DE2946814A1 - Fluid dispensing device in pressure vessel - has housing defining metering chamber closed by flexible diaphragm connecting with discharge valve - Google Patents

Abstract

The pressure vessel contains fluid or paste and equipped with a manually operable discharge valve (26) and spring-biassed to a closed position. A dispensing device allows a metered amount of the product to reach the discharge valve on operation. It comprises a housing (16) defining a metering chamber (50) which is closed by a flexible diaphragm (54) and can communicate with the discharge valve (26) by way of a connecting passage (52). A piston and valve rod are disposed between the vessel interior (18) and metering chamber (50) are adapted to be closed when the discharge valve (26) is opened to expel the metering chamber contents and to be opened for replenishing the metering chamber when the discharge valve is closed.

Description

Dosing valve

The invention relates to a metering valve for dispensing a liquid or pasty product from a container enclosing a pressure chamber with a valve body with a valve that is held in the closed position by a spring and is in the closed position against the pressure thereof Opening position is movable, and with a chamber which is connected via channels to the valve and to the pressure chamber and has a side lying in this. which by a electric fish, The membrane, which is tensioned in the rest position and which can be pressed into the chamber, is closed.

A metering valve of this type has already been proposed. It will be for One and two-chamber cans are used. Single chamber cans are also under the name Aerosol container known. They have the product and a propellant in one sturdy container included. A two-chamber box, on the other hand, consists of one stable outer container and an elastic Beudtel held in it. The elastic one The bag contains the product and the propellant gas is in the space between the bag and the sturdy container. In both cases the product will open upon opening of the valve by the propellant gas mixed with it or alone from the container expelled. When using normal valves, the expelled volume depends on the essentially depends on the opening time of the valve. In general, the valves opened by simply pressing. This easy handling stirred often results in the valve being kept open too long and too much product being expelled will. This means that product is wasted. When using the proposed metering valve on the other hand, regardless of the opening time, only a precisely measured volume is dispensed. This prevents waste and makes therapeutic use easier. The volume released is equal to the content of the elastic membrane locked chamber. In the rest position, this fills with the pressure chamber via one of them connecting channel. When the dosing valve is operated or opened, this channel becomes closed and a channel connecting the chamber to the valve is opened. This connects the chamber with the atmosphere.

This means that there is atmospheric pressure in the chamber. That pressure lies lower than the pressure in the pressure room. This higher pressure prevailing in the pressure chamber now pushes the membrane into the chamber. The contained in this Product pushed into the channel and out through the valve. This process ends as soon as the entire contents of the chamber are expelled and the membrane is attached rests against the inner wall of the chamber. That means that only the exact volume to be measured the chamber is released regardless of the opening time of the valve. During the subsequent Letting go and thus closing the dosing valve will also open the chamber with the Channel connecting valve closed. The channel connecting them to the pressure chamber will open again. Product flows into the chamber through this channel until the Membrane has found its tense rest position again and on both sides the same pressure prevails.

This known metering valve is designed as an integral component. The housing enclosing the chamber is integral with the housing of the metering valve educated. The pistons or slides that slide in the channels and open them and close, are connected to the spray head of the valve. This complicates and makes the production more expensive, especially since certain tolerances in the production of the Channels and the slide must be adhered to. After all, this valve is can also only be used as a metering valve and cannot be used in a simpler one design type can be used where dosing is not required.

Proceeding from this, the task at hand for the present invention is to create a metering valve that has a self-contained component and that can be easily connected to a normal dispensing valve, that a total of a metering valve is created. The proposed principle of Volume measurement by using a chamber that is closed with a membrane is to be retained.

The solution to this problem arises according to the invention in a Dosing valve of the type mentioned or proposed in that the Chamber can be plugged onto the valve body and in which it connects to the pressure chamber Channel a valve opening towards the chamber is arranged, the restoring force the diaphragm is above the closing force of this valve.

