FI101107B - Pressure reducing valve to feed pressure gas into a corked bottle - Google Patents

Abstract

A pressure-reducing valve for supplying pressurized gas to a bottle provided with a cap, the pressure-reducing valve (1) comprising a body (2) inside which there is a piston part (4) and a spring (7) arranged in such a way that the piston part (4) adjusts the flow of the pressurized gas through the pressure-reducing valve (1) and that the piston part (4) is acted upon on one side by the spring (7) force and on the opposite side by the pressure of the pressurized gas, whereupon the spring (7) force determines the pressure that is output from the pressure-reducing valve (1). The spring (7) force acting on the piston part (4) and the pressure level of the gas that is output form the pressure-reducing valve (1) are regulated by pressing the spring (7) for example with the cap (19) of the bottle (18).

Description

! 101107

Pressure relief valve for supplying pressurized gas to a bottle with a cap

The invention relates to a pressure relief valve for supplying pressurized gas to a bottle with a cap, the pressure relief valve having a body, a piston part, a spring, a flow channel through the pressure relief valve and a shut-off member adapted to restrict or prevent gas flow through the pressure relief valve. that the force of the spring is adapted to act on one side of the piston part and the pressure of the pressurized gas against the surface of the piston part, the piston part being adapted to adjust the flow of the pressurized gas flowing through the pressure relief valve 15 , whereby a force acting on the spring causes the closing member to open and allow 20 gas to flow through the pressure relief valve.

6B 2 122 729 discloses a beer keg pressure regulator. The pressure regulating device comprises a valve, the piston of which acts as a piston and is adapted to be pressed. The piston is still pressed with a spring. As the spring presses down on the piston, the piston continues to push down on the rod acting as the valve piston, allowing the pressurized gas in the pressure bottle to pass through the valve by throttling. The pressure of the gas flowing through the valve raises the piston, whereby the rod acting as the piston of the valve also rises. The Sa-30 rod on the valve rod is also affected upwards by the gas pressure in the pressure cylinder. If the gas pressure raising the piston rises high enough compared to the spring, the valve closes. In the pressure regulator, the rod acting as the valve piston is affected by the pressure in the pressure vessel.

35 Furthermore, in order for the valve to close and remain closed, 2 101107 there must be a constant amount of pressure below the piston. That is, for example, if the shell of the pressure regulator breaks, the pressure vessel can be completely emptied. The device assembly is complex, heavy and clumsy, its spring-5 force is not adjustable, and it is not suitable for supplying pressurized gas to a bottle with a cap.

It is an object of the present invention to provide a pressure relief valve for supplying pressurized gas to a cylinder in which the pressure relief valve does not suffer from the above-mentioned drawbacks.

The pressure relief valve according to the invention is characterized in that the pressure relief valve has a throttle adapted to restrict the flow of gas supplied to the pressure relief valve before the pressure of the gas 15 acts on the piston part, whereby the piston part is only affected by a lower throttled gas pressure.

The essential idea of the invention is that the pressure coming out of the pressure relief valve is determined by a spring force acting on the other side of the pressure relief valve piston and on the opposite side of the piston relative to the spring. by pressing the spring to size a predetermined distance. A further idea is that the pressure of the gas supplied to the pressure relief valve is reduced to a minimum before it acts on the piston of the pressure relief valve. Another idea is that at the same time as the pressure relief valve is actuated and the resulting pressure is adjusted by pressing the spring puls. . At 30 liters, the pressure relief valve seals against the bottle.

‘An advantage of the invention is that the pressure exiting the pressure relief valve does not depend on the magnitude of the pressure supplied and that the exiting pressure can be adjusted by pressing with a bottle. A further advantage is that only a low pressure is applied to the control piston 35. A further advantage is that bringing the pressure relief valve through the gas, sealing against the bottle and closing is achieved only by machining the bottle in the correct position. A further advantage is that the invention is simple in structure and easy to manufacture.

The invention is explained in more detail in the accompanying figure, which shows a pressure relief valve according to the invention in cross section.

