DE3106469A1 - Control device for purging-air consumption in the regeneration of the adsorbent in an appliance for generating dry compressed air - Google Patents

Abstract

In an appliance for generating dry compressed air, the compressed air coming from a compressor is fed through an adsorber (1) to a compressed-air storage vessel. In the process, the compressed air is freed of its moisture in the adsorber (1) by an adsorbent located therein. Each time after the compressor has been switched off, regeneration of the adsorbent (6) in the adsorber (1), is triggered automatically by means of compressed air being made to flow in reverse through the adsorbent and, in the process, taking up the moisture contained therein, while expanding at the same time, before being discharged into the open. In order to limit the consumption of purging air to the amount absolutely necessary for each particular regeneration operation, a particular control device (13, 14, 15, 16) is provided which has a measuring section (16), which is assigned to the adsorbent (6) in the absorbent container (5), responds to its moisture content and is connected to an electrical switching device (13). By means of the latter, a magnetic valve (11) positioned on the adsorbent container (5) or a separator (4) downstream thereof is opened only when the compressor is switched off, but is automatically closed when a predefined degree of dryness of the adsorbent has been reached. <IMAGE>

Description

Control device for the purge air consumption at the

Regeneration of the adsorbent in a device for generation dry compressed air The invention relates to a control device for the purge air consumption during the regeneration of the adsorbent in a device for generating drier Compressed air, in which the air is conveyed and compressed by a compressor takes place via a pressure switch depending on the air pressure in an air reservoir - with stationary systems - can be switched on and off and / or - with mobile systems - can be separated from the pressure line via a discharge valve on the pressure side and in which with switching off or relieving the compressor of the adsorbent container vented and the purge air flowing back and through the adsorbent container expanding into the open air.

DE-AS 26 23 869 already includes a device for generating state-of-the-art dry compressed air, in which the air is conveyed and compressed is carried out by a compressor, which is controlled by a pressure switch depending on the Air pressure in an air reservoir can be switched on and off or - for continuous operation - Can be separated from the pressure line to the air reservoir. With this device the adsorbent container is switched off every time the compressor is switched off or unloaded vented and thereby the dry previously received in a special container Compressed air flows back into the adsorbent container as scavenging air.

The purge air takes the air deposited on the adsorbent Moisture and is then discharged into the open air.

In this known device that is used as the scavenging air Compressed air receiving container dimensioned in terms of volume so large that the in it Every time the compressor is switched off or relieved, the amount of compressed air stored is sufficient, in order to regenerate the adsorbent practically completely even if it at the time the compressor is switched off or relieved as far as possible Moisture is saturated.

A disadvantage of the known device for generating dry compressed air is on the one hand that it is either with a relatively large-volume purge air storage tank equipped or a relatively small designed purge air storage tank an additional heat exchanger can be assigned to heat up the purge air must in order to ensure the greatest possible regeneration of the adsorbent remains if it is almost completely when the compressor is switched off or unloaded is saturated with moisture, but on the other hand it has been found to be disadvantageous that during the regeneration process of the adsorbent there is always the entire amount in the purge air reservoir stored amount of compressed air is consumed, so also then by the adsorbent container escapes completely into the open, even if it is due to a small amount Moisture content in the adsorbent per se is only required in a smaller amount would. This then results in a considerable loss of energy, because under normal conditions during an operating cycle of the compressor the adsorbent is only used one way moisture content below the saturation state is reached.

The invention aims to avoid these disadvantages. It is you therefore set the goal of a control device for the purge air consumption in the Regeneration of the adsorbent in a device for generating drier To create compressed air that makes it possible to control the amount of purging air used to the absolutely necessary extent and thus unnecessary loss of energy to avoid.

The solution to this problem is essentially achieved according to the invention achieved by the features specified in the characterizing part of claim 1.

The main advantage is that the regeneration of the adsorbent required amount of compressed air automatically according to the moisture content or the degree of dryness of the same is set.

A particularly simple and space-saving structure of the invention Control device can be made by applying that specified in the second claim Realize measures.

At the same time there is the advantage that the control device works practically without delay and can only be effective as long as the Compressor of the device for generating dry compressed air is switched off or relieved is.

According to the invention, the control device has proven particularly useful to be interpreted using the features of claim 3 and the measures to meet according to claim 4.

According to the invention, however, it is also possible to either use the control device to be interpreted according to the features of claim 5 or those of claim 6.

A particularly important development of a device for generating dry compressed air is based on the features specified in claim 7 achievable, because this results in the special purge air storage tank and this optionally assigned heat exchangers can be omitted.

