NO772375L - CLOSING DEVICE. - Google Patents

Description

Closing device

j The invention relates to a self-closing closure device for tubes and other seals, more specifically a closure device of the type described in the introduction to patent claim 1, for dispensing liquid or pasty material by applying pressure on the tube. : ! Self-closing closing devices for tubes and the like, which are intended to feed out flowable material when performing a; jprinting on the tube has been known for many years. Multiple attempts have been made. Ip;to produce such closure devices, which are cheap to manufacture and yet absolutely reliable in shutting off the flow of material and providing a secure seal of the tube when the pressure<1>ceases. US Patent 2,025,810 discloses a self-closing closure device comprising a simple membrane. In that device, a planar membrane, which is provided with an opening, is designed in such a way that the opening in the resting position of the membrane encloses the upper part of a pin. When pressure is applied to the tube, the diaphragm bends outwards •to open the valve and when the pressure ceases, the patent document states that the diaphragm returns to its rest position. A slight pressure on the tube tries to bend the diaphragm outwards, making the seal not secure. This closure unit is designed to be screwed onto a tube neck. <;>Later, devices were developed where the closing mechanism included a part that was continuous with the tube itself. However, these closing devices have been relatively complicated and expensive to produce, they have not been secure with regard to closing or they have also been exposed to operational disturbances. According to a first object of the present invention, a self-closing closing device for tubes and gaskets, with at least one resilient wall. A further object of the invention is to produce a closing device where the membrane... 1 in ■moves from a concave to a convex position during the closing movement, to form a suitable outlet surface for the workpiece to be ejected, and then automatically returns to a concave position, to provide a secure seal after the ejection is concluded. ; A further purpose of the invention is to reduce the costs and increase the sealing security of the closing device. i Another purpose lies in achieving a locking of the closing device in the closed position. According to the invention, this can be achieved by designing the closing device in accordance with the characterizing part of patent claim 1. Further features of the invention will appear from the subclaims. The flat part of the membrane element is suitably designed with a negative angle of approx. 5-15 in relation to. a plane that is perpendicular to the longitudinal axis of the tube, but composed of the central part, the body cooperates with the lip on the tubular part of the membrane element, to reduce the negative angle by approx. 2°.

In the accompanying drawings, some embodiments of the invention are illustrated, in that: Fig. 1 shows a cross-section through a closing device according to the invention placed at the open end of a tube. Fig. 2 shows a cross-section through the embodiment according to fig. 1, added after line 2-2. Fig. 3 schematically shows the movement of the membrane according to fig. 1.1 fig. 4 shows a cross-section through a second embodiment of the invention, j fig. 5 shows a cross-section through a further embodiment of the invention, the closure device being shown in a closed and locked position, (fig. 6 shows a plan view from the underside of one of the closure device's parts, j fig. 7 shows a plan view from the underside of the closure device's other part, Fig. 8 shows a section through a third embodiment of the invention ice and Fig. 9 shows a plan view of the closing device, where the membrane is transparent.

! I_fig. 1, a closing device 10 is shown which is arranged. by

one end of a tube 12 with a wall II and with a flowable

. in

'content 15. j

According to the invention, the closing device 10 comprises a central element 16 and a membrane element 18. Central! The element 16 comprises a support 20 and a valve body 22. The memliran element comprises a flange 24, a flat part 26 which extends inwards towards the body 22, and a tubular part 28.

the support 20 of the central part 16 is provided with a number of openings 21 shown in fig. 2, to allow the flowable material, which must be fed out of the tube 12, to pass through the support part of the central part. The support part 20 is preferably designed with three spoke-like bodies 23 which intersect at the longitudinal axis of the tube and from this central part the valve body 22 emerges. The support 20 should have one

.such strength that the valve body 22 remains substantially motionless when the material to be fed out of the tube | Lwinged through the support, jj According to the invention, the body 22 has a circular cross-section and extends outward past the end of the tube, its surface preferably being chamfered so that it forms a conical surface. Preferably in