The figure shows a pressure relief valve 1 10 in cross section. The pressure relief valve 1 comprises a body 2 inside which a lower slide 3 is arranged. The lower slide 3 has a piston part 4 projecting therefrom, which is sealed against the body 2 by a piston seal 5. An upper slide 6 is arranged around the lower slide 3 so that the lower slide 3 and 15 move in the direction of their axes relative to each other. The terms upper and lower and upper and lower in this context refer to the relationships between devices and parts in the position shown in the accompanying figure, and it is self-evident that such devices and parts may be in another position, in which case other terms may be used. The spring 7 is arranged so that it rests at one end on the lower part of the upper slide 6 and at the other end on the upper surface of the piston part 4 of the lower slide 3. The lower slide 3 and the upper slide 6 are sealed against each other by the upper seal 8 of the lower slide. The upper end of the upper slide 6 has the upper seal 9 of the upper slide. The lower slide 3 is arranged from its lower part of the piston part 4 inside the sleeve 10. The sleeve 10 is sealed against the body 2 by a sleeve seal 11. The lower slide 3 and the sleeve 10 are sealed to each other by an upper lower seal * 12 of the lower slide and a lower lower seal 13 of the lower slide. The sleeve 10 has at least one sleeve hole 14 through it. Below the 4, at least one lower slide hole 15. Inside the lower slide 3 there is a channel 16 along its axis along its entire length. The edges of the recess have threads for connecting the pressure relief valve 1 by means of a threaded connection to the pressure cylinder. In this case, the edges of the mouth of the pressure bottle are sealed against the body 2 5 by means of the body seal 17. At the upper end of the body 2 there is a recess into which a bottle 18 can be inserted, the cap 19 of which is placed against the upper seal 9 of the upper slide.

When the pressure relief valve 1 is used, it is screwed onto the pressure bottle, whereby the mouth part of the pressure bottle seals against the body 2 with the body seal 17. At the same time the sleeve 10 presses the pressure a force whereby the hole 14 of the sleeve 15 is between the upper lower seal 12 of the lower slide and the lower lower seal 13 of the lower slide and said seals prevent the flow of pressurized gas from the hole 14 of the sleeve. When pressing the upper slide 6 with the bottle 18 and the cap 19 at its end, the upper slide 6 20 further presses the lower slide 3 downwards via the spring 7. When the lower slide 3 moves downwards so much that the upper lower seal 12 of the lower slide is no longer above the sleeve hole 14, pressurized gas can flow from the sleeve hole 14 between the lower slide 3 and the sleeve 10 through the lower slide hole 15 25 further into the channel 16. 4 below. The clearance between the lower slide 3 and the sleeve 10 is such that the pressurized gas can flow between them, but the clearance is so small that it constricts the gas flow. If the upper slide 6 is pressed 'continuously with the bottle 18 and the cap 19 at its end, the pressurized gas can flow from the hole 14 of the sleeve forward. This continues until the pressure inside the bottle 18 and thus also in the channel 16 acting 35 below the piston part 4, lifting it against the force of the spring 7 101107, rises so high that the lower slide 3 rises so far upwards that the upper slider of the lower slide 12 rises above the sleeve hole 14 and the flow from the sleeve hole 14 forward is interrupted. Since the ground of the gas flow-5 is throttled before it is applied below the piston part 4, the pressure of the gas supplied to the pressure relief valve 1 does not affect the pressure of the gas to be expelled, but is determined by the spring 7 acting against the pressure below the piston part 4. Naturally, the flow is also interrupted in the event that the bottle 18 and its cap 19 are lifted out of the pressure of the upper slide 6.

The sleeve 10 is pressed against the shoulder of the body and thus completely stationary during the entire operation of the pressure relief valve 1. The sleeve 10 could therefore be integral with the body 2, but it is advantageous for the manufacture, assembly and maintenance of the pressure relief valve 1 that the sleeve 10 is a separate piece. In the pressure relief valve according to the figure, it is shown that there is a drilling cone 20 inside the sleeve 20. By providing the sleeve 10 with the drilling cone 20, the manufacture of the sleeve 10 can be performed more easily, but the drilling cone 20 is not necessary for the operation of the pressure relief valve 1. In its upper position 25 according to the figure, the piston part 4 of the lower slide 3 rests on the shoulders of the body 2. The sleeve 10 and the lower slide 3 and its piston part 4 as well as the shoulders of the body 2 are arranged so that the lower lower seal 13 of the lower slide does not at any point rise above the lower edge of the hole 14 of the sleeve. The spring 7 is dimensioned so that when the upper slide 6 rests in its uppermost position on the shoulder of the body 2 according to Fig. 30, the spring 7 does not press down on the lower slide 3. Further, the body 2, lower slide 3, upper slide 6 and sleeve 10 are arranged coaxial with each other and substantially rotationally symmetrical with respect to said axis.

