SE521730C2 - Manually controlled or fluid actuated valve including a valve body provided with protruding stop pins which cooperate with annular piston device - Google Patents

Abstract

The invention relates to valve device preferably for the control of the flow from an evacuation device, wherein the valve device includes a valve housing, connection openings and a through flow channel, the channel including a wider portion, in which a valve body is axially movable and arranged to in a specific position axially engage an sealing and abutment edge.The novelty lies in that at an end face of one portion of the valve housing enclosing one of the connection openings is arranged at least one annular cylinder in the shape of an axial groove, the annular grove or cylinder being essentially closed at one end at the opposite end opening towards the wider channel portion of the channel, and in said annular cylinder there is an annular piston means, on introduction of pressure fluid at the essentially closed cylinder end arranged to be displaced outwardly in order to engage connection means at the valve body and displace same away from its sealing position against the force of a spring means.

Description

It is known to provide a valve housing with an axial passage channel, wherein an axially movable valve body is displaceable between a closing position, the peripheral portion of the valve body sealingly engaging with a narrowed portion of the passage body of the valve body and an open position, wherein the axially displaced valve body is located at a further portion of the passage channel allowing the dry passage of the controlled medium past the peripheral portion of the valve body.

Object of the invention The object of the invention is to solve the problems associated with current solutions by eliminating the need for motor valves and the associated need for laying electrical wires in operating rooms and the like.

Another purpose associated with the just mentioned is to significantly reduce the costs of extraction systems of the type in question.

A further object is to provide a valve with a size and thus space requirement of slightly exceeding the lines and the connections included therein.

Summary of the invention The problem of creating a valve which can be actuated by means of pressure medium, remotely controllable valve for regulating media fate has thereby been solved in the following manner.

A valve passage for the medium to be checked is arranged in one of at least two axially joined parts valve housing. In the passage there is a narrower portion at its end provided with a substantially axially facing sealing edge and a further portion allowing displacement of a substantially disc-shaped valve body from a closing position wherein the periphery of the valve body sealingly engages with said sealing edge and a passage allowing position or the disc settles at the wider portion of the passage so that a flow passage occurs between its inwardly facing surface and the edge of the valve disc. In one valve housing part there is at least one annular cylinder space in one axial direction, towards the connecting line, closed apart from a connection opening for working medium, in the other axial direction open towards a space in turn sealed to the environment in the other 'i / single housing part. In the annular cylindrical cylinder there is an axially displaceable annular piston or piston device, when introducing working medium at the closed cylinder end, displaceable into the sealed space for engaging with said space, radially projecting drive pin from the valve disc to act against K: \ Patent spring springs move the valve disc from the sealing abutment against the sealing edge so that flow can take place.

In another embodiment, in one valve housing part, two concentrically arranged cylinders, in the same way as the above-mentioned annular cylinder closed in one axial direction apart from connections for working medium lines, are open in the other axial direction towards an outwardly sealed space at the other valve housing part. By introducing working medium into the closed end of one of the concentrically arranged cylinders, the associated annular piston or piston device can be pushed axially to engage with radial drive pins at the valve disc as before to displace the valve disc from its position engaging with the sealing edge against the action of spring means. By introducing working medium into the second of the concentric cylinders, its annular piston can be similarly displaced into engagement with the radial drive pins to lock the annular piston in attainable position after reaching the intended position by closing the supply medium for working medium and enclosing the supplied media volume. This means that this forms an adjustable stop for the valve disc and allows a predetermined and adjustable minimum passage between the valve disc and the cooperating sealing edge to be formed.

Instead of the design with two annular cylinders resp. For the control or adjusting function, an annularly displaceable annular body which can be moved mechanically, for example by means of a screw device and can be displaced into engagement with the radial drive pins, with abutments which, depending on the setting, form end stops allowing greater or lesser displacement of the valve disc.

Further features appear from the appended claims and the accompanying description and drawing.

Description of exemplary embodiments The invention will be described in more detail below with reference to the accompanying drawing, in which Fig. 1 is an axial section of an embodiment of the valve according to the invention, Fig. 2 schematically shows in perspective the parts included in the valve in a special position, Figs. 3 in perspective shows the construction of the valve disc and Fig. 4 in the form of a partially cut-away perspective view shows a modified design of the valve.

The valve housing as a whole comprises the actual valve housing part 1, a so-called cylinder part 2 and a surrounding jacket 3, and an end plate 4 which can also serve as a wall bracket.

