DE960082C - Gas pressure regulator with a valve rod controlled by a membrane - Google Patents

Description

ISSUED MARCH 14, 1957

M12793 XI4c

The invention relates to a gas pressure regulator with a valve rod controlled by a membrane, in which the diaphragm stroke through lever linkage initially in a transmission ratio and only is transmitted directly to the valve rod after a partial stroke has been carried out without translation.

In a known gas pressure regulator of this type, a diaphragm stroke is transmitted Toggle transmission. In contrast, the invention consists in that the controlled by the membrane Lever above one mounted on the opposite side of the valve stem, on the Valve rod engaging lever is arranged, in such a way that after a certain stroke of the Membrane a stop lying in the axis of the valve rod with a pressure point of the first Lever comes to rest in a pressure point on the second lever.

According to an advantageous embodiment of the invention, the length of the path is the pressure point adjustable up to the rest on the second lever. An adjusting screw is used for setting, inserted into the end of the second lever protruding beyond the point of application of the valve rod and the position of the pivot point between the two levers is determined.

A major difference compared to the toggle transmission is that in the

Gas pressure regulator according to the invention is only worked with two fixed translations. By moving The transmission ratio can be changed by turning the adjusting screw to the left or right. In addition, the transition point can be set by screwing the adjusting screw higher or lower change from the transmission of the diaphragm stroke via a translation to direct transmission. So there are numerous options for changing

ίο to adapt the translation to the operating conditions. The setting can also be made during operation.

In contrast, in the known gas pressure regulator, the transmission ratio runs at the toggle lever steadily from infinity to 1: 1 to size. It is not possible to change the gear ratio to change by simple means. The known transmission by toggle levers is disadvantageous also the cumbersome construction with many levers and 'pivot points.

However, the more recent findings in controller construction aim to have as few joints as possible get along, since the frictional forces occurring in the joint points ensure that the Adversely affect the downstream pressure. Furthermore, what is inevitably present in the joints Play lead to unpleasant vibration phenomena, so that too for this reason Articulation points are to be avoided as far as possible.

The lever transmission of the gas pressure regulator according to the invention has only two articulation points. In addition, installation and removal are much easier. To remove the control valve After removing the cover and the membrane, you only need to fold up the two levers will. In the known gas pressure regulator, however, a removal of the control valve is only after Removal of the toggle joint possible.

In the drawing, an embodiment of the subject invention is in a vertical Section shown.

Through the membrane 1, the valve rod 2 is controlled by two levers 3, 4 lying one above the other. The lever 3 is mounted on the one side of the valve rod, the lever 4 underneath it on the opposite side of the valve rod on the housing 5. The valve rod 2 is held against the lever 4 from below by a closing spring 6. In the end of the lever 4 protruding beyond the point of application of the valve rod, an adjusting screw 7 is inserted, which serves to support the lever 3. The pressure points of the two levers 3, 4 given by this are labeled A, B. The head end 8 of the lever 3 rests on the membrane 1 in the axis of the valve rod 2. After a certain stroke of the diaphragm, the head 8 of the lever 3 strikes the lever 4. The two pressure points given by this are denoted by C, D. The distance between the pressure points A ₁ B and the pressure points C ₁ D determines the transmission ratio of the lever transmission.

This means that the diaphragm stroke in relation to the valve stroke is so much greater than the selected I. Lever transmission ratio, for example with a transmission ratio of 1: 3, the valve lift is a third of the diaphragm stroke.

After a certain deflection of the diaphragm 1 and a corresponding pivoting movement of the lever 3, the pressure point C of the lever head 8 comes to rest on the pressure point D of the lever 4. From this position on, the diaphragm stroke is transmitted directly to the valve rod 2, i.e. without a transmission ratio.

By screwing the adjusting screw 7 into the lever 4, so that the screw end with the pressure point B protrudes further, the transmission of the diaphragm stroke to the valve rod 2 is translated for a longer period of time. By screwing back the adjusting screw 7, the distance between pressure point C and pressure point D is reduced in the starting position. As a result, when the diaphragm deflects, the pressure points C ₁ D touch each other more quickly, ie after a small diaphragm stroke, whereupon the diaphragm stroke is transferred to the valve rod 2 in a ratio of 1: 1.

The length of the valve rod must be adapted to the changed transmission ratio.

In the illustrated embodiment, the controlled valve is designed as a double valve. A smaller valve body 9 sits firmly on the go valve rod 2. The associated valve seat 10 is located to a larger valve body 12, which closes the valve seat 13 of the housing.

With small diaphragm strokes only the small valve 9 is opened. Only after a certain opening stroke meets a driver 14 of the valve rod 2 against the closed by the gas pressure until then held valve 12, so that in the further course of the opening movement also the large valve 12 opens will.

Claims (4)

PATENT CLAIMS: 1. Gas pressure regulator with a valve rod controlled by a membrane, in which the Diaphragm stroke through a lever linkage initially in a transmission ratio and only after Execution of a partial stroke without translation is transmitted directly to the valve rod, characterized in that a lever (3) controlled by the membrane (1) over a the opposite side of the valve stem (2) mounted, on the valve rod (2) engaging lever (4) is arranged, in such a way that after a certain stroke of the membrane (1) a stop (8) lying in the axis of the valve rod (2) with a pressure point (C) of the first lever (3) comes to rest on the second lever (4) in a pressure point (D). 2. Gas pressure regulator according to claim 1, characterized in that the length of the path of the Pressure point (C) can be adjusted until it rests on the second lever (4). 3. Gas pressure regulator according to claims 1 and 2, characterized in that in the above the point of application of the valve rod (2) out- protruding end of the second lever (4) an adjusting screw (7) is used, which determines the position of the pivot point (B) between the two levers. 4. Gas pressure regulator according to claims 1 to 3, characterized in that the hub the membrane (1) in the transmission ratio of the lever (3, 4) to a smaller one, with the valve rod (2) connected valve (9) and the further stroke of the membrane (1) without translation to a larger one, which is only taken along by the valve rod (2) after a certain distance Valve (12) is transmitted. Considered publications:
German patent specifications No. 477 273, 644 293. 1 sheet of drawings © 609 620/8 9.56 (609835 3.57)