DE2236068A1 - VALVE FOR AEROSOLS - Google Patents

Description

Valve for pressurized gas packs

The invention relates to a valve for pressurized gas packs, with a valve housing, a valve body displaceable therein, which continues upwards in a hollow valve stem and in a constriction a valve opening leading to the stem cavity has a valve disc clamped near its outer edge, which seals the valve opening in the rest position, and a helical spring which presses the valve body upwards and which is located between a first support surface on the valve body and a second Extending support surface on the valve housing, wherein the valve housing has a guide surface cooperating with guide surfaces on the valve body.

The terms "above" and "below" used here are for description purposes only. They refer to the usual application such valves. However, the use of the valves under consideration in a different position should not be ruled out will.

In valves of the type considered here, the valve body is over the valve stem connected to a spray head. This spray head also serves to operate the valve.

409807 / QQ2:

If on the spray head as well as axial actuation forces radial forces are still exerted, e.g. B. because the upper face of the spray head is inclined to the horizontal, the valve body tilts in the housing. This can improve the functionality be affected. For this reason, measures are taken to keep the valve body in the valve housing to guide axially.

One known valve has a pair of guide surfaces provided, one of which on the outer circumference of the valve body between the constriction and the first support surface and the other on the inner circumference of the valve housing below a housing extension for receiving the inner part of the Valve seal is arranged in the filling position. Since the distance between the interacting guide surfaces and the constriction serving as the tipping point is small, there is a dependency from the play between the valve body and valve housing, a certain tilt angle that cannot be undershot. Admittedly, let the tilt angle decrease in such guide surfaces by lengthening the valve body; but this leads to a Extension of the valve housing and a corresponding cost of materials .

In another known valve, the valve body carries a guide pin at the lower end which cooperates with guide surfaces fixed to the housing below the support surface on the valve housing. The pin therefore has a length that exceeds the length of the spring. In order for this long cones can absorb loads which occur when tilting B _e, he must have a large cross section, which almost fills the entire internal cross-section of the coil spring. Since the housing must accommodate the pin even when the valve body is pressed down, the result is a large housing length with a corresponding expenditure of material.

The invention is based on the object of specifying a valve of the type described in the introduction in which the tilt angle is reduced without increasing the length of the housing.

409807/0022.

According to the invention, this object is achieved in that one of the supporting surfaces is arranged within the helical spring seat. Guide bush and from the other support surface an in this bushing protruding guide pin.

In this construction, the guide surfaces cooperate within the helical spring. This results in a smaller tilt angle than with the known guide above the first support surface. Nevertheless, no extension of the housing is required. However, the pin must have such a small cross-section that the bushing still has space between it and the helical spring. However, this is permissible within the framework of the forces that usually occur, since the pin is relatively short and usually has a length of 50-80 % of the length of the helical spring when at rest. This guidance also essentially does not require any additional material.

A second pair of guide surfaces can also be provided, one of which is on the outer circumference in a manner known per se of the valve body between the constriction and the 'first support surface * and dfe others on the inner circumference of the valve housing arranged below a housing extension for receiving the inner part of the valve seal in the filling position is. In this way, the pin can be protected from excessive loading, so that relatively small pin diameters for example 1.5 mm and less can be used. If that is to say, the normal burden willingly one Excessive force is applied, although a somewhat larger tilt angle can be achieved with a corresponding bending of the pin to be forced; however, the second pair of guide surfaces prevents the pin from breaking off.

It is particularly favorable if the hole in the guide bushing extends into the valve body or the valve housing Has extension. This enables a valve lift that exceeds half the length of the coil spring. Because the valve body above the first support surface and the valve housing below

409807/0022

the second support surface has some material anyway , the attachment of the extensions does not lead to an increase in the length of the housing.

In a preferred embodiment, the guide pin is formed on the valve housing and the guide bushing is formed on the valve body. The outer circumference of the socket can serve as an inner guide for the helical spring, while the pin does not interfere with the usual outer guidance of the spring in the valve housing.

In addition, if the extension of the hole extends close to the shaft cavity, the result is a valve body which can be injected more easily than before, since it has relatively thin wall thicknesses everywhere.

The last-mentioned advantage can be further increased by the fact that the part of the valve body having the hole extension is a cylinder and that its second guide surfaces are formed on the circumference of at least three radial vanes . In this way, the valve body is composed of relatively thin wall sections , regardless of the inner diameter of the valve housing. In addition, there is a corresponding saving in material.

The invention is explained in more detail below with reference to an exemplary embodiment illustrated in the drawing. Show it:

1 shows a longitudinal section through a valve according to the invention, FIG. 2 shows a section along the line AA in FIG. 1, and FIG. 3 shows a section along the line BB in FIG. 1.