The valve housing part 1 is arranged at its outer end for connection to a pipe (not shown) for evacuation medium and inside a connection opening 5 there is a valve chamber 6 with a substantially larger diameter than said opening 5. The valve chamber is delimited radially by a wall 7, which has a number, preferably three slots 8 open at the end edge 9 of the wall and extend a bit axially in the direction of the opening 5.

Outside the wall 7, a guide ring 10 is slidably arranged with axial slots 11 closed at the ends and of limited length. The slots 11 are arranged peripherally flush with the slots 8.

Outside the guide ring, a counter-pressure ring 12 is suitably arranged, suitably with an L-shaped cross-section, and between its projecting flange portion 13 and a stop at the distal end of the valve housing part 1, a spring 14 is clamped. The counterpressure ring is displaceable in the direction of the distal end of the note 14 towards the action of the spring 14.

Instead of a single spring 14, as can be seen from the drawings, a number, preferably three springs 14a, can be arranged. These springs fulfill the same function as the spring 14.

The so-called cylinder part 2, like the valve housing part 1, has a central opening 15 for interconnection with a line. The central opening is closed inwards by a seat 16 where an O-ring type sealing ring 17 is arranged. The passage or cross-sectional area at the seat 16 is considerably smaller than the cross-sectional area of the valve housing part 1. In the part of the valve housing part 1 facing the valve housing part 1, in addition to a profiling 9b mating with the valve housing part 9a, there are two annular axially grooved axial grooves 18 and 19.

The cylinder grooves 18 and 19 are thus open in the direction of the valve housing part and in their otherwise closed opposite ends provided with connection holes or openings 20 and 20, respectively. 21 for pressure medium. In an annular piston one piston device 22 resp. 23.

Each of the annular piston devices suitably comprises a sealing ring 24 and 25 arranged closest to the closed top end of each cylinder made of elastic material and having a recess 26 and 27 facing said cylinder end, respectively, arranged so that K: \ Patent \ 1 100- \ 1 l005 \ l 10054300se \ 020226revbes.doc 10 15 20 25 30 521 7so.§ ~ äïf: ß '5 the wall sections 28, 29 on both sides have a decreasing thickness towards the end and thus function as piston seals. The sealing rings 24 and 25, respectively, abut and support rigid ring pistons 30 and 31, respectively, which are arranged to co-operate with the valve body, which in the embodiment shown consists of the valve disc 32 in the manner shown in the following.

The valve disc has a diameter which is far below the free diameter in the valve chamber 6, which means that, when the disc 32 is displaced from the seat 16, a passage for the gas or medium to be controlled arises along the edges of the disc 32. The disc 32 can be constructed in different ways and has a stop edge 33 intended to cooperate with the seat 16, at the cylinder part 2.

At the periphery of the disc, three stop pins 34 are attached, for example through threaded holes in the disc periphery or an edge part enclosing it. The stop pins 34 extend through the slots 8 in the wall 9 and through the slots 11 in the guide ring 10. The outer ends of the stop pins will abut against the side of the back pressure ring 12 facing away from the spring 14 and will thus also strive to hold the valve disc in abutment with the seat 16.

By introducing pressure medium into, for example, the inner cylinder 19, the annular piston 23 is caused to be displaced in the direction of the valve housing part. The outer part of the piston, i.e. the ring piston 30 and 31, respectively, then comes into abutment against the stop pin 34 of the valve disc and displaces the valve disc away from the position of the valve 14 away from its position engaging with the seal 16, whereby the passage is opened.

When the control medium pressure ceases, the spring 14 will return the valve disc to a sealing abutment against the seal 16.

In cases where it is desired to maintain a minimum or fixed flow even in cases where full flow is not required, pressure medium can be introduced into the outer cylinder 18, the piston 22 engaging the outer ends of the stop pins 34 and displacing the valve disc away from the sealing. the situation. When the desired flow position has been reached, the pressure medium supply can be closed, whereby the trapped media volume forms a barrier against the recirculation of the piston and thus the complete closure of the valve.

An adjustment of the possible movement of the valve disc 32 in the opening direction can also be effected with the aid of the adjusting screw 35. By internally unscrewing the screw 35 in the end of the valve housing part, the achievable end position of the guide ring 10 can be determined.

The valve device can, as already mentioned, be operated and adjusted by means of pressure medium.

This usually consists of air, but of course you can think of other pressure media. The actual actuator can be manual or self-acting, ie be connected to the relevant extraction unit in such a way that the valve is opened when there is a need for extraction. In the case of anesthetic masks, for example, the actuator can be allowed to be actuated by the valve means which controls the supply of anesthetic gas. In the case of diathermy instruments, for example, the actuator for the valve can be controlled inductively from the actuating current for the instrument. The same applies to laser tools and other instruments powered by electricity. The actuator may comprise a manual part and an automatic one, the former directing the pressure medium to the valve cylinder which acts on the piston which determines the end position of the valve disc, i.e. which determines whether minimum flow is to take place and its size.

