DE4232586A1 - Switching valve with regulation of output pressure - has inlet valve stage that closes when output pressure exceeds reference with vent valve stage opening to control pressure - Google Patents

Abstract

A fluid power valve has the fluid transferred from inlet (6a) to outlet (A) by the opening of a poppet (12) that has a piston (4a) displaced by a control signal (17). The pressure in the output chamber is monitored by a pressure sensor (19) and the valve compared with a reference value. So long as the reference is greater than the actual value, the valve remains open. When the actual begins to exceed the reference the inlet valve closes and an exhaust valve (13a,3a) opens due to a force differential and flow is unloaded (R) to lower the output pressure. USE/ADVANTAGE - For pneumatic-controlled braking or switching processes, with improved response and threshold times. Controls output pressure of switched valve.

Description

It is known to use a relay valve for fluidic media through a Control pressure applied, side by side or one above the other arranged to form relay pistons, between which a working chamber is arranged, with a first housing connection on the inlet side a pantry and an inlet valve with a spring-loaded relay piston and one on an outlet side second housing connection a further spring-loaded Relay piston is assigned. Those attacking the relay piston Spring forces act in the opposite direction. There are two each Relay piston connected to a control line, and the valve seats are arranged facing away from each other. Such relay valves is the Transfer task, the response and threshold time, for example for a pneumatically controlled braking or shifting process through fast Shorten the ventilation of the actuators. In this regard, that fulfills known relay valve the task of a relay valve of the beginning to create mentioned type, in which with simple means and  compact structure, the switching behavior is improved (DE-PS 28 09 554).

However, considerable resources are needed to control the Control pressure, d. H. mostly remotely located furnishings required, which on the one hand interfere with the compactness of the valve housing and on the other hand, with the application of considerable amounts of energy Generate control pressure. However, it is necessary to have the working pressure and to coordinate the control pressure more precisely than before.

The invention specified in claim 1 is based on the problem Relay valve with a superimposed pressure control.

The advantages achieved with the invention are in particular that such a relay valve is now used in electropneumatic systems Flow and pressure control valves can be integrated that through the Supplement with a input tax level and the additional Pressure control electronics with pressure sensor in the work line 3/3-way valve with a large nominal size working according to the seating principle an electropneumatic pressure control valve is redesigned. It is therefore now possible a relay valve with a relatively coarse pneumatic Control and a large hysteresis with a large nominal size to one sensitive electropneumatic pressure control valve.

Further advantages consist in a substantial shortening of the Development time of an electropneumatic pressure control valve large Nominal size by using an existing, unregulated one Valve.

The properties of the existing relay valves are significant improved. The electrical control makes the device faster and more precisely.  

The advantages of remote electrical adjustment from a control room and the display of the current work line pressures form further Advantages.

An advantageous embodiment of the invention is in claim 2 specified. The training according to claim 2 provides that the Feedback circuit including pressure sensor on one side of the Valve housing and the pilot solenoid valve on the opposite Side are arranged. This will despite the redesign of the Relay valve in an electropneumatic pressure valve a remarkable one Compactness of the device achieved.

Another development of the invention is that along the Control housing extending control line via a cross hole with the Pilot solenoid valve is connected. As a result, the use of Relay valve in so-called valve batteries enables without additional space to claim or consider the existing space to take.

Another improvement of the invention is that the on a Printed circuit board of the electronic feedback circuit Pressure sensor with a shaft and a seal through a Housing wall is passed in the area of the working chamber and in the working chamber protrudes. The pressure sensor can therefore open immediately the electronics board can be arranged, which creates additional space for the Formation of all organs of a pressure valve is spared.

According to further features of the invention it is provided that a 3/3-way valve by adjusting the spring forces and piston surfaces a predetermined pressure range is adjustable. This measure supports above all the creation of larger electropneumatic  Pressure regulating valves.

Finally, an embodiment of the invention is that a Pressure control valve of large nominal size, d. H. larger than 7 mm in diameter, is formed.

An embodiment of the invention is shown in the drawing and is described in more detail below.

The only figure of the drawing shows a longitudinal cross section through the Relay valve.

The relay valve for fluidic media, such as compressed air and hydraulic liquids, has a first housing part 1 and a second tightly connected housing part 2 . Both housing parts 1 and 2 are connected to a valve housing 2 a by screw connections. A first relay piston 3 and a second relay piston 4 lie side by side or one above the other in the valve housing 2 a, and a working chamber 6 is arranged between them. The first relay piston 3 and the second relay piston 4 are each mounted in a sliding manner by means of guide pins 5, which are mounted centrally in piston shafts 3 a and 4 a and are guided in the first housing part 1 in a slightly sliding manner.

The valve housing 2 a pressure source terminal 8 in the form of threaded holes are then a consumer terminal 7 and provided opposite to the sealing seat. A ventilation connection 9 is located below the consumer connection 7 .

A first valve seat 10 fixed to the housing and a second valve seat 11 fixed to the housing by means of the second relay piston 4 are formed within the valve housing 2 a by means of the first relay piston 3 .

Thus there is an inlet valve 12 on the right and an outlet valve 13 on the left. Here, the first relay piston 3 is biased by means of a first spring 14 and the second relay piston 4 by means of a second spring 15 against the respective valve seat.

