DE102008011982A1 - Valve arrangement, has continuously controllable main valve with chamber, where drive unit e.g. piston, is displaced by changing volume of areas of chamber, and sealer is driven for changing flow cross-section for fluid - Google Patents

Abstract

The arrangement has a continuously controllable main valve (1) with a chamber. An area (11) of the chamber includes fluid connectors (17, 18). The connectors are connected with inlet and outlet valves (2a, 2b), respectively. The arrangement is adapted and equipped to change fluid pressure prevalent in the chamber by opening one of the inlet and outlet valves assigned to the area of the chamber, so that a drive unit e.g. piston (13), is displaced by changing a volume of the area and another area (12) of the chamber and a sealer (15) is driven for changing a flow cross-section for the fluid.

Description

The The present invention relates to a valve arrangement with a stepless controllable main valve and with secondary valves. From the state of the art are known valve arrangements with a controllable main valve the above the secondary valves is controlled. By opening or closing the secondary valves the adjustment of the main valve can be made. Known In particular, such valve assemblies, in which the main valve two states can accept, namely a state in which the valve is closed and a state in which the valve completely open is. The secondary valves are usually controlled electronically.

A such valve assembly may or may not be considered electronic Expansion valve or used as electronic suction pressure control valve become. A valve, which can take only two states, is to not suitable.

Here uses the present invention.

Of the present invention is based on the object, a valve assembly with a main valve and secondary valves, via which the main valve is controlled, so continue to develop that as an expansion valve or can be used as a suction pressure valve.

These The object is achieved by a valve arrangement having the features of the claim 1 solved. Therefore the main valve has a shut-off means, with which a flow cross-section for a through the main valve is fluid Fluid is adjustable. For driving the shut-off has the Main valve on a drive means. The main valve has a chamber on, in which the drive means at least partially displaceable is stored. The drive means separates a first area of the Chamber from a second area of the chamber. At least the first one Area of the chamber is filled with a fluid and the chamber has at least in the first area two fluid connections. The fluid connections of the first area of the chamber are each with one of the secondary valves connected, which is why these secondary valves the first area of the chamber assigned. Overall, the valve arrangement is set up in this way and suitable for that by opening at least one of the secondary valves associated with the first region a pressure prevailing in the chamber of the Fuides be changed can, so that the drive means changing the volume of the first and the second region of the chamber is displaced and thereby the blocking means for changing of the flow cross-section drives. Thus, the main valve can be steplessly controlled.

According to the invention the valve arrangement can in the second region of the chamber a spring element on the one hand on a wall of the chamber or one firmly connected to the wall of the chamber part and on the other supported on the drive means. The spring travel of the spring element is dependent on the position of the drive means, so that the spring element depending on the travel in the different positions the drive means different forces on the drive means exercises. These forces have to balanced by the fluid pressure in the first region of the chamber be, if the drive means should come to a standstill and the flow cross section of Main valve is set. A change in pressure in the first Area of the chamber leads to a change of balance of power on the drive means, which is done by moving the drive means is compensated.

Of the second region in which the spring element is arranged can to the atmosphere be ventilated.

As well Is it possible, that in the second region of the chamber also a fluid is filled. Of the second region of the chamber can then also have at least two fluid connections, which can be connected to one of the secondary valves. These Secondary valves are then assigned to the second area of the chamber.

Advantageous then the valve assembly is suitable and arranged by opening at least one the secondary valves associated with the second area one in the chamber prevailing pressure of the fluid to change so that the drive means under change the volume of the first and second areas is shifted and thereby the shut-off means for changing the flow cross-section is driven.

Advantageous the valve assembly is designed so that by opening at least one of the first and one of the second area associated Secondary valves in the chamber or in the two areas of the Changed chamber prevailing pressure becomes.

One the secondary valves associated with the first region may be an inlet valve be over which the fluid in the first area with a comparison to first range higher Pressure flows in. In order to the pressure in the first area can be increased.

One of the secondary valves associated with the first area may instead be a drain valve, via which the fluid from the first area is lower with respect to the first area Pressure escapes. By opening the drain valve, the pressure in the first region of the chamber can be reduced.

As well may be one of the secondary valves associated with the second area Inlet or a drain valve, with which the pressure of the fluid increased in the second area or can be reduced.

