DE2626714A1 - Gas pressure regulator valve pressure balancing - avoids pressure reduction caused by increased flow rate using balancing pipe and shutter valve - Google Patents

Abstract

A gas pressure regulator is designed to avoid pressure reduction caused by increased flow rate and valve pressure in balance in the fully open position. The regulator has a shutter valve (24) mounted on a spindle (26) and working in conjunction with a valve seat (18). Also a piston or membrance element (30) is mounted on the spindle (26) with the same working surface area as the shutter valve. When the regulator is operating the pressure on the membrane or piston is equal to that on the shutter valve or in the region of the valve seat. The pressure balancing is achieved by using a hollow tube (38) about the spindle (26).

Description

Gas pressure regulators The invention relates to gas pressure regulators and concerns an improvement of such a controller in more detail the invention a gas pressure regulator, which is carried by a valve spindle, valve closure piece cooperating with a valve seat, a control device for controlling the opening and closing movements of the valve closure piece and a Piston or diaphragm 9 which is also carried by the valve spindle becomes and essentially the same effective area has like that Valve closure piece and in which the gas pressure in opposite directions against the valve closure piece and acts against the piston or the diaphragm in such a way that the pressure acting on the valve closure piece at least when the regulator is closed is exactly balanced.

Gas pressure regulators of the type detailed above work in general quite satisfactory. However, it has been found time and again that the valve closure piece when open, especially when fully open, not ideally pressure-balanced was liked, even when closed, printed on its seat completely be pressure balanced. This is due to the fact that when the valve closure piece is lifted from its seat the pressure then acting on its surface is slightly lower than the pressure at the upstream side of the regulator, while the pressure exerted on the piston or the membrane worked while the pressure on the upstream side of the regulator was still active.

When such a regulator is fully opened, the pressure, which acts against the surface of the valve plug is actually somewhat larger than the pressure on the downstream side of the regulator. The consequence of this was that a sufficiently wide opening of the valve plug was prevented to reduce the outlet pressure to keep. There is therefore a pressure drop in the outlet pressure, known as a "drop" (droop) is called when the regulator opens to the gas flow enlarge. The object of the invention is to prevent this tendency of the controller or at least at least to diminish.

To solve this problem, according to the invention, a gas pressure regulator is provided provided, the one carried by a valve spindle and with a valve seat cooperating valve plug, a control device for controlling the opening and closing the regulator and having a piston or diaphragm separated by the valve spindle is carried and has substantially the same effective area has like the valve plug and which is characterized by a device, with the one gas pressure in operation of the regulator, which against the piston or the The diaphragm works, the pressure is the same as in the vicinity of the valve seat or in the Area of the area of the valve closure piece that rests on the valve seat. The gas pressure acting against the piston or the diaphragm can be controlled by a the pipe surrounding the valve spindle to one of the piston or diaphragm Chamber are performed. Here, the pipe can either be a solid pipe, its Inlet end is arranged in a plane, which is a small distance from that Surface of the valve closure piece, which cooperates with the valve seat, when the regulator is closed 0 In this case the gas pressure is against the Piston or diaphragm acts when the regulator is in operation, the pressure in the area of the Valve seat 0 The pipe can also slide up and down together with the valve spindle, Its inlet end is then at a fixed distance of that area of the valve closure piece which interacts with the valve seat0 In this case, the gas pressure, which in operation of the regulator against the piston or the membrane acts, the pressure that is in the area of the valve seat facing Area of the valve closure piece is effective.

On the other hand, the gas pressure, which is against the piston or the embrane acts, the bounded by this piston or this membrane chamber also by a Line are fed, which extends through the valve stem and from a Zone that rests against that surface of the valve closure piece or you is adjacent, which cooperates with the valve seat. This opens the Flow from an annular flow channel, which is in a small Distance from a radially outer surface of the valve closure piece is located, which cooperates with the valve seat O The mentioned piston or diaphragm can expediently have a rolling membrane or consist of such, The Surface of the valve closure piece, which cooperates with the valve seat, can be provided with an elastic sealing element0 The valve seat can be of a Valve insert can be formed with a valve seat cutting edge.

The invention is illustrated by the drawing using an exemplary embodiment explained in more detail, It shows: Fig. 1 shows a gas pressure regulator according to the Invention in section, ig. ^ and 5 sections of part of the controller according to Fig 1 enlarged, and FIGS. 4 and 5 show two further exemplary embodiments the invention in FIGS. 2 and 3 corresponding representations.

The gas pressure regulator shown in FIGS. 1 to 3 has a valve housing 10 with inlet and outlet openings 12 and 14, in which a valve insert 16 with a valve seat cutting edge is used, which has a valve seat 18 between the Forms chambers 20 and 22 which communicate with inlet and outlet ports 12 and 14, respectively stay in contact.

The regulator also has a valve plug 24 attached to a valve spindle 26 is carried and can be pressed onto the valve seat 0 The valve spindle depends on a control device which is designated 28 in its entirety is and the opening and closing of the regulator depending on the size of a Control signal that is taken from an undercurrent of the regulator will0 That area of the valve closing piece which interacts with the valve seat, is provided with an elastic sealing element 25, which is of a valve seat cutting edge a valve insert 16 is to be acted upon in order to one ensure complete shut-off when the regulator is closed.

sSie from Figs. 2 and 3, enters the valve spindle Piston or diaphragm element, which is designated in its entirety by 30 and against which a gas pressure acts, which is opposite to the gas pressure, which on the surface 32 of the valve plug acts so that the valve plug is pressure balanced. The piston or diaphragm element 30 has a rolling diaphragm 34 which surrounds a piston 36 carried by the spindle 26.

