DE4119634A1 - VALVE FOR A CRUSH TANK - Google Patents

Abstract

A valve for a squeeze dispenser from which a liquid or viscous substance can be forced out by reducing the internal volume of the dispenser by pressing its flexible walls, air being capable of entering, the internal volume when the walls are released, may be economically and space-savingly designed by means of a valve plate (7) with at least one first through aperture (16) for the substance which is fitted with a first flexible valve ring and cooperates with a closure and at least one second through aperture (17) separate from the first for air which cooperates with a second valve ring.

Description

The invention relates to a valve for a squeeze container which is a liquid or creamy substance by downsizing of the interior of the squeeze container when pressing in flexible walls can be pushed out and air when resetting the Walls of the squeeze container can penetrate into the interior.

Such squeeze containers are in particular as a plastic bottle with flexible walls for numerous applications. They are suitable for the release of pasty substances such as tooth pasta, viscous substances such as body milk and shower products, as well as for low-viscosity substances such as washing-up liquid, petrol or similar .. Such squeeze bottles are regularly with one in their Bottleneck insert provided, its cross section the outlet of the usually desired dosage of substance in question is adapted. Usually in use located squeeze bottles have the disadvantage that Substance can leak out of them if the squeeze bottle doesn't stands upright, but lies or even turned upside down. For heavy-bodied substances it is for a complete one It is advisable to empty the bottle before using it on the bottle Upside down so that the substance in the  Area of the bottle neck flows. In addition, one the bottle is often not in an upright position avoid, for example when accommodating in a travel or sports bag. In all of these cases, the substance leak if the lid does not close completely because it for example, not careful in its complete closure position has been brought. This can cause serious problems convenience arises.

It has been proposed to exit into a such a squeeze container to use a valve that only opens when a certain pressure of the contained in the container Substance acts on the valve by squeezing the Walls arises. If the container just falls over or pressure Loose placing in a position in which the exit opening after shows below, the valve remains closed. Is problematic with such an arrangement that another valve is featured must be seen that the penetration of air into the interior of the Container allows for the flexible walls of the squeeze can reset the container. The air openings must but be closed when, for example, the substance an unfavorable position of the container could flow out.

The arrangement of two suitable valves in the outlet opening, for example in the bottle neck of a squeeze bottle, leads to a space-consuming construction and requires relatively expensive valve assemblies, which are in bulk items such as Do not use shower detergent bottles or similar for economic reasons let sit.

The invention is therefore based on the object of a valve type mentioned at the beginning with simple and inexpensive elements to create inexpensive and space-saving.  

This object is achieved according to the invention with a valve mentioned type solved by a valve plate with at least one first through opening for the substance and at least one separate second through opening for air, one on one facing away from the interior of the squeeze container Side of the valve plate under elastic tension first valve disc with a closure for the at least one first through opening and with recesses that match the second Through openings are aligned and a second on the other side of the valve plate Valve disc with at least one second passage Opening when reducing the interior of the squeeze container closing closure and a recess which with the at least one first through opening is aligned.

The valve according to the invention has three simple parts, with which the desired functions can be reliably achieved. The two valve disks, one of which is the substance kicks and the other controls the air intake, contribute a common valve plate together and are on the two Sides of this plate arranged. Because the valve discs - as well like the valve plate - can only require a small height build the entire arrangement extremely space-saving and at mount for example in a bottle neck, the valve hardly needs more space than a conventional one, no valve Functional dosage insert. The desired function for the outlet of the substance is achieved in that the Closure for the substance on the first valve disc under Bias is applied to the valve plate and thus in it Condition closes the passage opening for the substance. The Escape of the substance is therefore only possible if through the Substance on the closure of the first valve disc such  Pressure is exerted by the preload, preferably by an assembly of the first valve disc under a deformation this valve disc is generated by the inside of the Squeeze container generated pressure is overcome. The the Valve disc controlling substance leakage is therefore on the outside side of the valve plate, while on the inside the valve disc controlling the air intake is positioned. These has one with the first passage provided for the substance passage opening aligned and closes in Idle state which is pre-selected for air intake in the valve plate see second through openings. Will be inside the Squeeze container due to the restoring force of the elastic walls generates a negative pressure, the second valve disc releases the valve plate and gives the passage openings for the air free while the first valve disc makes the first passage opening for the substance closes.