409807/0022

A valve carrier 1 can be placed with its flange 2 on a container of a pressurized gas pack. Between an upper one End face 3 and an indentation 4 is a valve housing 5 clamped with its upper edge 6 and an elastic valve seal 7 with its outer edge 8. A valve body 9 is formed in one piece with a shaft 10 which has a cavity 11 has. A valve opening 13 extends from a constriction 12 which is sealed from the inner edge 14 of the valve seal 7. A coil spring 15 extends between a first support surface 16 on the valve body 9 and a second Support surface 17 on the valve housing 5. The support surface 17 is formed by four radial webs, between which passage openings 18 remain, which lead to the interior of a connecting piece 19 lead over which a hose immersed in the container filling can be pushed.

A guide pin 20 projects upward from the second support surface 17. It ends at a height of 75 % of the height of the helical spring 15 in the illustrated rest position. A bushing 21 projects downward from the first support surface 16 and the guide pin 20 engages in its hole 22. This hole 22 engages with an extension 23 beyond the support surface 16 into the interior of the valve body 9. The outer surface of the bushing 21 forms an internal guide for the helical spring 15. Inwardly projecting ribs 24 form in the area of the second support surface from the wall of the valve housing 5 17 an external guide for the helical spring 15.

The valve housing 5 has an extension 25 at the upper end, in which the inner part of the valve seal 7 is in the filling position sets, in the propellant is supplied through the annular gap 26 between valve stem 10 and end face 3. Below a guide surface 27 connects to this extension 25. This cooperates with guide surfaces 28 on wings 29, which are of the valve body 9 designed as a cylinder 30 protrude radially.

409807 / 00-22

When a radial force is exerted on the valve stem 10, the lower end of the guide bushing 21 lies against the Guide pin 20. The tilt angle occurring here is so small that it does not affect the function of the valve can. In the present embodiment, the pin has a length of 4 mm and a diameter of 1.5 now. Despite this small dimensions, there is no risk of it breaking off in the event of deliberately applied, excessive tilting forces. Because after one slight bending, one of the guide surfaces 28 meets the guide surface 27, which prevents any further tilting movement will.

The illustrated valve is at the same time a SchnellfUllventil, in which the valve stem 10 can be pushed downwards beyond the actuation position in which the valve seal / valve opening 13 is released. The guide surfaces provided according to the invention allow a very large valve lift, which can be greater than 50 % of the height of the helical spring in the illustrated idle state. This is possible without lengthening the individual components because the guide surfaces of the pin 20 and bushing 21 are located inside the helical spring 15 and the extension 23 of the hole 22 within the valve body 9 does not require any additional space.

Deviations from the illustrated valve are possible in many directions. For example, the cross section of the valve body 9 the space within the guide surface 27 fill in essentially completely and only have a few passage channels or flattened areas on the circumference. Should no quick filling is required, the guide surface 27 can also be guided up to the upper end of the valve housing 5.

409807/0022

Claims (1)

Patent claims Valve for pressurized gas packs, with a valve housing, a valve body that can be moved in it, which extends upwards in a hollow valve stem and in a constriction has a valve opening leading to the shaft cavity, a valve seal clamped near its outer edge, which seals the valve opening in the rest position, and a helical spring that presses the valve body upwards, which extends between a first support surface on the valve body and a second support surface on the valve housing » wherein the valve housing has a guide surface interacting with guide surfaces on the valve body, characterized in that, that from the one support surface (16) a guide bushing (21) arranged inside the helical spring (15) and from the other support surface (17) into this socket engaging guide pin (20) protrudes. 2 · Valve according to claim 1, characterized by a second Pair of guide surfaces (27, 28), one of which (28) on the outer circumference of the valve body in a manner known per se (9) between the constriction (12) and the first support surface (16) and the other (27) on the inner circumference of the valve housing (5) below a housing extension (25) for receiving the inner part of the valve disc (7) in the Filling position is arranged » 3. Valve "according to claim 1 or 2, characterized in that the hole (22) of the guide bushing (21) is one which extends into the valve body (9) or the valve housing Extension (23) has. 4. Valve according to one of claims 1 to 3, characterized in that that the guide pin (20) is formed on the valve housing (5) and the guide bushing (21) is formed on the valve body (9) ' are. 4098 0 7/0022 ™ ο ™ " 5. Valve according to claim 3 and 4, characterized in that the hole extension (23) reaches close to the shaft cavity (11). 6. Valve according to claim 4 or 5 _f, characterized in that the hole extension (23) having part of the valve body (9) is a cylinder (30) and that its second guide surfaces (28) formed on the circumference of at least three radial vanes (29) are. 409807/0022