K: \ Patent \ l 100- \ l l0054300en \ 020226revbes.doc 521 730 List of reference numerals 1 valve housing part 2 cylinder part 3 jacket 4 end plate 5 connection opening 6 valve chamber 7 wall 8 slots 9 end edge of wall 10 guide ring ll slots, axial 1 2 counterpressure ring 13 fl end portion 14 spring, (three pieces) 15 central opening 16 seat 17 sealing ring 1 8 cylinder grooves 19 cylinder grooves 20 connection holes 21 connection holes 22 annular piston device 23 annular piston device 24 elastic sealing ring 25 elastic sealing ring 26 recess 27 recess 28 wall portions 29 wall portions 30 rigid ring piston 30 32 valve disc 33 stop edge or portion 34 stop pin 35 adjusting screw

Claims (2)

10 15 20 25 30 Patent claims Device at the valve, comprising a valve housing (1) with a valve chamber (6) with connection openings (5 and 15, respectively) and with a valve body (32) displaceable in the valve chamber, which has a circumferentially projecting edge portion arranged at a radially projecting edge portion abutment or edge portion (33), which portion at the displacement of the valve body is arranged to reach a sealing engagement position at an opposite seat or abutment (16) of the valve housing and to reach flow-permitting positions at a distance from said seat (16), the valve chamber (6) , has a larger cross-sectional area than the valve body (32) so that between the lateral abutment or edge portion of the latter and a valve chamber (6) substantially radially delimiting wall, a flow passage (P) occurs when the abutment or edge portion (33) is spaced from the opposite seat or stop (16), characterized in that at a portion (2) of the valve housing surrounding the valve housing at one of the connection openings (15) arranged at least one cylinder (18 or 19) arranged as an axial annular groove, the end of which facing from the opposite second connection opening (5) of the valve chamber, apart from connection holes (20 or 21) for pressure medium, is closed, while the other end of the annular cylinder opens against a space arranged radially outside the valve chamber (6), that in the axial annular cylinder (18 or 19) an annular piston or piston device (22 or 23) is arranged that when introducing pressure medium into the annular cylinder through the connecting hole (20 or 19) 21) at the otherwise closed end of the cylinder, is displaced from said top end to slide with its opposite end into the space located radially outside the valve chamber (6), that the valve body (32), which is suitably disc-shaped, is provided with a number of substantially radii. ... ir n the same projecting abutment pin (34), which is delimited by slit-like openings (11) in a valve chamber (6) from the space located outside it protruding wall (7), protrudes therein, K: \ Patent \ l l00- \ l l0054300se \ 020306revkr.doc 10 15 20 25 30 521.75oi3 arranged to engage the stop pins (34) and thereby displace the valve body or disc (32) from its position engaging the seat or stop (16) and that the spring means (14) is designed to actuate the stop pins (34) in the direction opposite to that in which it the annular piston (22 or 23) acts to displace the valve body or disc (32) back towards its valve closing position when eliminating the influence of the pressure medium in the annular cylinder (18 or 19) on the piston or the piston device (22 or 23). Device according to claim 1, characterized in that in the one portion of the valve housing surrounding one of the connection opening (15) are arranged concentrically located axially annular grooves (18 and 19) serving as cylinders, that in each of these annular grooves are arranged a similarly annular piston or piston device (22 and 23, respectively), that the pistons (22 and 23, respectively), by introducing pressure medium into the respective annular cylinders, apart from the connection holes (20 and 21, respectively) for pressure medium supply, closed ends, can be moved separately to engagement with the stop pin (34) of the valve disc (32) and that the device is such that one piston of the cylinder is used by displacing the valve body or disc (32) to a certain position to determine a standing minimum flow passage (P) past the stop portion or edge (33) and the seat (16) by enclosing the pressure medium after supply of a predetermined amount in the cylinder, while the piston of the second cylinder geno m of supply of demand-adapted amount of pressure medium is used for displacing the valve body or disc (32) from the closed or determined position to the full flow-allowing position. Device according to Claim 1 or 2, characterized in that a stop means is arranged at the valve housing by means of a screw device or the like, in the axial direction displaceable stop means for determining the end position of the valve disc (32) when opening the same. K: \ Patent \ l 100- \ l 10054300se \ () 20306revkr.doc