A pressure control valve is created from the relay valve of the normal type by means of the pressure sensor 19 assigned to the working chamber 6 and by means of a feedback circuit 20 (known type) including the pressure sensor 19 for a pilot solenoid valve 21 connected to a control line 17 . For the pilot solenoid valve 21 , the control line 17 running parallel to the underside is attached. The pressure sensor 19 enclosing feedback circuit 20, the pulse width modulated control signals to the solenoid of the pilot solenoid valve 21 transmits, is on a valve housing side 22 of the valve housing 2 a and the pilot solenoid valve 21 on the opposite valve side of the housing 23, ie up and down as drawn mounted.

The control line 17 running along the valve housing 2 a is connected to the pilot solenoid valve 21 via an extremely short transverse bore 24 .

On a circuit board 25 , which carries the electrical feedback circuit 20 , the pressure sensor 19 is advantageously integrated in such a way that it penetrates the circuit board 25 with its shaft 18 a and seals with a sealing ring 26 through a housing wall 2 b in the region of the working chamber 6 and protrudes with his probe into the working chamber 6 .

A 3/3-way valve is created by coordinating the spring forces of the first and second springs 14 and 15 and the size of the piston surfaces 3 b and 4 b, which can be adjusted to a predetermined pressure range.

The relay pistons 3 and 4 are provided with a piston seal 18 and the shaft 19 a of the pressure sensor 19 with the seal 26 .

On an inlet side 16 a there are no other organs in addition to the pressure source connection 8 , as on an outlet side 16 b. This design is particularly suitable for a 3/3-way valve of the regulated electropneumatic pressure type with a nominal size that is larger than 7 mm in diameter.

The function of the relay valve is as follows:

By applying the relay piston 4 on its piston face 4 b with a pressure medium of the relay piston 4 is raised against the force of the second spring 15 so that the second spring 15 is compressed over a ring 27 and thus the intake valve opens 12th In a storage chamber 6 a prevailing pressure of the pressure source Pv the pressure medium can flow to a consumer, to this working pressure is present in accordance with the electrically predetermined set value as the actual value on the pressure sensor through the working chamber 6 and through the working line A. If the target and actual values match, the inlet valve 12 is closed by reducing the control pressure. If overfilling of the working line A is to be avoided, the outlet valve 13 also opens until the setpoint and actual pressure are equal. In this case, excess compressed air flows through the vent connection g, ie through the line R.

Reference list

1 first housing part
2 second housing part
2 a valve housing
2 b housing wall
3 first relay pistons
3 a piston skirt
3 b piston surface
4 second relay pistons
4 a piston skirt
4 b piston surface
5 guide bolts
6 working chamber
6 a pantry
7 consumer connection
8 pressure source connection
9 vent connection
10 first valve seat, housing-fixed
11 second valve seat, housing-fixed
12 inlet valve
13 exhaust valve
14 first spring
15 second spring
16 a inlet side
16 b outlet side
17 control line
18 piston seal
19 pressure sensor
19 a shaft
20 feedback circuit
21 pilot solenoid valve
22 Valve housing side
23 opposite valve housing side
24 cross hole
25 board
26 seal
27 ring

Claims (6)

1.Relay valve for fluidic media with relay pistons which can be acted upon by a control pressure, between which a working chamber is arranged, a storage chamber and an inlet valve with a spring-loaded relay piston being assigned to an inlet side of a first housing connection and a spring-loaded further relay piston to an outlet side of a second housing connection and the spring forces run in the opposite direction and two relay pistons are connected to a control line and the valve seats for the relay pistons are arranged facing away from each other, characterized in that a pressure control valve of large nominal size by means of the pressure sensor ( 19 ) assigned to the working chamber ( 6 ) and by means of a pressure sensor in the pressure sensor ( 19 ) feedback circuit ( 20 ) including circuitry for a pilot solenoid valve ( 21 ) connected to the control line ( 17 ). 2. Relay valve according to claim 1, characterized in that the feedback circuit ( 20 ) including the pressure sensor ( 19 ) on one side (22) of the valve housing ( 2 a) and the pilot solenoid valve ( 21 ) on the opposite side ( 23 ) of the valve housing ( 2 a) are arranged. 3. Relay valve according to one of claims 1 or 2, characterized in that the control line ( 17 ) extending along the valve housing ( 2 a) is connected via a transverse bore ( 24 ) to the pilot solenoid valve ( 21 ). 4. Relay valve according to one of claims 1 to 3, characterized in that the on a circuit board ( 25 ) of the electrical feedback circuit ( 20 ) arranged pressure sensor ( 19 ) with a shaft ( 19 a) and a seal ( 26 ) through a housing wall ( 2 b) is guided in the region of the working chamber (6) and projects into the working chamber (6). 5. Relay valve according to one of claims 1 to 4, characterized in that a 3/3-way valve is formed by tuning the spring forces and piston surfaces ( 3 b, 4 b) to a predetermined pressure range. 6. Relay valve according to one of claims 1 to 5, characterized, that a pressure control valve of large nominal size, d. H. larger than 7 mm Diameter, is formed.