The present invention relates to a valve body comprising:
The invention also relates to a valve having such a valve body, to a device for mixing the constituent ingredients of a composition comprising such a valve, and to the use of such a mixing device for producing cosmetic, pharmaceutical or agrifoodstuffs products.
In a known way, certain stages in the manufacture of compositions, such as cosmetic, pharmaceutical, agrifoodstuffs, chemical, etc. products entail the mixing of constituent ingredients and, commonly, the prior introduction of a fluid which may be a liquid and/or a solid in another fluid of the liquid type and/or may be a solid in a phase of agitation, into a mixing vessel.
In the frequently encountered scenario where solid substances are being introduced into a liquid, these substances are incorporated in the form of granules or powders by vacuum suction. To do this, a valve that can be used to regulate the opening and closing of the mixing vessel connects the latter to a reservoir containing the granules (or the powder).
A solid substance is introduced by maintaining a vacuum in the vessel so that the granules (or the powder) pass (passes) through the valve without the fluid, generally a liquid, present in the vessel escaping therefrom. The opening and closing of the vessel so that solid substances can be introduced is therefore performed using a valve which has a valve body having a seat designed to be alternately opened and shut off by a shutter, generally actuated using pneumatic means.
However, in known valves, the numerous openings/closings of the valve leads to a build up of granules or powder in the valve body and this build up has a tendency to jam the valve, preventing the seat of the valve body from being completely shut off and/or preventing correct sealing from being achieved at the seal upon closure. It therefore follows that the seat of the valve body is not completely shut off and/or sealed and that the liquid contained in the mixing vessel flows into the valve body (under a suction effect due to the vacuum present in the vessel) and forms undesirable lumps in the end product. This incident may lead to a loss of the composition that is being prepared, and this has disastrous consequences on the industrial manufacture while at the same time also entailing significant plant maintenance.
Specifically, in order to avoid this build up of substance in the valve body and, in particular, on the seals situated on the shutter, it is known practice for the seals to be changed, and for this to be done up to two or three times per day, and for the valve body to be cleaned. This changing of the seals leads to a systematic halt in production, but also carries a mechanical risk and a risk of reducing the quality of what is being produced.
This kind of problem is common to the cosmetic, pharmaceutical and agrifoodstuffs industries, all of which use this principle of the introduction of fluid under vacuum, particularly in the bottom of the vessel.
It is an object of the invention to provide a valve body which retains all the advantages of the principle of introducing fluid using a vacuum, particularly in the bottom of the vessel, with improved effectiveness of the suction and improved reliability of the sealing with which the valve body is shut off by the shutter upon closure, thus reducing any risk of blockage of the latter.
This object of the invention is achieved through the fact that the secondary duct of the valve body comprises a restriction at the junction between the secondary duct and the main duct.
In various embodiments of the valve body according to the invention, recourse may also possibly be had to one and/or other of the following provisions:
The invention also relates to a valve comprising such a valve body having a moving shutter designed selectively to shut off and to open the seat of the valve body and an actuating mechanism designed to actuate the shutter.
The invention also relates to a device for mixing the constituent ingredients of a composition, comprising such a valve, a mixing vessel and a vacuum pump, said mixing vessel being connected to said vacuum pump and to said valve. The valve is preferably connected to the mixing vessel situated above said valve, the junction between the main duct and the secondary duct being positioned below the seat of the valve body and the secondary duct extending downward from said junction.
The invention also relates to the use of such a mixing device for producing cosmetic, pharmaceutical or agrifoodstuffs products. Said products may in particular be produced in the form of a gel, a cream, a foam, a paste or a lotion.
The invention will be clearly understood and its advantages will become better apparent from reading the detailed description which follows of some embodiments which have been given by way of nonlimiting examples.
The description refers to the attached drawings, in which:
The valve body 16 comprises a main duct 24 extending along a first axis X-X′ and passing through the seat 18, and a secondary duct 26 opening into the main duct 24 at a junction 28 dealt with in greater detail later, and extends along a second axis Y-Y′ not parallel to the first axis X-X′, preferably toward the actuating mechanism 22 (in the opposite direction to the mixing vessel 14). In this particular instance, with the mixing vessel 14 arranged above the valve, the secondary duct 26 extends downward in
The second axis Y-Y′ of the secondary duct 26 makes with the first axis X-X′ of the main duct 24 an angle preferably of between 20 degrees and 90 degrees, more particularly of between 20 degrees and 70 degrees and, in this particular instance, as illustrated in the figures, advantageously makes an angle α of around 55 degrees.