In the drawing, the subject matter of the invention is shown in several exemplary embodiments shown. Here, Fig. 1 shows in a schematic representation the essential to the invention Area of a device for generating dry compressed air with a first design the control device for the SI> ill air consumption Fig. 2 a representation corresponding to FIG. 1 with a second design of the control device for the purge air consumption, FIG. 3 likewise a representation corresponding to FIG. 1 with a third design of the control device for the purge air consumption and Fig. 4 shows, in a schematic representation, the area of a device that is essential to the invention to generate dry compressed air with a modified compared to FIGS. 1 to 3 Basic structure.

1 to 4 is a device for generating drier Compressed air associated adsorber 1 shown, which is used by a Compressor to dry compressed air supplied through a line 2. It points the adsorber 1 has a pressure-resistant container 3, which is in two one behind the other Rooms 4 and 5 are subdivided, of which the front room 4 forms a separator, while the rear space with adsorbent 6, for example silica gel or Clay, is filled. A closes to the rear space 5 of the container 3 Line 7 through which the dried compressed air to a compressed air reservoir is fed. In this line 7 a retaining valve 8 is installed, which prevents dry compressed air taken up in the compressed air reservoir from Shutdown of the compressor flows back into the container 3.

With the front space 4 of the container 3, which acts as a separator stands via a line 9 with the interposition of a shut-off valve 10, a solenoid valve 11 in connection, the outlet side of which opens into the open via a silencer 12 and which is optionally opened and closed via an electrical switching device 13 can be.

The electrical switching device 13 is designed on the one hand so that that it keeps the solenoid valve 11 closed, as long as the compressor is switched on, while it opens the solenoid valve 11 as soon as the compressor is switched off. On the other hand, the electrical switching device stands with a Circuit 14 in connection, which can only be effective while the compressor is switched off or relieved.

The compressor is switched on and off or loaded and unloaded using a pressure switch that responds to the air pressure in the compressed air storage tank responds, in such a way that when distinguishing a predetermined pressure level he the Compressor switches on or is loaded, while he crosses another Pressure level causes the compressor to be switched off or relieved.

The connection between the circuit 14 and the electrical switching device 13 can be produced and interrupted, for example, by a switching contact 15 whose switch position depends on switching on and off or loading and unloading the Compressor is determined in such a way that it is switched on or loaded Compressor open and closed when the compressor is switched off or unloaded is.

An essential part of the circuit 14 is a measuring section 16, which is effective within the adsorbent 6 and its moisture content resp. degree of dryness responds. That is, the measuring section 16 remains ineffective for as long the adsorbent 6 is dry, but it responds as soon as a certain, the lower degree of moisture of the adsorbent 6 is exceeded.

The measuring section 16 forms with the circuit 14 and the electrical Switching device 13 a control device for limiting the consumption of Purge air, which is required for the regeneration of the adsorbent 6.

In the embodiments of a device shown in FIGS to generate dry compressed air, the scavenging air from the compressor is passed through the adsorber 1 via a line 17 and a check valve 18 in a purge air reservoir 19 promoted, namely it is brought to the same pressure level, which the has dry compressed air in the compressed air reservoir.

After the compressor has been switched off or unloaded, the Purge air stored in the purge air reservoir 19 via the expansion valve 20 back into the adsorber 1 and takes the moisture out of the space 5 of the same located adsorbent 6 before it is used as a separator by the Space 4 of the adsorber 1 and the open solenoid valve 11 enters the open air.

With decreasing moisture content or increasing degree of dryness of the Adsorbent 6 also changes the state of the measuring section 16, namely in such a way that this when a certain degree of dryness is reached in the adsorbent 6 via the circuit 14, the electrical switching device 13 in the closing direction for the solenoid valve 11 is actuated. By closing the solenoid valve 11 is then the purge air consumption is interrupted and therefore to the absolutely necessary level limited.

If then, after a corresponding drop in pressure in the compressed air storage tank, the compressor is switched on again or

is loaded, the purge air reservoir 19 is also filled again up to the predetermined pressure level. During compressor operation or at When the compressor is loaded, the switching contact 15 in the circuit 14 is open, so that the measuring section 16 has no influence on the electrical switching device 13 can take, even if the moisture content in the adsorbent 6 again rises above the predetermined lower limit or the degree of dryness of the same is correspondingly reduced and, consequently, the measuring section 16 again in a switching state reaches the opening of the solenoid valve via the electrical switching device 13 11 would effect.

The use of the described control device for the purge air consumption during the regeneration of the adsorbent in a device for generating drier Compressed air according to FIGS. 1 to 3 has the advantage that on the one hand purge air from the Purge air storage tank 19 always only essential for the regeneration process necessary amount is taken and that on the other hand by the compressor only the amount of purge air consumed in each case is replenished into the purge air reservoir 19 must become. As a result, the compressed air reservoir can also be faster again and be refilled with energy saving.

In the control device shown in Fig. 1, there is the Measuring section 16 forming and via the circuit 14 with the electrical switching device 13 connected, moisture-sensitive electrical circuit element from a Ohmic resistance, this preferably as a rod-shaped body from a such a resistance material is formed as the one corresponding to the adsorbent 6 Has hygroscopicity. This ohmic resistance can be easily absorbed into the adsorbent Embed 6.

