NO751128L - - Google Patents

Description

Valve for reduction of static unboxing

el ler qas pressure in a pipe

This invention relates to a valve for reducing static liquid-strainer gas pressure in a pipe, comprising a valve housing with an inlet chamber which is limited by a disc-shaped valve body interacting with a valve seat, and a moving wall rigidly connected to the valve body over a shaft with the same effective surface as the valve body, and an outlet chamber that communicates with the inlet. through, ven.added, with the valve body arranged, .to open to the outlet chamber.

A number of constructions with a more or less equivalent are previously known. effect, and the best of these known valve designs provide a very constant output pressure regardless of low or high input pressure. There are also a number of very simple valve designs suitable for reducing pressure, but these all have major or minor faults and shortcomings, such as varying output pressure, inaccurate action, highly subject to wear, low flow, poor sealing, etc.

The purpose of the invention is to provide a reduction valve of the above-mentioned type which is significantly cheaper, which has a good seal and which closes or throttles quickly and with great operational reliability. This is achieved according to the invention by the movable wall being directly affected by a relatively constant force in the direction towards the valve body.

The reduction valve's three main elements are a movable wall and a disc-shaped valve body which together limit an inlet chamber, as well as a constant force that affects the movable wall. This movable wall can be a membrane or a piston, and the relatively constant force can be exerted by means of a spring, an air cushion, a plumb line or the like.

The inlet chamber is connected through a pipe opening with a supply pipe which can be guided slidingly and sealingly around the movable wall or around the disc-shaped valve body.

The invention shall be explained in more detail with reference to the drawing, if fig. 1 schematically shows a reduction valve of a previously known type and fig. 2 shows in longitudinal section an embodiment example of a reduction vein according to the invention.

The known reduction valve according to fig. 1 consists of a valve housing la and lb which are separated from each other by a diaphragm 2. The diaphragm is rigidly connected by means of a shaft 6 to a piston 8' and a disc-shaped valve body 8, which latter parts together with a cylindrical wall 9 limit an inlet chamber a which is connected with a pipe connection socket 1<0>a. Apart from this inlet chamber there is an outlet chamber b which can be connected to a further pipeline by means of a single socket 10b. The upper side of the membrane 2 is loaded with a spring 3 which, above a spring plate 4, is connected to a screw 5 which is passed through the upper wall of the room lb.

Since the piston 7 and the valve body 8 have interacting surface areas and are exposed to the same pressure on their facing surfaces and the same or a different pressure on their facing away surfaces, this system of the piston 7 and the valve body 8 will be completely balanced under all pressures and operating conditions.

The reduction valve according to fig. 1 is assumed to be connected into a pipe system, with tapping points in the pipe which is connected to the pipe connection 10b. When no liquid or gas is drained out through the pipe connection 10b, the pressure in the two chambers a and b will be the same, and this pressure will act against the underside of the membrane 2 against the action of the spring 3 and, depending on the size of the pressure and the force of the spring 3, hold the valve body 6 next to or at a short distance from the valve seat 8'. As soon as liquid or gas is drained, the static pressure in the chamber, b will decrease, and the spring 3 will act and open the valve body 8 more or less, so that the flowing gas or liquid will be exposed to a greater or lesser throttling.

The reduction valve according to fig. 2 is significantly simpler,

as the spring 13 acts directly on the movable wall 12. Inlet chamber et is also denoted in this case by a and the outlet chamber

with b, the valve body with 18 and the valve seat with 18'.' The dividing wall which separates the tc chambers a and b is denoted by 19 and is designed with the valve seat 18'. The movable wall in the form of a membrane is denoted by 12 and limits °c/^mmed the valve housing and