In an extremely preferred and technically advantageous stick embodiment, the valve plate has a central arranged first passage opening and around the first passage second concentrically arranged through openings on. This arrangement allows the valve discs to rotate trained symmetrically, ensuring a safe function is achieved because none impair the closure effect Torques or tilting moments of the valve disks relative to the valve plate occur.

The valve disks preferably each have an outer ring on, from which elastic webs the respective radially inside hold the fastener. The closure can be the first Valve disc preferably a spherical closure surface have and for the closure of a central opening of the Valve plate may be provided. The spherical closure surface can be used for repeated centering of the valve washer relative to the valve plate so that the valve disc does not have to be completely fixed.  

The second closure of the second valve disc has the purpose moderately on an annular closure surface, the one centric recess that matches the first centric passage opening of the valve plate is aligned, surrounds.

The required elastic training can only be done by the plastic material of the webs of the valve discs will. For the elasticity, it is appropriate to the length of the Form webs as large as possible, which is why he preferably is enough that the webs on a spiral path from outer ring to the inner closure.

For the trouble-free function of the air intake for the rear position of the elastic walls, it is useful if the second through openings in the valve plate as an annular slot sections are formed.

The parts of the valve according to the invention can be made from one any sprayable plastic can be made, so also resistant to chemically aggressive substances will.

The invention is based on one in the drawing illustrated embodiment are explained. It shows:

Figure 1 is a vertical section through the end of a bottle neck of a squeeze bottle with an inserted valve according to the invention.

Figure 2 is a plan view of the first valve disc in a sectional view generated by the section line A;

Fig. 3 is a bottom view of the second valve disc with the valve plate behind it, generated by a sectional view corresponding to section line B in Fig. 1st

Fig. 1 shows the end of an outlet opening 1 formed by a bottle neck, into which an insert part 2 is pressed, which rests with a cylindrical portion 3 on the inner wall of the bottle neck and whose push-in movement is limited by a flange-like edge 4 . The insert 2 has a dome-like upper part 5 which has a central exit opening 6 . In the insert 2 , a valve assembly is attached, which consists of a valve plate 7 , a first valve plate 8 fastened thereon and a second valve plate 9 fastened below.

In the illustration of FIG. 1, the first valve disk 8 , the valve plate 7 and the second valve disk 9 are inserted one after the other from below into the insert 2 and there jointly engage behind an annular locking bead 10 , which defines the outer edge of the second valve disk 9 and the Holds valve plate 7 in contact with an outer annular stop 11 of insert 2 . Another annular stop 12 with a smaller diameter is realized in the top 5 of the insert 2 and holds the outer edge of the first valve disk 8 .

Fig. 2 shows the circular cross section of the bottle neck and thus the insert 2 . At the outer edge of the insert 2 there is the first valve disk 8 , which has an outer, closed ring 13 , from which three webs 14 extend spirally to a central closure 15 . The central closure 15 has spherical segment surfaces which cooperate with a conically narrowing wall for a central first through opening 16 of the valve plate 7 . The contour of the closure 15 is selected such that, in contact with the valve seat of the first through opening 16 of the valve plate 7, the projections of the webs 14 on the closure 15 lie higher than the outer ring 13 of the first valve disk 8 . By this arrangement, the closure 15 is pressed with a predetermined by the elasticity of the webs 14 bias against the valve seat of the first through opening 16 of the valve plate 7 .

As can be seen in FIGS . 1 and 2, the valve plate 7 has three circular slot-shaped second through openings 17 which are separated from one another by narrow, radially extending webs 18 . The second through openings 17 of the valve plate 7 are arranged concentrically with the centrally arranged first through opening 16 .

The arranged on the underside of the valve plate 7 , the second valve disk 9 , as can be seen in FIG. 3, also has an outer, closed ring 19 , from which webs 20 extend spirally to a second closure 21 . The second shutter 21 is formed as a ring having a greater thickness than the outer ring 19 so that the second valve disc abuts a result of pressing of the outer ring 19 against the valve plate 7 and the locking ring 21 with a certain bias on the valve plate. 7 The locking ring 21 is dimensioned such that it securely closes the second through openings 17 of the valve plate 7 when it rests on the underside of the valve plate 7 . The locking ring 21 delimits a central through opening 22 in the second valve disk 9 , which plate 7 is aligned with the central first through opening 16 of the valve 7 .

