DE1175514B - Pressure regulator - Google Patents

Description

Pressure regulator The invention relates to a pressure regulator, for example in a storage container for the compressed air system in vehicles by venting and venting a pneumatic switch controls the pressure within an adjustable pressure difference keeps constant, with a spring, which is designed as a double-acting valve, axially displaceable pistons in the controller housing at the various control points applied under different tension, due to the change in the length of the spring.

Such a pressure regulator for compressed air systems is already known, designed as a three-way valve with a spring-loaded piston controlled by the control pressure and has a vent opening, the vent opening being coaxial with the Valve axis provided in a clamping screw used to adjust the spring tension and in the latter is designed as a throttle. The control spring is the control spring in this pressure regulator clamped between the piston and the adjustable vent, while the Vent valve from the upper edge of the piston and the adjustable by means of intermediate layers Housing upper part is formed. It follows that the tension of the control spring by adjusting the upper part of the housing as well as the ventilation part is changed. This makes it difficult with controllers of this type to set them to the desired set the upper and the desired lower response point.

The object of the invention is to create a pressure regulator, in which the tension of the control spring is only applied when the one limit value is set is changed, while it remains unchanged when setting the other limit value remain.

According to the invention, this object is achieved in that the piston acting against a spring that is axially adjustable and sealed in the controller housing Housing upper part is supported, in which axially adjustable and sealing a tubular Valve seat is arranged, the lower end face of which with the end face of the piston forms the vent valve.

This results in a simpler and more reliable setting the spring and the two switching points, because one switching point is determined by the Adjustment of the spring tension, the other, however, by that of the spring completely causes independent adjustment of a valve part.

Further features of the invention emerge from the subclaims.

In B i 1 d 1 the controller is in the vent position of the switch shown.

A housing 1 with a cylinder 2, in which a piston 3, which is acted upon by a spring 6, is movable with the seals 4 and 5, is screwed to an upper housing part 8, against which the spring 6 is supported. The screw connection is secured with a lock nut 10. A tubular valve seat 13 is screwed into the upper housing part 8, which receives a sealing ring 11 at its lower end in the figure, which receives a sealing ring 14 at its lower end in the figure and is secured with a lock nut 15. The valve seat 13 has a throttle bore 16 at its lower end in the figure, while the other end is provided with a cross slot 17. The housing 1 is provided with an inlet connection 21 and an outlet connection 22; the inlet port 21 is connected to the space 18 through a bore 23, while the outlet port 22 is connected to the interior 20 of the housing through a bore 25. Below the piston 3, a chamber 19 is formed with the housing 1 which is connected to the space 20 through a bore 24.

The pressure to be monitored is applied through the bore 23 in the space 18 and acts on the piston surface within the valve seat 7. If the pressure in the Space 18 so large that the piston 3 against the force of the adjustable spring 6 of If its seat is lifted, the pressure on the chamber 19 will spread and act on the piston 3 over an entire area, so that the piston 3 to Stop is pressed against the valve seat 13 and this closes, whereby the connection of the room 20 is interrupted with the atmosphere. The outlet port 22 and thus the pneumatic switch are thereby via the bore 24, the space 20 and the Hole 25 vented. If the pressure under piston 3 falls below a certain value, so the force of the spring 6 predominates and pushes the piston 3 into the position shown down where the Seal 5 rests on valve seat 7 and the space 20 via the valve seat 13, the chamber 19 via the bore 24 and the outlet port 22 is vented via the bore 25. When the pressure increases again so again only the piston surface above the space 18 is pressurized.

The embodiment according to B i I d 2 differs from that according to B i 1 d 1 in that a tappet 26 is guided concentrically in the valve seat 13, the one with an axial bore 27 at its lower end in the picture with a radial bore 28 and is provided with a transverse hole at its upper end in the picture. The vent from space 20 then takes place through the bores 28 and 27.

Since the plunger 26 is seated on the piston 3, it is when it moves upward and is able to operate a switch. If this causes the Actuation of the. pneumatic switch can be omitted, the bore 25 is closed. The switch to be actuated by the plunger 26 can be designed so that it also depresses the plunger 26 during a downward movement of the piston 3 and so it is ready to be switched again.

The spring tension for the lower switching point is set by rotating the valve seat 13 and that for the upper control point by rotating of the upper housing part 8, so that the change in the spring tension at a control point cannot influence the spring tension at the other control point.

Claims (3)

Claims: 1. Pressure regulator, especially for compressed air systems in vehicles, which has a pneumatic switch when a certain pressure is reached ventilates and when the pressure drops below a certain value, it is vented, with a spring, which is designed as a double-acting valve, in the controller housing axially displaceable piston at the various control points under different Tension, due to the change in the spring length, is applied, characterized in that that the piston (3) acting on the spring (6) against a in the regulator housing (1) axially adjustable and sealed (11) upper housing part (8) supported, in which axially adjustable and sealing a tubular valve seat (13) is arranged is, the lower end face (12) with the end face (4) of the piston (3) the Forms vent valve. 2. Pressure regulator according to claim 2, characterized in that that a hollow tappet (26, 27, 28) is guided in the tubular valve seat (13), which sits on the piston (3) and through its axial displacement an electric Switch can be operated. 3. Pressure regulator according to claims 1 and 2, characterized in that that when an electrical switch is operated by means of the plunger (26) at the same time also a pneumatic switch connected to the pressure regulator connection (22) or time switch can be operated and that if the latter is omitted, the pressure regulator connection closed is. Publications considered: Austrian patent specification No. 204 857.