'a part 30 towards the outer end of the body is slightly chamfered and forms a truncated cone, as the outer end hai! a collar portion 32, which may be less steeply chamfered and possibly cylindrical. As shown, the flange 24 of the membrane 18 is extremely thick and cooperates with the circumference of the support 20 for the central part 16 so that a closing unit is formed, the unit being guided tin at the end of the wall 14 of the tube 12. The yielding planar part 26 of the membrane element is ;

'concave in relation to the tube wall in membrane, the element's normal [ rest position. As designed, the planar portion |26 in its stress-free concave form exhibits a negative angle of approx. :5-15 with a plane perpendicular to the tube's longitudinal axis. The tubular portion 28, which is formed in one with the jlane portion 26 and the flange 24, extends outwards along lg separated from the surface 'of the body 22 and ends in an open, circular lip portion 34.

The lip 34 provides a sliding fit against the body's yul; surface in the device's 'closed position, so that it forms a volume together with the body 2 2.. i

■ i

! In the preferred embodiment according to fig. 1 perceives

3"'the tubular part 28 of the membrane element 18 and the frustoconical part 36, which extends along and is separated from the body

'22, as well as with a stronger conical part 38 >; ojm ends in lip 34.

'I

The lip 34 is designed to fit closely into the transition between the chamfered portion 30 and the collar 32 of the body 22.

; According to the invention, the valve body 22 is pressed into and against the lip 34 of the membrane element 18 so that it moves the flat part 26 of the membrane element approx. 2° when the membrane element and the central part are inserted into the closing unit. As a result of the pressure of the body against the lip 34, the resting position of the planar portion of the diaphragm 18 in the assembled state forms a negative angle of substantially /3 to 13° with a plane perpendicular to the longitudinal axis of the tube as shown'

in fig. 3 and thus gives the diaphragm a tension in its rest position, i When the central part 16 and the diaphragm element 18 fit together, no significant radial pressure should develop, in order to avoid harmful effects on the diaphragm's work.

In the closed position, the lip 34 preferably rests against the valve body at the transition between the cone truncated 38 and the cylindrical shape.

The portion 32 and <1> is designed with a surface which is complementary to this transition.

The height of the valve body 22 can vary, in the same way as the height of the tubular part 28 of the membrane element, for functional and aesthetic purposes. In all cases, however, the height of the body and the dimensions of the parts of the membrane element are connected to each other in such a way that the membrane element lifts the body at an angle of approx. 2° from its formed rest position to its mounted rest position.

j With this device, the inherent bias of the membrane 18 provides a secure closure between the lip 34 and the body's collar and truncated cone parts. A safe and tight valve closure against leakage or post-delivery, drops etc.' can thus be achieved,

j For tube users, it is advantageous to be able to manoeuvre

■the valve so that the contents of the tube can be fed out without: having to exert unnecessary pressure on the tube. The fluidity of the material to be fed out is a factor that must also be taken into account. For free-flowing products, the diameter of the membrane element 26 is, for example, 15-35 mm (preferably 20-35 mm) and the negative

angle of repose to the flat part of the mounted membrane element is preferably approx. 10°. For pasta-like products, the corresponding negative angle should be approx. 12°.

If the valve diameter, i.e. the diameter of the membrane element 26 is increased, the same lifting arm movement upwards is achieved by a

less negative angle of repose. For valve diameters up to 60 mm, •rest angles down to 5° in the assembled state are normal. For practical purposes, a formed negative angle of S to 15° is appropriate for the planar portion of the membrane element 18 with a resulting mounted negative angle of 3 to 13°.

The flange 24 of the membrane element 18 can be designed with a square-shaped bead 40 that fits into a groove 42 in the tube wall with a snap-fit. If the closing device 10 is pushed into the tube 12, care must be taken that pressure is not exerted on the membrane element 18 so that the closing relationship between the membrane element 18 and the body 22 is affected. It is important that the closing element 10 is not applied

;reparable radial pressure across the wall of the tube and in the event that radial pressure occurs, this should not exceed that which can cause the negative angle of the diaphragm to move more than - 1°.

