This application is the National Stage of PCT/EP2021/063670 filed on May 21, 2021, which claims priority under 35 U.S.C. ยง119 of Belgium Application No. BE2020/0063, filed on May 22, 2020, the disclosure of which is incorporated by reference. The international application under PCT article 21(2) was not published in English.
The invention concerns a valve for a container for dispensing pressurized fluid, said valve comprising a housing which is mounted on a valve cup, a hollow stem provided in a passage of the housing which stem has at least one lateral inlet opening at its lower end and an outlet opening at its upper end.
Valves for containers are known.
CA 2 682 061 C describes a valve for a container. The housing of this valve has a circumferential step like contour line and the inner end of the valve cup ends horizontally at the base of the outer lower part of the housing where it is rigidly connected to the base of the housing. The inner part of the valve cup is inserted into the structure of the housing below the lower part thereof.
DE 10 2008 019 224 B4 also concerns a valve assembly for a pressurized fluid container of this type. The housing of this valve has a circumferential step-like contour line with a circumferential protrusion on the outer lower part of the housing against which abuts the vertical inner part of the valve cup.
EP 1 004 523 A1 discloses a valve which fits a container containing a product pressurized by a propellant gas. The valve comprises an elastomer valve body. It has activation members which in response to an activating control move the valve from a closed to an open position allowing dispensing of the product through an outlet passage. The valve body has first mounting members which enable it to be mounted in a first position in which the valve body defines with an edge of the container a passage in communication with the container so as to allow filling the container with a propellant gas. Second mounting members enable the valve to be mounted in a second position in which the valve body is sealed on the container edge. U.S. Pat. No. 6,425,503 A concerns a valve for a pressurized dispensing container that has one or two dispensing openings through the wall of the valve stem. A dispensing nozzle with an actuating handle has a predetermined alignment with the opening or openings in the valve stem so that actuation of the nozzle will assure that one and only one full opening is presented to the product during dispensing. This keeps the leg or wall area between openings out of the path of the product being dispensed and avoids the build-up of fiber that tends to clog the opening. A small retaining wall between the valve seat.at the bottom of the valve stem and the lower edge of the opening or openings provides a wall that prevents the flexible rubber-like seal from being distorted under pressure and setting in a position where it blocks the opening when product is to be dispensed.
U.S. Pat. No. 4,165,825 A discloses a tiltable valve apparatus for use with pressurized containers in which the valve member is constructed of resilient material and includes a hollow shank with a substantially rigid reinforcing plug therein so that the valve stem can be tilted without bending when pressure is applied to one side for dispensing material from the container.
EP 1 004 523 A1 discloses a valve intended to be fitted to a container containing a product which is pressurized by means of a propellent gas, comprising a valve body made of an elastomeric material and activation means for, in response to an actuation command, causing the valve to move from a closed position into a position which allows the product to be dispensed via an outlet passage of the said valve body, the said valve being, in the absence of any actuation command, forced into the closed position, wherein the valve body comprises first mounting means to allow the valve to be mounted in a first position in which the valve body defines, with an edge of the container, at least one passage allowing communication between the inside and the outside of the container, so as to allow the container to be filled with a propellent gas, and second mounting means, to allow the valve to be mounted in a second position in which the valve body is mounted in a sealed fashion on the said edge of the container.
DE 10 37 377 B discloses a tilt valve for a spray container having a tube-shaped valve body placed in an elastic valve housing.
The known valves for containers have in common that they are difficult to seal because of the relative motion of the stem and the housing of the valve.
It is an object of the present invention to provide an optimized valve for dispensing pressurized fluids.
This object is achieved according to the invention by a valve in which the lower end of the stem is ball-shaped and forms a ball joint with a correspondingly ball-shaped ball socket being part of the housing, wherein the upper part of the housing is provided with sealing means and the stem is tiltable between a closed position and an open position and in that the stem is provided with a sealing part that abuts the sealing means of the housing.
The lower end of the stem is situated inside the container when the valve is mounted onto the container. This lower end of the stem is ball-shaped, which means that it has at least a spherical segment in the contact area with the socket. The ball-shaped part of the stem fits snugly in a correspondingly shaped socket. The socket has a negative shape which allows a surface contact with the corresponding positive shape of the stem so that the stem can tilt in the socket while a surface contact between the stem and the socket is maintained.
The main advantages of these measures are the following. The pivot point of the stem is fixed in the center of the ball shape. Due to this fixed position of the pivot point, less force is needed by tilting the stem to open the valve. No filling material of the container has to be forced away to open the valve, allowing an opening of the valve by a lower force. As another advantage, the elastic sealing means of the housing allow a deformation of said sealing means when opening the valve by also providing a force to push back the stem in its closed position.
As an advantage, there is no relative movement of the stem and the housing when the valve is put into an open position by tilting the stem. Therefore, no additional sealing against the entering of water vapor or the loss of filling material of the container or gas is required.