The pressurized gas from the channel 16 further flows through the hole or valve in the cap 19 to the bottle 18. The hole in the cap 19 is preferably in the middle of the cap 19. The upper seal 9 of the upper slide slides around the hole 19 of the cap. The upper seal 9 of the upper slide prevents the flow of gas between the upper slide 5 and the cap 19. The upper seal 9 of the upper slide can be dimensioned so that, for some reason, if the pressure rises too much inside the pressure relief valve 1, gas can seep between the upper seal 9 of the upper slide and the cap 19. However, in normal operation, the pressure of the gas 10 flowing from the pressure relief valve 1 to the bottle 18 is determined by the force with which the upper slide 6 is pressed downwards. If it is desired to limit the maximum force on the lower slide 3, the required number of detachable washers 21 can be placed around the upper slide, for example the pulley 18 and its cap 19 cannot be pressed all the way to the frame 2, but only up to the washer 21.

The figure and the related description are only intended to illustrate the idea of the invention. The details of the invention may vary within the scope of the claims. Thus, for example, instead of a spring 7, another similar member can be used, such as a flexible rubber ring. Furthermore, the pressure relief valve 1 can also be installed for use with a pressure vessel other than a needle valve. The pressure relief valve 25 can also supply pressurized gas to a container other than a bottle with a cap.

Claims (9)

1. Pressure reducing valve for supplying pressure gas into a capsule bottle, which pressure reducing valve (1) is provided with a housing (2), a piston part (4), a spring (7), a flow channel extending through the pressure reducing valve (1). ) and a shut-off means arranged to throttle or prevent the gas flow through the pressure reducing valve (1) and the piston part (4) arranged inside the housing (2) to move relative to the housing (2), that a spring ( 7) force is arranged to act on one side of the piston part (4) and a gas pressure is arranged to press against the surface of the piston part (4) on the opposite side, the piston part (4) being arranged to control the flow of the pressure gas in the pressure reducing valve ( 1) and the force of the spring (7) define the output pressure and the pressure reducing valve (1) is provided with means for pushing the spring (7) in the shaft direction towards the piston part (4), the force acting on the spring (7) being the closing means for opening and allowing the gas to flow through the pressure reducing valve, characterized in that the pressure reducing valve (1) is provided with a throttle arrangement which is arranged to throttle the gas stream which is fed into the pressure reducing valve (1) before the gas pressure affects the piston part (4). wherein only a reduced gas pressure affects the piston member (4). Pressure reducing valve according to claim 1, characterized in that the pressure reducing valve (1) is provided with a lower slide (3) and a hole (10), which lower slide (3) is arranged to move in relation to the hole (10). between the lower slide (3) and the hollow (10) becomes a space, the lower slide (3) and the hollow (10) being a throttle arrangement adapted to reduce the flow of the compressed gas before the gas pressure impacts the piston part (4). 10 101107 Pressure reducing valve according to claim 2, characterized in that the hollow (10) is arranged to push the pressure reducing valve (1) in a pressure container provided with a shut-off valve where the valve's nails in the pressure container 5 are fixed. Pressure reducing valve according to claim 2 or 3, characterized in that there is a duct (16) inside the lower slide (16) for passing the pressure gas through the pressure reducing valve (1). Pressure reducing valve according to any one of the preceding claims, characterized in that the pressure reducing valve (1) is provided with a seal (9) arranged to seal the pressure reducing valve (1) against the cap (19) where the spring (7) is pressed with a bottle ( 18) and its cap (19). Pressure reducing valve according to any one of claims 2-4, characterized in that the means for pushing the spring (7) comprise a top cover (6) arranged around the bottom slide (3) so that when the top cover (6) is pressed it presses the spring ( 7) towards the piston member (4). Pressure reducing valve according to claim 6, characterized in that a seal (9) is provided for the upper cover (6) to seal the upper cover (6) against the cap (19) where the upper cover (6) and also the spring (7) are pressed with the bottle. (18) and its cap (19). Pressure reducing valve according to any of the preceding claims, characterized in that at least the housing (2) and the piston part (4) are essentially rotationally symmetrical. , 30 Pressure reducing valve according to any of the preceding claims, characterized in that at least the housing (2) and the piston part (4) have a common shaft.