\ It is obvious that the closing device 10 can be attached to the tube 12 in a different way than by snapping, e.g. by soldering, et

jheat-curing adhesive or when spraining opposed flanges. When the closure unit 10 is attached to the tube 12 in any of these ways, no significant radial forces will normally be exerted on the membrane element 18.

, According to the invention, the flange 24 of the membrane element 28 should be relatively thick in relation to the planar part 26, in order to absorb the radial pressures when the planar part 26 is forced outwards by pressure on the yielding parts of the tube 12. On the other hand, the planar portion 26 must be quite thin relative to the flange portion 24 to allow the planar portion to flex as the diaphragm moves from its closed resting position to its open position, j The diaphragm element 18 is preferably produced by formextru-i

dering of the plastic material, e.g. polypropylene, but also other forms of production and materials can be used. The flat part 26 of the membrane element 18 has a thickness of approx. 0.20 to 0.40 mm. The

is clear that the material which is to form the membrane element must be sufficiently strong to avoid breakage, while retaining the flexibility to allow deflection under manual pressure on the tube.

According to the invention, in the open position of the valve, the flat part 26 of the diaphragm element forms a positive angle, which does not exceed 8° and preferably is not greater than 5° with a plane that is perpendicular to the longitudinal axis of the tube. Preferably, the positive

4 o

the angle between 3 and 5 . According to the invention, the planar part 26 of the membrane element 18 returns to its original rest position when the pressure on the tube ceases.

' ) The mode of operation of the present self-locking closing device is such that the action of the membrane is mainly instantaneous at the opening of the tube and its closing. Because of the built-in prestressing of the membrane element, the resilient planar portion 26 does not deflect until a predetermined value of the pressure is reached. This pressure usually varies, depending on the valve dimensions, between approx. 20 and 200 millibars.

When opening pressure is exerted on the tube, a fairly large axial movement of the flat part of the membrane takes place from its closed position with a negative angle to its open position with a positive angle. This movement lifts the lip 34 away from the valve body to such an extent that a large discharge channel for the tube contents is formed between the body 22 and the interior of the tubular part 28 of the membrane. The substance that is fed out can flow relatively unhindered past the body 22 and through the open the lip 34. With the present closure device, the valve will not leak when the tube is exposed to a pressure that is lower than the predetermined value and effectively closes the outflow of the tube, as well as forming a secure seal when the pressure on the tube ceases and the flat part of the membrane returns to its negative resting position. In the embodiment according to fig. 4, the planar portion 26 of the membrane element 18 is provided with a collar portion 44 of substantially constant diameter and a strongly inclined portion 46 which forms a truncated cone and ends in the lip 34. The planar portion 26 and the collar portion 44 form a rigid handrail where they intersect . With this embodiment, a wider passage for the material flow is achieved between the body 22 and the tubular part 28 of the membrane element 18.

I The central part 16 and the membrane element 18 can be produced with

f very low costs, e.g. of plastic, by form extrusion and can be appropriately assembled as a closure unit using snap engagement, welding or other known methods.

Although the invention has been described particularly with reference to a tube, it is obvious that the closing device according to the invention is equally well suited for other packages with at least one

f

yielding wall and where the contents of the packing are fed out through the closing device by exerting pressure on the packing contents over the yielding wall. The positive and negative angles for the flat parts of the membrane. is described with reference to the tube's longitudinal axis. It is understood that the membrane's angles can also be calculated in relation to the body's longitudinal axis, etc. with the same result. The invention also includes a device for locking the closing device in its closed position.

j In the embodiment according to fig. 5-7, one part 16 of the closing device comprises an annular part 47, which at one end merges into a foot part 48, which is provided with a circumferential, profiled groove 49. The oak-like parts 23 are here replaced by a massive wall 50, but it should be clear that the oak-like parts can be used if they are covered by an additional plate. In the ring-shaped part 47, a number of through openings 51 have been taken up.

