NO148499B - HOLDER, EXAMPLE FOR FLANGE CONNECTIONS. - Google Patents

Description

Exchangeable dosing valve.

This invention relates to a replaceable dosing valve for distribution in spray form or in foam form of liquids under gas pressure or masses in paste form, e.g. cosmetics from a container fitted with a drain valve.

In recent times, liquid or paste-like masses are increasingly available in the market packaged in so-called pressure cans (aerosol-box-ser). It has been shown that the simple spray valves used in these cases, which are arranged on each container and are thrown away with the container after the container is emptied, do not satisfy the requirements when an even dosage of the liquid withdrawal from such a container is desired. Such a need exists especially in the case of cosmetic preparations.

In order to meet this need, the invention has provided a replaceable dosing valve which is distinguished by the fact that in a valve housing there is a concentrically arranged against the action of a spring axially displaceable chamber which can be inserted into the drain valve for a liquid container with the help of an insertion tube and whose internal spaces are connected to the valve body's internal space by means of an opening located opposite the insertion tube, which opening is closed by a seal when a pressure is released against the valve body in the direction of the insertion tube which induces an axial displacement in the chamber, as approximately at the same time a the chamber's arranged seal releases the drain pipe's connection with the valve housing's internal space and the opening is opened again, and the connection between the valve housing's internal space and the drain pipe is again interrupted immediately where no pressure is any longer acting on the valve housing.

The drawing shows an embodiment of a dosing valve according to the invention in section.

1, the preferably cylindrical valve housing 1 has a concentrically arranged chamber 2 which is connected to an insertion tube 3, which is designed in such a way that it can be inserted into the drain valve for a pressure box (aerosol container) not shown. On the side of the chamber 2 which is opposite the insertion tube 3, an opening 4 is arranged which connects the interior of the chamber 2 with the interior of the valve housing 1. Opposite the opening 4, a seal 6 is arranged in the valve housing 1 which closes the opening 4 when the chamber 2 is pressed against the valve housing 1 (in the upper

direction of the arrow in the drawing) against the action of a spring 5 is displaced axially in relation to the valve housing 1 (in the direction of the lower arrow). With such an axial displacement, the seal 7 arranged in the chamber 2 is lifted from the opening on the drain pipe 8, and thus a connection is established with the inner space of the valve housing 1.

A pressure that acts on the valve housing 1 in an axial direction also causes the chamber 2 in the valve housing 1 to be displaced in such a way that the seal 6 closes the opening 4. If the pressure rises further, the outlet valve in the pressure box opens, so that part of the contents of the box fills the chamber 2 When the pressure against the valve housing ceases, the pressure box's drain valve is closed and the seal lifts from the opening 4, the chamber being brought back to the starting position by the action of the spring 5. As a result, the mass present in the chamber flows through the opening 4 into the inner space of the valve housing 1.

If the pressure against the valve housing 1 is now repeated, so much of the box's contents flows out of the pressure box and into the chamber 2 that the pressure drop between the inside of the box and the inside of the chamber is equalised. At the same time, the mass in the valve housing 1 flows out through the drain pipe 8, because the seal 6 is lifted from the opening on the drain pipe 8 by displacement of the chamber 2. As soon as the pressure against the valve housing 1 ceases again, part of the mass present in the chamber 2 flows out through the opening 4 into the inner chamber of the valve housing 1 until the pressure in both chambers is equalised. The operations for filling and outflow, respectively spraying, thus coincide in time.

In this way, with each operation of the dosing valve, a predetermined amount of the contents of the pressure box is released, the volume of which depends on the pressure box's internal pressure and the dimensions of the chamber 2 and the valve housing 1. By changing one or more of these dimensions, the desired amount can for each service operation is determined in advance. If necessary, the dosing valve can be attached to any pressure box (aerosol box) where the insertion tube 3 fits onto the drain valve.

Claims (2)

1. Dosing-syringe device for attachment to the drain valve of a container containing pressurized filling material, where an intermediate chamber is alternately connected to the interior of the container and a drain channel when the device is operated, characterized in that the intermediate chamber is formed by the internal space in a valve housing (1), in which there is arranged a dosing chamber (2) which has a tightly pluggable on the container's drain valve and through the valve housing wall with a tight sliding fit completed plug-in pipe (3), which dosing chamber (2) is movable with respect to the valve housing and in the axial direction of the plug-in pipe and with the help of elastic means (5) is influenced in the direction towards the tight penetration point of the plug-in pipe, whereby a through-grinding opening (4) is arranged in the do - dosing chamber wall which is located opposite the insertion tube, by means of a sealing device (6) firmly connected to the valve housing (1) is closed in the spray position which is defined as the final position for the relative movement of the dosing chamber (2) and the housing (1) towards the effect of the elastic means, but which is open in the rest position for the device which is defined by the opposite end position of the relative movement and connects the dosing chamber (2) with the intermediate chamber, while a sealing member (7) arranged on the dosing chamber wall in the rest position closes the intake opening for the spray channel arranged on the valve housing wall, but releases this intake opening in the spray position of the device. 2. Device according to claim 1, characterized in that the valve housing (1) is essentially cylindrically designed and that the likewise cylindrically designed dosing chamber (2) is coaxially and axially movable arranged in the housing (1), whereby the insertion tube (3) is arranged axially on one of the end walls of the dosing chamber and led through an opening arranged in the adjacent housing end wall with a tight sliding fit and that the opening (4) in the dosing chamber is arranged coaxially to the insertion tube in the opposite dosing chamber end wall.