DE647836C - Pressure regulator for control lines of vehicles - Google Patents

Description

The invention relates to a pressure regulator for control lines such as those for vehicles be considered. In such pressure regulators, which use a gaseous or liquid pressure medium to transmit the Control movements, it is important that a certain, in the control line set pressure is automatically maintained even if the pressure is in the Control line has risen temporarily or if (due to a leak in the control line) Pressure medium flows out.

Maintaining a constant pressure in the control line without forcing External intervention takes place according to the invention primarily by two expediently Shut-off elements designed in the manner of pressure reducing valves (reducing valves), one of which is the control line with an upper pressure maintenance, the other link is able to connect with a lower pressure maintenance. So that one about it In addition, with a given upper and lower pressure maintenance, depending on the choice, different pressures in the control line z. B. by hand can adjust, the two shut-off elements are connected to an adjusting device.

Pressure reducing valves are known in large numbers, but these known valves only work satisfactorily if a certain amount is permanent. Amount of pressure medium through the pressure reducing valve can flow through. However, a continuous flow is not guaranteed or even impermissible, as is the case with control lines in vehicles, then an ordinary pressure reducing valve can be used no longer needed, because a gradual increase in pressure in the low-pressure line would be inevitable with him.

In the drawing is an embodiment of a pressure regulator according to the invention shown schematically, and it is assumed here that compressed air is used as the pressure medium serves.

A line 1 connected to the upper pressure maintenance device is flexible by means of a Line 2 is connected to space 3 of a housing 4. The substantially cylindrical housing 4 has at his at the other end a corresponding space 5, which through a channel 6 with the atmosphere communicates. The two rooms 3 and 5 are separated by a central room 7, to which a flexible one Line 8, the control line 9 of the railcar or another line or a container is connected, in which the respectively desired, of course at most with the upper one Pressure maintenance is to be set at a lying pressure. The middle room 7 is through transverse walls 10 and 11 of the housing 4 of the

*) The patent seeker stated as the inventor:

• Di-pl.-Ing. Heinrich Herrmann in Essen.

Rooms 3 and 5 separate. Central openings 12 and 13 of these walls 10 and 11 can be closed by valve plates 14 and 15, which open on. a common rod 16 provided with stops or bows 30, 31 are displaceable and are pressed by a compression spring 17 against the walls 10 and 11. The valve rod 16 is at its space protruding from the housing 4 5 is articulated by means of a link 18 to an adjusting lever 19 which has a handle 20. A pointer 21 is also articulated to the housing 4, which is rotatably mounted about a fixed point zz and plays on a scale 23.

In direct connection with the control line 9 is the space 24 of a stationarily mounted Cylinder 25, one boundary wall of which by a sliding in the cylinder 25 Piston26 is formed. This has a piston rod 27 with which the valves 14, 15 containing housing 4 is firmly connected. Between the piston back wall and the the wall 28 of the cylinder 25 facing away from the piston 26, a compression spring 29 is connected, which seeks to move the piston 26 into the dead position on the left in the drawing.

First of all, there is control line 9, spaces 5 and 7 of housing 4 and in the space 24 in front of the piston 26 atmospheric pressure, which is selected as the lower pressure maintenance is. In the line 1 and the spaces 3 of the housing 4, however, the pressure prevails upper pressure maintenance, the z. B. is generated by a compressed air bottle. For example let this pressure be 10 atm. With the one described The actuating device 16 to 20, the pointer 21 and the valves take states 14, 15 und'der piston 26 from the drawing apparent location.

Is z. If, for example, a pressure of 5 atmospheres is required in the control line 9, the adjusting lever 19 is rotated clockwise until the pointer 21 on the scale 23 shows 5 atmospheres. Here, the valve rod 16 has been moved to the right in the drawing and has lifted the valve disk 14 from the wall 10 by means of the collar 30 attached to its free end. As a result, compressed air has flowed from the line 1 into the space 7 and through the line 8 into the space 24 in front of the piston 26. This has thereby been pushed to the right and has taken the housing 4 firmly seated on it with the pointer 21 hinged to it in the same direction until the wall 10 has hit the valve disk 14 again and the pressure line 1 has closed. The valve disk 15 has meanwhile moved with the housing 4 to the right, but has always remained in connection with the wall 11 as a result of the pressure of the spring 17, so that the opening 13 has remained closed.