The shutter is, in the known way, a valve shut-off element of hemispherical shape 20 arranged in the valve body 16, so that it can slide in the main duct 24 along the main axis X-X′ in order selectively to shut off and to open the seat 18 of the valve body 16, which in this particular instance is a straight seat. The actuating mechanism 22 designed to actuate the valve shut-off element 20 is, in the known way, of pneumatic or electrical type.
Sealing means, in this instance a seal 19, is arranged on the valve shut-off element 20 to guarantee sealing of the seat 18 of the valve body 16 when the valve shut-off element 20 is shutting off the valve 12.
As better illustrated in
Upstream of the deflector 30, that is to say near the reservoir, the secondary duct 26 has a bore section S which is partially shut off by the deflector 30 near the junction 28. In this particular instance, the deflector 30 shuts off between 20 and 40% of the bore section S, and in particular, shuts off around 30%.
The size of the deflector 30 can be chosen so that the latter conceals the valve shut-off element 20 when it is in its open position. In such a case, aside from the turbulence generated in the secondary duct 26 by the deflector 30, the latter prevents fluid from building up upstream of the valve shut-off element 20. It therefore follows that the sealing means and, in particular, the seal 19, have a far longer life and the repeatability of the product series produced using the device is markedly improved. Specifically, it will be understood that because the fluid does not incorrectly remain present in the valve body, the seal 19 guarantees sealed shutting-off of the valve 12 for longer.
The main duct 24 is delimited by a pipe 32 that has an interior surface S32 that is substantially cylindrical about the axis X-X′. In a way that is known for allowing the valve shut-off element 20 to slide in the pipe 32, the dimensions of the valve shut-off element about the axis X-X′ are chosen so that its hemispherical exterior surface is of a size slightly smaller than that of the pipe 32.
However, in order to improve the cleaning of the valve body, the cross section (perpendicular to the axis X-X′) of the exterior surface of the valve shut-off element 20 may be chosen so that it is of a far smaller size in relation to that of the pipe 32. By way of example, a clearance (perpendicular to the axis X-X′) between the exterior surface of the valve shut-off element 20 and the pipe 32 may be of the order of several millimeters, for example of the order of 4 mm to 15 mm, and preferably of the order of 10 mm.
Furthermore, such a clearance between the valve shut-off element 20 and the pipe 32 thus allows the few granules or particles of powder which might nonetheless have built up upstream in the valve body to be sucked toward the mixing vessel 14 at the end of suction.
The deflector 30 is arranged in the continuation of the interior surface 32 so that it extends into the junction 28, as illustrated in
Referring to
The deflector 30 is preferably semicylindrical and extends either parallel to the first axis X-X′ or at an angle with respect to said first axis X-X′ toward the inside of the secondary duct 26. When inclined, the deflector 30 makes an angle of inclination β with the first axis X-X′, preferably of less than 20 degrees.
In
The deflector 30 may be a component attached to a main body delimiting at least one of the two main 24 and secondary 26 ducts being fixed, preferably by welding, to said main body, the valve body 16 according to the invention comprising said main body and the deflector 30.
The valve 12 according to the invention is particularly well suited to a device for mixing the constituent ingredients of a composition produced from solid substances mixed with liquid substances. By way of example, the powders sucked into the mixing vessel 14 via the valve 12 may be gelling agents, active ingredients, preservatives and mixtures thereof, and the liquid contained in the mixing vessel may be an aqueous phase, an oil phase, to manufacture a gel, a cream, a foam, a paste or a lotion.
The use of such a mixing device 10 according to the invention in particular makes it possible notably to produce cosmetic products that are obtained from a mixture of solid products, in this particular instance, in the form of granules or powder in a liquid.
Number | Date | Country | Kind |
---|---|---|---|
0852582 | Apr 2008 | FR | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/FR2009/050697 | 4/15/2009 | WO | 00 | 10/15/2010 |