According to the invention thus form the chamber with the one that closes it The membrane and the valve that connects it to the pressure chamber are self-contained separate component. As such, it is applied to the valve body of a conventional dispensing valve or aerosol spray valve attached. This turns this into a metering valve. in the In contrast to the proposed metering valve, the channels are also omitted the control slide between the chamber and valve, which can be moved in them, on the one hand and chamber and pressure space on the other hand. This significantly simplifies the manufacturing process and cheaper. The only fit made to a tight tolerance must, is the plug connection between the chamber and the valve body. The dimensions of this Plug connections are larger than the dimensions of the existing ones in the proposed valve Channels and control spool.

Therefore, they are easier to adhere to.

The dosing valve according to the invention works as follows: As a result of their Elasticity and internal tension, the membrane assumes its tensioned position at rest. In this rest position, the chamber has her maximum volume. Be it assumed that it is filled. The dispensing or spray valve is now opened or actuated. This connects the chamber to the atmosphere. This comes about the pressure on the pressure chamber side of the membrane takes effect and pushes it into the chamber. The membrane pushes the chamber contents out of this and lies down finally to the inner wall of the chamber. Up to this point the chamber is volumetric and only the chamber volume is released. A further opening of the dispensing valve remains without effect. During this dispensing process, the valve remains between the chamber and Pressure chamber closed. Its closing force is sufficient to cope with the small pressure difference between the higher pressure in the pressure chamber on the one hand and the slightly lower one Pressure in the chamber during its connection to the atmosphere during the dispensing process balance and outweigh. After submitting the contents of the chamber, the submission or the spray valve is released and closes. The connection of the chamber to the atmosphere will be interrupted. Now comes the inherent elasticity or restoring force of the membrane to the effect. It returns to its resting position. In doing so, it detaches itself from the inner wall the chamber and its volume increases. The restoring force of the membrane exceeds the closing force of the valve. It is also higher than that caused by the pressure in the pressure chamber force exerted on them. Now the valve opens between the pressure space and the chamber. The product flows from the pressure chamber into the chamber and fills it. In the end the just mentioned initial state is reached, in which the membrane is stretched and the chamber is full. On both sides of the between the pressure space and the chamber lying valve, the pressure is now the same again. As a result of its closing force it now resumes its closed position. When actuating and opening the dispensing or spray valve, the dispensing process just described starts again.

Appropriate refinements are characterized in the subclaims.

Using the example of the embodiment shown in the drawing the Invention now further described. In the drawing: Fig. 1 is a side view, partly in section through a first embodiment of the metering valve, Fig. 2 shows a partial section through an embodiment of the valve between the pressure chamber and Chamber, Fig. 3 is a partial section through another embodiment of the valve between Pressure space and chamber, Fig. 4 is a partial section through yet another embodiment of the valve between the pressure space and chamber and FIG. 5 shows a representation accordingly Fig. 1 during the dispensing or emptying process.

1 shows the valve body 12 of the conventional dispensing or spray valve. It is located in the pressure chamber 14. This is with the product, a liquid or pasty mass filled. He is under pressure. The pressure chamber 14 is up by the container cover 16, also called valve plate, closed. To the valve body include a cylinder 18, a closure member 20, a sealing washer 22, a spring 24 and a spray head 26. This corresponds to a conventional design. To the cylinder 18 a connecting piece 28 is attached. It encloses the channel 30. This leads to the chamber 32. This is located in the housing 34. Downwards or to the pressure chamber 14, it is through the membrane 36 completed. At its lower open end, the housing 34 an edge 38 on. This overlaps the membrane 36 with a bead 40. Between Pressure chamber 14 and chamber 32 is the valve 42. It consists of the nozzle-shaped Housing 44.

The valve seat 46 is formed in this. In the shown closed position the valve closing member 48 rests against the valve seat 46. A spring 50 pushes it in the shown closed position.

The spring 50 is supported on an abutment 52. This one has the Form of a simple, pressed into the housing 44 Disc. This disc has an opening. This forms the channel 54 between the chamber 32 and the pressure space 14.

In Fig. 2, the valve already shown in Fig. 1 is easy in a Modified embodiment shown. The modification is that the Valve housing 44 has a protruding edge 56 at its inner end. This lies in a recess in the housing 34 and is there by a protruding Edge 58 held. In the embodiment of the valve shown in FIG. 3 there is this from a simple elastic holding part 60 with a plug-shaped valve closing member 48.