the valve body the inlet chamber a. The membrane 12 and the valve body 18 have the same effective surface area. The shaft 16 is designed with a sn flange 24 against which the underside of the membrane 12 rests. Then through the membrane, the upper part of the shaft 16 is threaded and screwed onto a cylindrical nut 23 designed with a flange 23'. These parts 23 and 23' form the seat for the lower end of a spring 13, the upper end of which rests against the inner side of a cap-shaped part 11b which is formed with a downwardly directed cylindrical pin 14 and is screwed into an internally and externally threaded sleeve 21, which in turn is screwed into the upper open end of the housing and presses against the periphery of the membrane 1.2 so that it is held against a shoulder 21'

designed in house lia. The pressure that the spring 13 exerts against the membrane 12 can be adjusted by screwing the cap 11b more or less into the sleeve 21 using its hexagonally shaped head 15.

At the bottom of the housing 1a, there is an opening for inserting the valve body 18 attached to the shaft 16. This opening is sealed with a stopper 26 with a hexagonal head. In order to keep the valve body 16 centered in the correct position in relation to the valve seat 18a, a cross 25 is inserted in the valve opening. The inlet of the valve is denoted by 20a and the outlet by 20b.

The operation of the valve according to fig. 2 is exactly the same as the valve according to fig. 1, but it is substantially simplified, as it is only equipped with one movable wall, namely the diaphragm 12. The reduction valve according to fig. 1 will, when normal atmospheric pressure prevails in the inlet and outlet, be in the open position, as the spring exerts a force against the middle part of the diaphragm 12, so that this is pressed downwards in the chamber a. By the fact that the middle part of the diaphragm is rigidly connected to the valve body 18 above the shaft 16, the valve body will move from the valve seat and the valve will be in the open position.

Begins there e.g. to flow a liquid into the inlet 20a, the energy in the liquid which causes it to move,

act against the diaphragm 12 underside and against the valve body 18 upper

page. Since these forces are oppositely directed and of equal magnitude as a result of au that the membrane and the valve body have the same effective surface, the liquid will move further through the outlet chamber b, as the valve will still be in the open position. However, one will wash

which moves at high speed out of the chamber a through the valve seat 18' and past the valve body .1.8 necessarily had to exert a

some force against the underside of the valve body. This force can be reduced by making the transition in the flow cross-section from the underside of the valve body to the outlet 20b as smooth and streamlined as possible, but with the valve according to the invention it must be taken into account as a force that will reduce the flow by a few percent in that it acts against the force with which the spring keeps the valve open, and thus close

the valve somewhat, so that a stronger throttling occurs in the valve passage.

As already indicated above, the valve according to the invention can be made in many different ways, e.g. the relatively constant force can be exerted by the spring shown, an air cushion, a plumb line or the like. With a practical design of the reduction valve, the outlet pipe can be arranged at the bottom of the valve housing, i.e. replacing the plug 26, while the inlet is arranged concentrically within the spring 13 and sealing through the membrane 12. A reduction valve can thereby be obtained which will only constitute a thickening of a continuous string of pipes.

Claims (4)

1. Valve for reduction of static liquid or gas pressure in a pipe, comprising a valve body (1a) with an inlet chamber (a) which is limited by a disk-shaped valve body (18) cooperating with a valve seat (18') cg a movable wall (12) rigidly connected to the valve body over a shaft (16) with the same active surface as the valve body, and an outlet chamber (b) communicating with the inlet chamber (10a) through the valve seat (18'), with the valve body arranged to open towards the outlet chamber (b), characterized in that the movable wall (12) is directly affected, of a relatively constant force (13) in the direction towards the valve body. • . 2 ...-Valve' in .. according to claim 1, .• k, a ,r a k .,t e... r i s e r t • in that the movable wall (12) is a membrane and the relatively constant force is exerted by a spring (13) which is clamped between the membrane (12) and the bottom of a cap (11b) which is screwed into the valve h u-s e t (11 a ) . 3. Valve according to claim 1, characterized in that the relatively constant force is exerted by a gsss or air put? ,, whose excess pressure can be regulated. 4. Valve according to claim 1, characterized in that the relatively constant force is exerted by a replaceable weight. •