In the exemplary embodiment of the control device for the purge air consumption according to Fig. 2, the measuring distance between two with a determinable distance from each other formed in the adsorbent 6 embedded electrodes 21, while at Embodiment according to FIG. 3, the measuring section 8 between one in the adsorbent 6 embedded electrode 22 and the jacket of the container 3 is constructed.

In Fig. 4 is a structure for a device for generating drier Compressed air shown, which differs from that of FIGS. 1 to 3 thereby differs in that it works without a special purge air reservoir 19.

In order to regenerate the adsorbent 6 in this case Backwashing of the adsorber 1 with dry compressed air enable, is in the line 7 leading to the compressed air storage tank a retaining valve 8 bypassing relief valve 23 built in. Through this relief valve 23 can during the one hand by switching off or unloading the compressor caused and on the other hand by the corresponding response of the measuring section 16 limited open state of the solenoid valve 11 compressed air, directly from the Compressed air storage tank flowing back, as purge air through the adsorbent 6 are pressed and bring about its regeneration before going through the opened Solenoid valve 11 reaches the outside.

In this structure a device for generating dry compressed air there is the advantage that the special purge air reservoir 19 is saved will.

Finally it should be mentioned that in bypassing the retaining valve 8 in the embodiment of FIG. 4 instead of the expansion valve 23 as well a solenoid valve can be installed, which is directly through the out of the measuring section 16 and the circuit 14 existing control device is influenced.

This can result in a further reduction in the required Purge air volume can be achieved because the backflow process of the purge air already occurs and is not interrupted after the container 3, therefore a backflow Replenishment of the same does not take place.

A corresponding one, directly from the measuring section 16 and circuit 14 existing control device influenced solenoid valve can optionally but also in place of the expansion valve 20 in the line 17 between the purge air reservoir 19 and the container 3 in the exemplary embodiments according to FIGS. 1 to 3. Here, too, the effect then occurs that a back-flowing filling of the container 3 can no longer occur after this solenoid valve has been closed.

For explanation it should be mentioned that with stationary operated compressor systems the compressor drive depending on the filling level of the air reservoir and is switched off.

In contrast to this, in mobile compressor systems, such as those used e.g. For trains, buses and trucks that are required for braking systems, the compressor firmly coupled to the vehicle engine and therefore remains during vehicle operation permanently switched on. The promotion in the air reservoir is in this case controlled by a special blow-off valve in the pressure line behind the compressor. When the operating pressure in the air reservoir is reached, the blow-off valve is activated opened and the compressor relieved of pressure on the pressure side.

Claims (7)

Claims 1. Control device for the scavenging air consumption the regeneration of the adsorbent in a device for generating drier Compressed air, in which the air is conveyed and compressed by a compressor takes place via a pressure switch depending on the air pressure in an air reservoir - with stationary systems - can be switched on and off and / or - with mobile systems - is separable from the pressure line to the air reservoir, and in which with the Switch off or relieve the compressor, the adsorbent container is vented and the purge air flowing back and expanding through the adsorbent container is discharged into the open, characterized in that the adsorbent (6) in the adsorbent container (5) a responsive to its moisture content Measuring section (16) is assigned, which is connected to an electrical switching device (13) is in connection (14, 15) and thereby through the switching device (13) an on the adsorbent container (5) or on a downstream separator (4) seated solenoid valve (11) Can only be opened when switching off or relieving the compressor, but when a predetermined degree of dryness of the adsorbent (6) is reached Response of the measuring section (16) is inevitably closable. 2. Control device according to claim 1, d a d u r c h g e k e n n z e i c h ne t that the measuring section (16) consists of a circuit (14) with the Switching device (13) connectable, moisture-sensitive electrical Circuit element consists. 3. Control device according to claim 1 or 2, characterized in that that the measuring section (16) is formed by an ohmic resistor. 4. Control device according to one of claims 1 to 3, d a d u r c h characterized in that the ohmic resistance consists of a rod-like shaped material with a hygroscopicity corresponding to the adsorbent (6) and in the adsorbent (6) is embedded. 5. Control device according to claim 1 or 2, d a d u r c h g e k e n n z ei c h n e t that the measuring section (16) between zw (> i with a determinable distance from each other in the adsorbent (6) introduced electrode. (21) is formed. 6. Control device according to claim 1 or 2, d a d u r c h g e k e n n z e i c h ne t that the measuring section (16) through a into the adsorbent (6) embedded electrode (22) and the jacket of the adsorbent container (5) formed is. 7. Control device according to one of claims 1 to 6, characterized in that that the scavenging air for the regeneration of the adsorbent (6) immediately can be removed from the air reservoir (23).