SE463686B - REDUCING VALVE - Google Patents

Description

463 686 the outlet valve in the chamber is forced to work with strongly varying pressure in the chamber. The working operation to be performed with the pressure shocks which are produced by opening the outlet valve can thereby suffer greatly from these pressure variations.

Through the invention, a reduction valve has been added, which eliminates this shortcoming. What distinguishes this reduction valve is stated in the following requirements.

In the following, the invention will be described in more detail with reference to the accompanying drawing, which shows a vertical longitudinal section through the reduction valve and another for a special application with this cooperating valve.

The reduction valve has as a basic component a drawbar 1, which is displaceable in its longitudinal direction back and forth through a first chamber divided into two mutually communicating spaces 2a, 2b. In the space 2b, a collar seal 3 is fixedly arranged on the drawbar 1, which, in the event of an overpressure prevailing in the chamber 2a, 2b, tends to move with the drawbar 1 to the right in the figure.

The drawbar 1 runs through a washer 4, which divides the chamber into said spaces 2a, 2b but which does not prevent an overpressure from propagating from one space to the other. Between this washer 4 serving as a consideration and a body 5 fixedly mounted on the drawbar 1, a compression spring 6 is inserted, which strives to move the drawbar 1 to the left in the figure. A narrower portion 1a of the drawbar 1 extends through a passage 7 insignificantly further than this portion into an antechamber 8 outside the first chamber Za, 2b, and on the drawbar a second seal 9 is arranged here, which is arranged so that when the drawbar is displaced to the right of the figure close the passage. In the inlet to said antechamber 8 is arranged an inlet pipe 10, which is formed with a number of small channels. The significance of this inlet pipe 10 will be clarified below.

Preferably it consists of a piece of rattan. a-I To clarify the function of the reduction valve, according to the application example shown in the drawing, this is inserted into an air rifle, of which only some details essential for the function of the valve are shown here. This rifle includes a cartridge 11 for compressed air.

The cartridge 11, which is sealingly screwed to the rifle body with the reduction valve inserted in the cartridge, houses a second chamber 12, in which air is compressed to high pressure, for example 1500 N. When the screw cartridge 11 is brought into place, the drawbar 1 extends with a free end up to abut against one end of a link arm 13. This link arm 13 is pivotable about a hinge shaft 14, and at its opposite end 1 the drawbar 1 is attached a tension spring 15.

Arranged below the link arm 13 is a locking arm 17 pivotable about a hinge axis 16, which rests at its end located closest to the link arm 13 on a running pulley 18. This is influenced by the rifle's trigger mechanism, which is of a completely known constructive design and has therefore been omitted from the drawing. .

The locking arm 17 cooperates with a hammer 19, which is rotatable about an axis 20 from a tensioning position (charging position) to a firing position, as shown in the drawing. When firing, the hammer 19 strikes a firing valve 21, which thereby opens a passage from a third pressure chamber 22, which communicates with the first pressure chamber 2a, 2b via an outlet 23 in the barrel of the rifle barrel 24. A spring 25 in the chamber 22 closes quickly back to the firing valve 21. If a shot shot is provided in the barrel 24, this will thus be quickly fired out of the barrel by the short pressure shock produced during the moment the firing valve 21 has been open.

The pressure in the chamber 12 has been assumed from the beginning to be about 1500 N. The pressure in the chamber 22 may suitably be about 70 N. When a shot is fired, the pressure in the chamber 22 decreases. Thus the pressure also decreases in the chamber 2a, 2b. The compression spring 6 is so dimensioned that it now has the opportunity to act against the collar seal 3, and will therefore displace the drawbar 1 slightly to the left in the figure.

In this case, the seal 9 opens the passage 7, and air which is under strong 463 686 overpressure in the chamber 12 is forced through the inlet pipe 10 and the antechamber 8 into the chamber 2a, 2b and further up into the chamber 22.

The inlet pipe 10, which as mentioned suitably consists of rattan with a large number of small channels instead of a single large pipe opening, causes the air to flow into the chamber 2a, 2b at a somewhat calm rate, despite a large pressure difference, and some strong pressure shock occurs. thus not. In addition, the fine-channel inlet pipe 10 has a cleaning effect on the air and prevents any dust and dirt particles from adhering to and deteriorating the sealing functions of the valves.

The narrow passage 7 also helps to prevent an excessive rapid inflow of air into the chamber 2a, 2b.

When the pressure rises in the chamber 2a, 2b, the air presses the collar seal 3 and thus the drawbar 1 to the right in the figure against the action of the compression spring 6, until the seal 9 again closes the passage 7. The drawbar 1 also presses against the link arm 13 and pivots it against the action of the tension spring 15 clockwise in the figure.

The reduction valve according to the invention ensures in this way that during a series of firings the pressure in the chamber 22 is kept at the same level before each firing, which has the consequence that the firing valve 21 works in exactly the same way at each firing and thus also each shot way. A good hit result is thereby made possible.

When the pressure in the chamber 12 has dropped to a substantially lower level after a large number of firings, the reducing valve can no longer build up the desired pressure in the chamber 22. Instead, the compression spring 6 is allowed to press the drawbar 1 slightly further to the left in the figure. As a result, the tension spring 15 is allowed to pivot the link arm 13 to a position where its lower end ends up directly above the inner end of the locking arm 17. In this position the locking arm 17 can not swing up behind the link arm 13, and thus no more firing can take place.

How far one wants to allow the pressure to drop in the chamber 12, before blocking against continued firing is to be determined, is determined by means of the reduction valve spring 6. By making it sufficiently strong, one can thus achieve blocking against firing, when the pressure in the chamber 12 is still is reïati vt high in order to give the ïuft rifle an even standard over a series of firings.

The reduction valve according to the invention can of course be used in a number of other contexts within the scope of the appended claims and can also be designed in several different ways than the embodiment shown and described.

Claims (1)

463 686 PATENT CLAIMS Reduction valve for air or gases, arranged in a first chamber (2a, 2b), located between a second chamber (12), in which there is an air or gas overpressure, and a third chamber (22), in which there is an overpressure which is lower than the overpressure in the second chamber (12), which valve consists of a drawbar (1) extending back and forth through the first chamber (2a, 2b) and on which longitudinally displaceable drawbar (1) is arranged. a first seal (3), which is affected by the pressure in this chamber (2a, 2b) and strives to move the drawbar (1) in one direction, a body (5) fixedly connected to a drawbar (4) and a body (5) ) arranged first spring means (6), which strive to move the drawbar (1) in the opposite direction, and a second seal (9) arranged on the drawbar (1), which is arranged to close when the drawbar (1) is displaced in the first-mentioned direction passage (7) into the first chamber (2a, 2b), characterized in that in the the third chamber (22) is provided with an outlet valve (21) which can be opened against the action of a second spring means (25) and that the first chamber (2a, 2b) communicates directly with the third chamber (22) for automatic reconstruction of the air or gas pressure in the third edge edge (22) after pressure reduction in it by opening and subsequently closing the outlet valve (21).