_. Should the pressure in the line 9 from somvisttiem Basically further z. B. increased to 8 atm, the lever 19 is further clockwise turned until the pointer 21 on the scale 23 shows 8 atm. The valve has 14 reopened, the pressure in line 8 and in room 24 has risen, and the KoI-ben 26 has brought the wall 10 of the housing 4 back into contact with the valve disk 14, as soon as the desired pressure of 8 atm is reached in line 9. *

Is it now necessary to increase the pressure in line 9 z. B. to 6 atü, so is again only one adjustment of the lever 19 is necessary, and the set pressure occurs within a short time on line 9. When lowering the pressure, the adjusting lever 19 is counterclockwise turned. This moves the valve stan% e 16 to the left in the drawing, and valve 15 lifts off because of collar 31 seated on rod 16 the wall 11 from while the valve 14 is closed remains because it is pressed against the wall 10 by the spring 17. Consequently Compressed air flows into the open air from room 7 via room 5 and channel 6. Of the Pressure in space 7 and in the line 8 connected to it and in space 24 drops therefore. This has the consequence that the spring 29 moves the piston 26 to the left in the drawing emotional. This is associated with a shift of the housing 4 to the left, so that the Wall 11 hits the valve disk 15 again and the opening 13 closes when the desired pressure of 6 atm in the line 9 is available.

The dependent on the compression of the spring 29 position of the housing 4 is a Measure of the pressure in the line 9, so that the in turn depends on the position of the housing 4 dependent pointer 21 indicates the pressure in line 9.

In order to avoid the hose lines 2 and 8 to the movable housing 4, can this can be installed in a fixed cylinder, with the Air is supplied through ducts located in the stationary cylinder.

It can be seen that in the pressure regulator according to the invention within the given pressure levels any desired pressure in a line (control line 9) can be generated quickly, that on a pressure increase immediately a pressure reduction can take place and vice versa and that pressure medium flows into the open only when the pressure is reduced. Included is the setting of the desired pressure in the simplest way by setting a Lever 19 possible.

647 8B6

With the subject of the invention the further peculiarity is connected that the once z. B. by the specific position of an adjusting device 20 in the control line 9, the pressure set in this line is kept unchangeable (constant) with certainty both against pressure drops and against pressure increases.
For example B. due to leaks in the control line 9 with the lever 20 in the same position, the pressure in this line 9 is below the set level, the piston 26 moves under the force of the spring 29 to the left and thereby lifts the valve 14 from its seat 10 . As a result, compressed air flows from space 3 into space 7 and into line 9. This continues until the pressure set by lever 20 is reached again in line 9.

With increasing pressure in the control line 9, which acts on the piston 26, moves this to the right in the drawing. The piston 26 is back in its original position taken and the valve 14 closed as soon as the set in the control line 9 Pressure is reached. The reverse process takes place when the pressure is applied has risen temporarily in the control line 9 for whatever reasons. Of the The impulse to keep the pressure in line 9 constant is therefore off in both cases taken from the pressure state of this line and triggered by the spring 29.

Claims (5)

Patent claims: ι. Pressure regulators for control lines of vehicles, characterized by two appropriately designed in the manner of pressure reducing valves (reducing valves) Shut-off elements (14, 15), of which the one link (14) the control line (9) with the upper pressure maintenance (1), the other Link (15) with the lower pressure maintenance (5, 6) is able to connect and both the pressure in the control line (9) automatically without any forced intervention from the outside keep constant. 2. Pressure regulator according to claim 1, characterized in that the two shut-off elements (14, 15) with an adjustment device (16 to 20) are connected to the selectable setting of a particular Pressure in the control line (9) z. B. permitted by hand. 3. Pressure regulator according to claim 1 and 2, characterized in that the valves (14, 15), the plates of which are pressed against walls (10, 11) by the pressure in the Lay the control line (9) moving housing (4) on one of the parts (rod 16) of the Adjusting device are mounted displaceably towards one another. 4. Pressure regulator according to claim 1 to 3, characterized in that the valve housing (4) is firmly connected to a piston (26) guided in a stationary housing (25), on one side of which in an in a known manner, the pressure in the control line (9) and on its other side in a likewise known manner Restoring force (spring 29) acts. " 5. Pressure regulator according to claim 1 to 4, characterized in that the movable Valve housing (4) is surrounded by a stationary housing in which channels for the supply and discharge of the pressure medium to the control housing (4) are attached. 1 sheet of drawings