Additionally, the elastic sealing means abut the stem while tilting to ensure a sealing of the valve in all tilting positions of the stem. There can be one or several inlet openings at the lower end of the stem. In the closed position of the stem which is made of hard plastic material abutting against the ball socket of the housing which is also made of hard plastic material closes the inlet openings. This results in a lower gas loss than valves using a rubber sealing and inhibits water vapor from entering the container. This is advantageous, since it is known in the field of dispenser valves that water vapor entering the container can deteriorate the content of the container and lead to undesirable chemical reactions thereof. In the case of polyurethane containers, the polyurethane reacts with the water vapor which leads to the sticking of the dispenser valve.
Depending on the number and position of the inlet openings, the stem can be tilted in in certain directions or in all 360 degrees to open the valve. It is also possible to arrange lateral inlet openings with different diameters around the ball-shaped lower part of the stem. In that way the output flow of material can be varied by the direction in which the stem is tilted.
The ball shape of the lower part of the stem has the additional benefit of being much stronger than a standard valve at the orifices. This allows to use non-filled material for the lower part of the stem.
It is advantageous that an accidental force on the stem, especially a lateral force on the stem, is less likely to damage the stem. The stem can be tilted in an open position by the force, while the sealing means are deformed. A vertical force on the stem deforms the elastic sealing means of the housing, thus the stem is less likely to be damaged.
According to the present invention, the stem is provided with a sealing part that abuts the sealing means of the housing.
This sealing part can be a resting area abutting the sealing means of the housing. This sealing part in connection with the elastic sealing means inhibit the loss of filling material of the container in between the stem and the housing. The resting area pushes against the elastic sealing means of the housing while tilting the stem. As an advantage the sealing means can perform a force on the stem to push the stem into its closed position.
According to a further preferred embodiment, the stem is displaceable between a closed position and an open position and the stem is pushed in the closed position by means of the sealing means pushing against the sealing part of the stem.
The stem can be pushed into an open position by a vertical force on the stem. By pushing down the stem, the sealing means is deformed, and the lateral inlet openings of the ball-shaped lower end of the stem are opened by displacing the stem from the ball socket of the housing. This can be used for the filling of the container with material.
Furthermore, according to the present invention, the sealing means are provided with recesses.
These recesses reduce the force needed to tilt the stem. It also inhibits the loss off filling material and gas of the container and the entering of water vapor into the container while the sealing means are deformed.
According to a further embodiment of the present invention, the upper part of the stem is provided with a thread.
The thread allows an easier mounting of the valve to an actuator.
According to a preferred embodiment of the invention, the valve cup is crimped around the housing wherein the valve cup is positively connected to the sealing means made up of an elastic material.
This means that the valve cup is deformed with a crimping tool around the housing in order to fix it to the housing. The crimping tool may have indentations in order to improve the quality of crimping. Due to the mechanical tension which occurs during the crimping step, the sealing is fixed between the housing and the valve cup and at the same time around the stem. The crimping step which fixes the valve cup to the housing also confers a higher solidity to the valve cup.
According to another preferred embodiment of the invention, the housing is of one piece of plastic and welded onto the cup and the sealing part of the stem is welded to the sealing means of the housing.
The invention also provides a new method of producing a valve according to the invention according to which the housing is welded by ultrasonic welding onto the cup and the sealing part of the stem and the sealing means of the housing are connected by laser-welding.
In this context, it is preferred that the stem is made of a material absorbing a maximum of laser energy, whereas the housing is made of a material that allows the laser beam to traverse the housing and heat up the area of the sealing part of the stem and the sealing means of the housing where the laser welding occurs.
The material of the stem can be e.g. black plastic and the material of the housing could be either semi-transparent (opaque) or transparent in order to allow the laser beam to traverse the housing.
In the following, the invention is discussed more in detail with reference to a preferred embodiment shown in the drawings in which
The
The valve 1 comprises a housing with a ball socket 7 and sealing means 8 made up of an elastic material and in positive connection with the valve cup 2. The stem comprises a ball-shaped lower end 6 forming a ball joint with the ball socket 7 of corresponding shape. The stem 3 has at least one lateral inlet opening 5 at its lower end 6 and an outlet opening 4 at its upper end forming a passageway for the filling material of the container. The stem has a sealing part 9 that abuts the sealing means 8 and inhibits the loss of filling material and gas and the entering of water vapor into the container in between the housing and the stem 3. The sealing means 8 show multiple recesses 11 which allow an easier deformation of the sealing means 8 when the stem 3 is tilted or pushed in its open position.
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Preferably, the housing is welded by ultrasonic welding onto the cup 2.
The sealing part 9 of the stem 3 and the sealing means 8 of the housing are preferably connected by laser-welding. In this case, the stem 3 is preferably black in order to absorb a maximum of laser energy, whereas the housing is semi-transparent (opaque) or transparent so that the laser beam can traverse the housing and heat up the area of the sealing part 9 of the stem 3 and the sealing means of the housing where the laser welding occurs.
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Number | Date | Country | Kind |
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BE2020/0063 | May 2020 | BE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2021/063670 | 5/21/2021 | WO |