In addition, facilities are provided with which to ensure is that in the operation of the regulator that gas pressure that acts on the piston or diaphragm element is the same pressure that is effective in the area of the valve seat 0 This Means are formed by a fixed tube 38 which is the valve stem surrounds and extends downwardly from an intermediate wall 40 which forms part of a Insulating cover 42 forms. The valve seat insert 16 is on this insulating cover 42 attached and is of several spacers 17 at a distance from this cover held, the lower end of the tube 38 is the inlet end and arranged in a plane which is located a short distance above the surface 32 of the valve closure piece, when this, as shown in Fig0 2, rests on the valve seat The piston or membrane element 30 delimits a chamber 44 above the intermediate wall 40, the is isolated from other chambers or ports in the regulator with the exception of the Pipe 38. As can be seen from Fig. 2, where the valve closure piece on its seat is shown horizontally, when the regulator is closed, the gas pressure in the chamber 44 acts on the piston or diaphragm element 30, the same as the pressure on the Upstream side of the regulator acting on face 32 of the valve plug. Because the piston or diaphragm element has exactly the same effective area as that Valve closing piece, this latter is precisely pressure balanced.

On the other hand, when the regulator is open as shown in Fig. 7 and the gas pressure acting against the surface 32 of the valve plug is lower than the pressure on the upstream side of the regulator, which is in fact a little greater can be than the pressure on the downstream side of the regulator, the pressure in the Chamber 44 is reduced in the same way and the valve plug remains accurate pressure balanced0 In fact, it has been established through tests and experiments that that during the operation of the regulator, the valve closing piece is precisely pressure-balanced remains so that a pressure drop has been reduced to an ideal 0 It can be assumed that that this is due to the fact that during the entire operating time of the controller in the Chamber 44 effective pressure is the same pressure as the pressure in the area of the valve seat, In Fig. 4 shows a modification of the controller described above. here the tube 38 slides together with the valve stem so that its lower end, d.ho its inlet end is a fixed distance from the surface 32 of the valve plug is located. Of course, in this case there are seals between the circumference of the tube and the bore in the wall 40, which the tube with a sliding fit penetrates, so that, as in the previous case, the chamber 44 relative to other chambers or flow spaces inside the regulator is closed with the exception of the pipe 38. As a result, in this case the gas pressure, which is in the chamber 44 against the Piston or diaphragm element acts during the entire operating time of the regulator same pressure as in the area of the surface 32 of the valve closure piece.

In Fig0 5, another embodiment is shown in which the tube 38 is dispensed with and the valve spindle slides through the bore in the wall 40 of the insulating cover 42 extends0 Here is of course between the peripheral surfaces of the spindle and bore a seal not shown here provided0 In this case, the gas pressure9 in the chamber 44 against the piston or membrane element acts, fed to this chamber through a passage 46, the extends through the valve stem and in a zone on or next to the The surface of the valve closure piece opens in the example of the coupling shown in FIG is a manifold cap 48 is provided which is positioned close to the surface of the valve plug lies and extends from the area of the valve closure piece with the valve seat cooperates, extends radially inward.

The arrangement is such that the channel 46 extends over a transverse bore 50 in the valve stem from an annular flow passage 52 from opens, which lies just above the radial outer surface of the valve closure piece, which cooperates with the valve seat. In this case, too, it is on the valve closure piece acting pressure constantly balanced exactly that the gas pressure, which in the Chamber 44 is effective, that pressure is in the area of the surface 32 of the Valve closure piece and acts next to that area of the valve closure piece, which is then placed on the valve seat. The same effect could of course also through a bell or trumpet-shaped opening at the lower end of the tube 38 can be achieved in the embodiment shown in FIG.

The invention is not limited to the exemplary embodiments, but rather a number of modifications are possible without departing from the scope of the invention,

Claims (3)

Claims gas pressure regulator with a spindle carried by a valve and with a valve seat cooperating valve closure piece, a control device to control the opening and closing of the regulator and with a piston or membrane element, which is carried by the valve stem and has exactly the same effective area like the valve closure piece, characterized in that during operation of the controller the gas pressure which acts against the piston or membrane element (30) is the same The pressure is also in the area of the valve seat (18) or in the area of the surface (32) of the valve closure piece (24) acts, which cooperates with the valve seat (18) 2. Gas pressure regulator according to claim 1, characterized in that the gas pressure, the acts against the piston or diaphragm element (30) that of the piston or diaphragm element (30) limited chamber (44) is fed through a tube (38), which is the valve spindle (26) surrounds and which is either a fixed tube, the inlet end in a is arranged just above the surface (32) of the valve closure piece (24), the when the regulator is closed, it interacts with the valve seat (18), so that the Piston or diaphragm element (30) acting gas pressure during operation of the Regulator is the effective pressure in the area of the valve seat (18), or that the pipe (38) slides together with the valve spindle (26) and with its inlet end in one fixed distance from the surface (32) interacting with the valve seat (18) of the valve closure piece (24) is arranged in such a way that the or membrane element (30) acting gas pressure during operation of the regulator the same pressure is like in the area of the surface (32) of the valve closure piece (24). 3. Gas pressure regulator according to claim 1, characterized in that the on the piston or membrane element (30) acting gas pressure in the piston or a membrane element (30) bounded by a chamber (44) by the valve spindle (26) passed through passage (46) is fed from a region on or next to the surface (32) of the valve closure piece which interacts with the valve seat (18) (24) goes out 40 gas pressure regulator according to claim 3, characterized in that means are provided with which the valve spindle (26) penetrating channel opens into an annular flow channel (52) which is closely above one with the valve seat (18) cooperating area of the valve closure piece (24) is arranged0 Blank page