This lies in an opening 62 in the wall of the housing 34.

In the embodiment shown in FIG. 4, the valve closing member is 48 a simple sealing washer. This is carried out with a through the opening 62 Rod 64 connected. On this sits a divider 66. This forms the abutment for the spring 50. The valves, regardless of their embodiment, can be attached to any Place of the housing 34 are arranged. It is important that their closing force is something is under the restoring force of the diaphragm 36 so that it can fill the chamber 32 opens. Otherwise, there are no special requirements for the construction of the valve 42 Requirements. The embodiment according to Fig.

2 can be glued in or pressed in.

Fig. 5 shows the metering valve during emptying. The spray head 26 is pressed in the direction of the arrow. The closure member 20 has moved from the sealing washer 22 removed. The chamber 32 is connected to the atmosphere. The one on the pressure chamber side The pressure prevailing in the membrane, which exceeds the atmospheric pressure and now to the Effect can come, this has already driven into the housing 34. Included has the membrane 36 expressed the contents of the chamber 32 from this and over the Channel 30 into the cylinder 18 and from there in the direction of the arrows further drawn driven into the spray head 26. This dispensing and emptying process ends as soon as the membrane 36 rests completely on the inside of the housing 34. The valve 42 is kept closed by the spring 50 during this emptying process.

After emptying, the spray head 26 is released. The spring 24 presses the closure member 20 against the sealing disk 22 in the closed position. Now comes the inherent elasticity and restoring force of the membrane 36 to the effect. Moves you in their rest position shown in Fig. 1. The valve 42 opens. From the pressure chamber 14, the product flows through the channel 54 into the chamber 32. It surrenders Final state shown in FIG. 1.

The chamber 32 is filled with product and the metering valve for further Delivery of a measured amount ready.

Claims (8)

AnsPrilche 1. Dosing valve for dispensing a liquid or pasty Product from a container enclosing a pressure space with a valve body with a valve that is held in the closed position by a spring and against its Pressure is movable in the opening position, and with a chamber that has channels with the valve and is connected to the pressure chamber and a side lying in this has, which by an elastic, tensioned in the rest position and can be pressed into the chamber Diaphragm is closed, characterized in that the chamber (32) on the valve body (12) and in the channel (54) connecting it to the pressure chamber (14) valve (42) opening towards the chamber (32) is arranged, the restoring force the membrane (36) is above the closing force of this valve (42). 2. Dosing valve according to claim 1, characterized in that the The valve body (12) has a cylindrical end at its end located in the pressure chamber (14) Has nozzle (28) and a chamber (32) enclosing the housing (34) with narrow Fit can be pushed onto this. 3. Dosing valve according to claim 1 and 2, characterized in that the valve (42) at any point of the housing (34) between that of this enclosed chamber (32) and the pressure chamber (14) is arranged. 4. Dosing valve according to claim 1 to 3, characterized in that the valve (42) is a channel formed in the housing (34) of the chamber (32) (54) enclosing valve housing (44), in the channel (54) a valve seat (46) is formed, a valve closing member (48) in the channel (54) displaceable and is pressed against it by a spring (50). 5. Dosing valve according to claim 4, characterized in that the valve housing (44) is fitted into an opening in the housing (34) of the chamber (32) and with a projection (56) abuts a corresponding projection (58) from the Housing (34) protrudes into the opening. 6. Dosing valve according to claim 1 to 3, characterized in that the valve (42) from a fixed on the inside of the housing (34) and a There is opening (62) in this covering flexible holding part (60). 7. Dosing valve according to claim 6, characterized in that the holding part (60) has a nub that extends into the opening (62). 8. Dosing valve according to claim 1 to 3, characterized in that the valve (42) from a from the inside of the housing to an opening (62) in this contacting plate-like valve closure member (48) there is one with this connected rod (64) passed through the opening (62) and at its end a Plate (66) is attached, a spring (50) between this and the outside of the Housing (34) is and the valve closure member (48) holds in the closed position.