example via a respective electromagnet. The electrical actuation takes place via an electrical line ( 12 ). The electronic control device ( 13 ) is also via an electrical line ( 15 ) with a pressure sensor ( 14 ), the pressure in the compressed air reservoir ( 9 ) detected. According to an advantageous development of the invention, the electronic control device ( 13 ) by means of the pressure sensor ( 14 ) detected pressure value and causes by electrical actuation of the valve device ( 3 . 4 ) a changeover from the first mode to the second mode, as soon as the pressure value indicates that the pressure level in the compressed air reservoir ( 9 ) reaches or exceeds a predetermined pressure value.

According to an advantageous development of the invention, the electronic control device ( 13 ) additionally the air consumption of the compressed air reservoir ( 9 ) connected compressed air system, for example by monitoring the time course of the signal of the pressure sensor ( 14 ). For short-term increased air consumption, the electronic control device ( 13 ) then by electrical actuation of the valve device ( 3 . 4 ) the compressor device in the first mode to cover the increased air requirement.

The electronic control device ( 13 ) is further connected via an interface with other electronic devices in a vehicle. The interface is in the 2 as well as in the 3 through a line ( 19 ) symbolizes. The interface can, for example. As a data communication bus system, z. B. a CAN bus system, be formed. Via the interface, the electronic control device receives signals from other devices in the vehicle, for example from an electronically controlled air dryer or an electronically controlled air treatment device. For example, information about the air requirement of the compressed air system in the vehicle is given by these devices, so that the electronic control device ( 13 ) can select the first or the second operating mode depending on the information about the air requirement. Further information that the electronic control device ( 13 ) via the interface receives, for example, be an information about the moisture content of the compressed air or the moisture content of the air dryer. According to an advantageous embodiment of the invention, the electronic control device ( 13 ) the compressor device in the first mode to when the wet signal reaches or exceeds a certain value. In this case, the single-stage compression allows a large amount of air to be pumped faster, so that a certain amount of air is stored in the compressed air storage tank ( 9 ) can be constructed. As a result, the duty ratio of the compressor device can be shortened, and there is early time for regenerating the air dryer available.

In 3 is the compressor device according to 2 shown, that of the first compressor ( 1 ) generated in the second mode via the compressed air line ( 7 ) not, as in the 1 and 2 shown, the compressed air supply line ( 8th ), but a further compressed air reservoir ( 16 ). The further compressed air reservoir ( 16 ) is designed for example as a reservoir for a low pressure circuit, while the compressed air reservoir ( 9 ) stores the compressed air supply for a high pressure circuit. According to 3 the pressure in the further compressed air storage tank ( 16 ) via another pressure sensor ( 17 ) detected. The pressure sensor ( 17 ) outputs a pressure signal via an electrical line ( 18 ) to the electronic control device ( 13 ). The electronic control device ( 13 ) is programmed to read the pressure values in both reservoirs ( 9 . 16 ) and falls below a respective minimum value, the compressor device switches into the respectively suitable operating mode, the filling of a low-pressure compressed air reservoir ( 9 . 16 ) allowed. It is advantageous for a replenishment of the further compressed air storage tank ( 16 ) Operate the compressor device in the first mode. The filling of the compressed air storage tank ( 9 ) can be up to a certain pressure level in the first mode. If a higher pressure level is required, this is detected by the electronic control device ( 13 ) and switches the compressor device to the second mode.

The invention can also be used in general and in all illustrated embodiments also in such a way that the first and the second compressor ( 1 . 2 ) the air supplied to them in the first operating mode is not from the same source, ie via the air filter ( 5 ), but also from different air sources. It is advantageous z. B. a further processing of compressed air from other pressure medium circuits of a larger pressure medium system.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 1815163 [0002]
• - DE 1686214 [0002]

Claims (12)

Compressor device with at least a first and a second compressor ( 1 . 2 ), wherein the compressor device has at least two operating modes with the following features: a) In a first operating mode, the first and the second compressor ( 1 . 2 ) operable in the manner of a parallel connection, such that the second compressor ( 2 ) supplied to the compressible medium independent of that of the first compressor ( 1 b) in a second operating mode, the first and the second compressor ( 1 . 2 ) in the manner of a series connection, such that the second compressor ( 2 ) from the first compressor ( 1 ) already absorbs compressed compressible medium and further compressed. Compressor device according to claim 1, characterized in that the first and / or the second compressor ( 1 . 2 ) is designed as a piston compressor. Compressor device according to claim 1, characterized in that that the compressor device is designed as a two-cylinder compressor is. Compressor device according to at least one of the previous Claims, characterized in that the compressible Medium is air from the atmosphere. Compressor device according to at least one of the preceding claims, characterized in that in the first operating mode the first and the second compressor ( 1 . 2 ) the compressible medium is supplied at the same pressure level. Compressor device according to at least one of the preceding claims, characterized in that in the first mode of operation the first and the second compressor ( 1 . 2 ) deliver the compressed medium at the same pressure level. Compressor device according to at least one of the preceding claims, characterized in that the switching between the first and the second operating mode by means of a valve device ( 3 . 4 ) he follows. Compressor device according to claim 7, characterized in that the valve device ( 3 . 4 ) from an electronic control device ( 13 ) is electrically actuated. Compressor device according to claim 7, characterized in that the valve device ( 3 . 4 ) is druckmittelbetätigbar. Compressor device according to at least one of claims 7 to 9, characterized in that the valve device ( 3 . 4 ) is integrated in the compressor device or is attached to this. Compressor device according to at least one of the preceding claims, characterized in that the switching from the first operating mode to the second operating mode takes place as soon as the output-side pressure level of the second compressor ( 2 ) reaches or exceeds a predetermined pressure value. Compressor device according to at least one of the preceding claims, characterized in that an electronic control device ( 13 ) is provided which controls the switching between the first and the second mode.