The The inlet valves associated with the first and second areas may be on be connected to a common supply line. This common supply line may be higher to a source Pressure lead. The source higher Pressure may be a pressure generator or a diversion of the main, which over the main valve is guided.

As well can the discharge valves associated with the first and second regions have a common lead, leading to a pressure sink, the through a portion of the main line routed through the main valve can be formed. The supply or the forwarding can, for example connected to a valve inlet or valve outlet of the main valve be.

The Drive means of the main valve may be a piston. Likewise is it is possible the drive means is a membrane. The shut-off and the Drive means of the main valve are advantageous over a Rod connected together.

The Secondary valves of a valve arrangement according to the invention can each having a drive for adjusting an open position. These drives are advantageous electronically controlled. For example can the drives are controlled by a pulse width modulated signal become.

Of the Drive is preferably for stepless adjustment of the open position the secondary valves suitable and furnished.

at The drives can be an electromagnet or an electric motor act.

The Drives can Also suitable for switching setting the opening position of the secondary valves and be set up (activation / connection).

Inventive valve assemblies are closer by the drawings described. Show in it

1 an embodiment with a main valve opening when a first area of a chamber is pressurized,

2 an embodiment with a closing at a pressurization of a first region of a chamber main valve,

3 an embodiment with a first portion and a second portion of the chamber, which are pressurized to actuate the main valve and

4 an embodiment with an external supply of a fluid for adjusting the main valve.

The four embodiments are in the 1 to 4 only schematically illustrated in accordance with circuit diagrams. The same reference numerals are in the 1 to 4 used for the same parts.

That in the 1 illustrated first embodiment of a valve assembly according to the invention has a main valve 1 on that in a main 3 is used. The main line 3 has an inlet section 3a and an outlet section 3b on, wherein the inlet section 3a to the main valve 1 and the medium flowing through the main valve carries the main valve via the outlet section 3b leaves. The main valve 1 has a shut-off device 15 which is in a closed position of the main valve 1 seals with a valve seat. By moving the shut-off device 15 can the flow cross-section, that of the through the main valve 1 flowing medium is adjusted. The shut-off device is rigid with a piston rod 14 connected, in turn, rigid with a piston 13 connected is.

This piston 13 is in the direction of the piston rod 14 in a chamber 11 . 12 in a housing of the main valve 1 slidably arranged. The chamber 11 . 12 of the main valve 1 is through the piston 13 in a first area 11 and a second area 12 divided. The first area 11 the chamber is pushed by the piston rod 14 penetrated. The passage of the piston rod 14 through the wall of the chamber 11 . 12 is sealed. In the first area 11 shows the chamber 11 . 12 a first connection 17 and a second connection 18 on. These connections are each with a secondary valve 2a . 2 B connected. About the first connection 17 can be a fluid in the first area 11 the chamber 11 . 12 be admitted, which is why this secondary valve 2a is referred to as an inlet valve. About the connection 18 and the secondary valve 2 B In contrast, the fluid from the first area 11 the chamber 11 . 12 be drained, which is why the valve 2 B is referred to as a drain valve.

In the second area 12 the chamber 11 . 12 of the main valve 1 is a spring 16 disposed on the one hand on the piston 13 and on the other hand on the piston 13 opposite wall of the second region of the chamber 11 . 12 supported. The second area 12 the chamber 11 . 12 is ventilated to the atmosphere.

Both in the first area 11 filled fluid as well as the spring 16 exert a force on the piston 13 out. Depending on which force is the greater force, the piston moves 13 more to one side or the other side, which is either the first area 11 or the second area 12 increased. About the pole 14 is doing the shut-off 15 synchronous to the piston 13 moves, whereby the flow cross section through the main valve is increased or decreased. While the force of the spring 16 given by the spring travel, the force generated by the fluid in the first area 11 the chamber 11 . 12 on the piston 13 is exercised through the inlet valve 2 B and the drain valve 2a be set. By opening the drain valve 2a can the pressure in the first area 11 the chamber 11 . 12 be diminished while opening it by opening the inlet valve 2 B can be increased. By the pressure change in the first area 11 the piston moves 13 until the piston 13 a balance of the spring 16 on the piston 13 applied force and by the pressure of the fluid in the first area 11 has applied force. An impulse passing through the line 3 flowing fluid on the shut-off 15 exercised is neglected in this consideration.