Since the two closures 15 , 21 of the two valve disks 8 , 9 each bear under prestress on the associated through-openings 16 , 17 of the valve plate 7 , in the idle state of the squeeze container there is neither an escape of substance from the interior of the squeeze container nor an entry of air into it the interior of the squeeze container possible.

If the flexible walls of the squeeze container are compressed and thus the interior of the squeeze container is reduced, substance presses through the through openings 22 , 16 against the closure 15 until its pressure against the valve seat is overcome before, so that the closure 15 passes over and through the Interstices of the webs 14 substance can escape from the outlet opening 15 of the upper part 5 of the insert 2 . After the substance has been dispensed, the flexible walls of the container develop an elastic restoring force and thus create a negative pressure in the interior of the squeeze container. This negative pressure ensures that the annular second closure 21 of the second valve disk 9 lifts somewhat from the valve plate 7 and thus clears the through openings 17 of the valve plate 7 . As a result, air can penetrate into the interior of the container until the flexible walls are reset, as a result of which pressure equalization has taken place. After the Druckaus equal, the annular second closure 21 lies due to the bias against the underside of the valve plate 7 and closes the second through openings 17 of the valve plate 7 , so that no substance can accidentally pour out through the second through openings 17 from the interior to the outside.

The passage of substance through the second passage openings 17 is reliably prevented even when the flexible walls of the squeeze container are pressed in because the excess pressure which arises in the interior presses the closure 21 even more against the valve plate and thus for the secure closure of these second passage openings 17 for the substance worries.

It is readily apparent that the valve of the invention arrangement with extremely simple and inexpensive to manufacture barely few parts is built and only a small space needs. The valve arrangement is therefore due to both spatial conditions as well as with regard to their host economy suitable for use in bulk items.

All parts of the valve assembly according to the invention are so out forms that they can be installed in both possible positions, because they have the same shape on both sides. It is therefore not necessary due to a special position of the individual parts to be observed during assembly.

Claims (10)

1.Valve for a squeeze container, from which a liquid or creamy substance can be squeezed out by reducing the interior of the squeeze container when its flexible walls are pressed in and air can penetrate into the interior when the walls of the squeeze container are reset, characterized by a valve plate ( 7 ) with at least a first through opening ( 16 ) for the substance and at least one separate second through opening ( 17 ) for air, a side of the valve plate ( 7 ) facing away from the interior of the squeeze container under tension against the elastic first valve disc ( 8 ) with a closure ( 15 ) for the at least one first through opening ( 16 ) and with at least one recess which is flush with the at least one second through opening ( 17 ), and a second valve disk ( 9 ) resting on the other side of the valve plate ( 7 ) ) with the at least one second passage oil Opening ( 17 ) in the reduction of the interior of the squeezing container closing Ver closure ( 21 ) and a recess ( 22 ) which is aligned with the at least one first through opening ( 16 ). 2. Valve according to claim 1, characterized by a centrally arranged first through opening ( 16 ) and around the first through opening ( 16 ) concentrically arranged around second through openings ( 17 ). 3. Valve according to claim 1 or 2, characterized in that the valve disks ( 8 , 9 ) are rotationally symmetrical. 4. Valve according to claim 3, characterized in that the valve discs ( 8 , 9 ) each have an outer ring ( 13 , 19 ) from which elastic webs ( 14 , 20 ) hold the respective radially inner closure ( 15 , 21 ) . 5. Valve according to one of claims 2 to 4, characterized in that the first closure ( 15 ) has a spherical closure surface held centrally in the valve disc ( 8 ). 6. Valve according to one of claims 2 to 5, characterized in that the second closure ( 21 ) of the second valve disc ( 9 ) has an annular closure surface which surrounds a central recess ( 22 ). 7. Valve according to one of claims 4 to 6, characterized in that the webs ( 14 , 20 ) extend on a spiral path from the outer ring ( 13 , 19 ) to the inner circuit ( 15 , 21 ). 8. Valve according to one of claims 2 to 7, characterized in that the second through openings ( 17 ) of the valve plate ( 7 ) are designed as annular slot sections. 9. Valve according to one of claims 1 to 8, characterized in that the first valve disc ( 8 ) is mounted deformed and thereby its closure ( 15 ) under tension on the valve plate ( 7 ). 10. Valve according to claim 9, characterized in that the second valve disc ( 9 ) is mounted deformed and thereby its closure ( 21 ) bears against the valve plate ( 7 ) under prestress.