Both the inlet valve 2a as well as the drain valve 2 B each include the actual valve 21b . 21a as well as a drive 22b . 22a with which the valve 21a . 21b can be opened or closed. By the respective opening of the secondary valves 2a . 2 B can the main valve 1 be set continuously or continuously. The drives 21a . 21b the secondary valves can be controlled accordingly. The drives can be electromotive drives. It is also conceivable that they are electromagnets.

That in the 1 illustrated main valve is designed so that at a pressure increase in the first region of the chamber of the main valve 1 the main valve opens and that the valve closes when the pressure is reduced.

That in the 2 illustrated embodiment differs essentially in that the first region of the chamber 11 . 12 and the second area of the chamber 11 . 12 are arranged rotated by 180 ° to each other. That is, that is not the first area 11 but the second area 12 from the piston rod 14 interspersed to the piston 13 with the shut-off device 15 connect to. This has the effect of increasing the pressure in the first area 11 a closing of the main valve 1 causes, while a pressure reduction in the first range 11 to open the main valve 1 leads.

That in the 3 illustrated embodiment of a valve assembly according to the invention, however, has no compression spring 16 which is on the piston 13 exerts a force. In contrast, both the first area 11 as well as the second area 12 filled with a fluid and connections 17 . 18 . 19 . 20 and secondary valves fillable with the fluid or emptied via the secondary valves. Depending on whether the secondary valves as drain valves 2 B . 2d or as intake valves 2a . 2c are provided. To move the piston 13 , and thus to open or close the main valve 1 must each have an inlet valve 2a . 2c and a drain valve 2 B . 2d be opened so that either the first area 11 or the second area 12 is filled with additional fluid to increase the pressure in this area, and to relieve the other area by the outflow of the fluid.

The two inlet valves 2a . 2c are on the connections 17 . 19 opposite side via a common line with the section 3a connected to the main, via which fluid into the chamber 11 . 12 can be filled while the drain valves 2 B . 2d on the connections 18 . 20 opposite side via a common line with the section 3b the main line are connected via which fluid from the areas 11 . 12 the chamber 11 . 12 can be drained as soon as the associated drain valves 2 B . 2d are open.

Alternatively to a connection of the inlet and outlet valves to the sections 3a . 3b the main line can intake valves 2a . 2c or the drain valves 2 B . 2d also be connected to an external pressure supply device or a separate from the main fluid circuit. Such an example is in the 4 represented, which only by the embodiment according to 3 different.

Claims (25)

Valve arrangement with a continuously controllable main valve and secondary valves ( 2a , b, c, d) where - the main valve ( 1 ) a blocking means ( 15 ), with which a flow cross section for a through the main valve ( 1 ) fluid is adjustable, - the main valve ( 1 ) a drive means ( 13 ) for driving the shut-off means ( 13 ), - the main valve ( 1 ) a chamber ( 11 . 12 ), in which the drive means ( 13 ) is mounted at least partially displaceable, - the drive means ( 13 ) a first area ( 11 ) the chamber ( 11 . 12 ) from a second area ( 12 ) the chamber ( 11 . 12 ), - at least the first area ( 11 ) the chamber ( 11 . 12 ) is filled with a fluid, - at least the first area ( 11 ) the chamber ( 11 . 12 ) at least two fluid connections ( 17 . 18 ), - the fluid connections ( 17 . 18 ) of the first area ( 11 ) of the chamber each with one of the secondary valves ( 2a . 2 B ), which is why these secondary valves are associated with the first area of the chamber. and the valve arrangement is suitable and arranged, by opening at least one of the first area ( 11 ) associated secondary valves ( 2a . 2 B ) one in the chamber ( 11 . 12 ) to change the prevailing pressure of the Fuides so that the drive means ( 13 ) changing the volume of the first and second regions ( 12 ) and thereby the blocking means ( 15 ) is driven to vary the flow cross-section. Valve arrangement according to claim 1, characterized in that in the second area ( 12 ) the chamber ( 11 . 12 ) a spring element ( 16 ) is inserted, which on the one hand on a wall of the chamber ( 11 . 12 ) or one with a wall of the chamber ( 11 . 12 ) firmly connected part and on the other hand on the drive means ( 13 ) is supported. Valve arrangement according to claim 2, characterized in that the second area ( 12 ) is vented to the atmosphere. Valve arrangement according to claim 1, characterized in that the second area ( 12 ) the chamber ( 11 . 12 ) is filled with a fluid. Valve arrangement according to claim 4, characterized in that the second area ( 12 ) the chamber ( 11 . 12 ) at least two fluid connections ( 19 . 20 ) having. Valve arrangement according to claim 5, characterized in that the fluid connections ( 19 . 20 ) of the second area ( 12 ) the chamber ( 11 . 12 ) each with one of the secondary valves ( 2c . 2d ), which is why these secondary valves ( 2c . 2d ) the second area ( 12 ) the chamber ( 11 . 12 ) assigned Valve arrangement according to claim 6, characterized in that the valve arrangement is suitable and arranged by opening at least one of the second area ( 12 ) associated secondary valves ( 2c . 2d ) one in the chamber ( 11 . 12 ) to change the prevailing pressure of the Fuides so that the drive means ( 13 ) changing the volume of the first and second regions ( 12 ) and thereby the blocking means ( 15 ) for changing flow cross-section is driven. Valve arrangement according to claim 7, characterized in that the valve arrangement is suitable and arranged by opening at least one of the first and one of the second area ( 12 ) associated secondary valves ( 2a , b, c, d) one in the chamber ( 11 . 12 ) to change the prevailing pressure of the Fuides so that the drive means ( 13 ) changing the volume of the first and second regions ( 12 ) and thereby the blocking means ( 15 ) for changing flow cross-section is driven. Valve arrangement according to one of claims 1 to 8, characterized in that one of the first area ( 11 ) associated secondary valves ( 2a , b) an inlet valve ( 2a ), via which the fluid in the first area ( 11 ) with a comparison to the first area ( 11 ) flows in higher pressure. Valve arrangement according to one of claims 1 to 9, characterized in that one of the first area ( 11 ) associated secondary valves ( 2a , b) a drain valve ( 2 B ), via which the fluid from the first region ( 11 ) with a comparison to the first area ( 11 ) flows out lower pressure. Valve arrangement according to one of claims 6 to 10, characterized in that one of the second area ( 12 ) associated secondary valves ( 2c , d) an inlet valve ( 2c ), via which the fluid in the second area ( 12 ) with a comparison to the second area ( 12 ) flows in higher pressure. Valve arrangement according to one of claims 6 to 11, characterized in that one of the second area ( 12 ) associated secondary valves ( 2c , d) a drain valve ( 2d ), over which the fluid from the second region ( 12 ) with a comparison to the second area ( 12 ) flows out lower pressure. Valve arrangement according to claim 11 and 12, characterized in that the first and the second area ( 12 ) associated intake valves ( 2a , c) are connected to a common supply line. Valve arrangement according to claim 11 to 13, characterized in that the first and the second area ( 12 ) associated drain valves ( 2 B , d) are connected to a common forwarding. Valve arrangement according to claim 13 and 14, characterized in that the supply line is connected to a pressure generator is. Valve arrangement according to claim 13, characterized in that the supply line is connected to a valve inlet or a valve outlet of the main valve ( 1 ) connected is. Valve arrangement according to claim 14, characterized in that the forwarding with a valve outlet or a valve inlet of the main valve ( 1 ) connected is. Valve arrangement according to one of claims 1 to 17, characterized in that the drive means is a piston ( 13 ). Valve arrangement according to one of claims 1 to 17, characterized in that the drive means is a membrane is. Valve arrangement according to one of claims 1 to 19, characterized in that the blocking means ( 15 ) and the drive means ( 13 ) over a pole ( 14 ) are interconnected. Valve arrangement according to one of claims 1 to 20, characterized in that the secondary valves ( 2a , b, c, d) one drive each ( 22a , b, c, d) for adjusting an open position. Valve arrangement according to claim 21, characterized in that the drive ( 22a , b, c, d) is suitable and arranged for continuous adjustment of the open position. Valve arrangement according to claim 21 or 22, characterized in that the drive ( 22a , b, c, d) is an electromagnet. Valve arrangement according to claim 21 or 22, characterized in that the drive ( 22a , b, c, d) is an electric motor. Valve arrangement according to one of claims 22 to 24, characterized in that the drive ( 22a , b, c, d) is driven with a pulse width modulated signal.