To be able to produce these openings without the use of a tool with movable trays, they are, as shown in fig. 6 designed as a groove which in the radial direction ends at the same distance from the center as the ring-shaped part's outer casing surface and which in the axial direction 'extends from the lower surface of the foot part to a point which is placed higher than the upper surface of the foot part.

The profiled groove 49 has the task of fixing the described part 16 to the second part 18 of the closing device and this profiled groove will be described in more detail in connection with the second part 18 of the closing device.

i Part 18, like part 16, has an annular part which at one end merges into a foot part 52 with a circumferential lip 53, which, as can be seen from fig. 5, diverges in the upward direction of the drawing. This lip tapers towards its free end and is so thin, at least at this end, that it receives a suspension required to be able to pass through the mounting method described below. In the inner casing surface of the annular part 24, a number of grooves 54 have been taken out, which are appropriately placed with the same mutual angular distance as the grooves 51 in the part 16. It appears that the grooves 54 and the grooves 51 when twisting the parts

16 and 18 in relation to each other can be brought into and out of coverage with each other. In order to facilitate this turning movement, part 18 in the embodiment shown is provided with a number of axial

•'protruding knobs 55.

in

As mentioned above, the closing device only consists of two parts and these are intended to be snapped into one another. For this purpose, the profiled groove 48 is designed in accordance with fig. 5, i.e. with two substantially parallel rafts 49a and <?>49b which meet in a circumferential shoulder 49c. By means of this design, it is achieved that the foot part 48 has a circumferential lip 56 which is limited by the surfaces 49a, 49b, 49c on one side and the outer surface 49d on the other side. In this way, it becomes possible to connect the closure device to an appropriately designed receptacle in a tube, bottle, etc. in the same way as the closure device's 'parts are intended to be connected to each other, i.e. by one

.easy snap-in. Namely, it should appear that when the parts 16 and 18 are brought together, the lip 53 will slide against the surface 49a. Since the largest diameter of the lip 53 exceeds the smallest diameter of the surface 49a, the lip 53 and the corresponding lip 56 of the foot part 48 will deform elastically and when the lip has passed the abutment 49c the two lips will again return to their original shape, so that a sealing connection is achieved between sections 16 and 18. In this: joined position, the parts can be rotated in relation to each other, but not separated. The same situation occurs when the lip of the foot part is brought together with a corresponding socket in a container and it thus becomes possible in the simplest way to join the two parts of the closure device and in the same simple way connect the closure device with a container.

When the two parts 16 and 18 of the closing device are in such an angular position in relation to each other that the openings 51 and 54 are in coverage with each other, communication occurs ■

between the space 57 between the membrane and the plate-like part of ;

one side and the inside of the tube etc. as the closing device is fitted on the other side.

i To make the closing device inactive also when the tube etc. is exposed to a pressure which would normally cause an opening, however, it is only required that the part 18 is turned so much that its openings 54 are no longer in coverage with the openings 51 in the other part 16. The connection between the closing device and the interior of the tube is thus interrupted and a pressure on the tube contents is therefore not transmitted to the membrane, which is therefore neither deformed nor stressed in any way.

jj It appears that the two parts of the closing device can be provided with cooperating tongues, grooves etc. for the formation of a signal that can be felt, so that the closing device's. parts are in an open or closed position in relation to each other.

In the embodiment illustrated in fig. 8-9, the packing contents are supplied to the interior 57 of the closing device

■like the embodiment just described in a mainly radial direction, but in contrast to the embodiment described above, the supply does not take place from the periphery of the closing device, but from its central part. The closing device is further designed so that it can be screwed onto a tube etc., but despite the difference in design, the general designations from fig. 5-7 also retained in fig. 8 and 9, since the operation of the parts is in principle unchanged.

The part 16 is provided with a springy, circumferential lip 58, so that it can be connected to the part 18 by snapping, this being for this purpose provided with a circumferential bead 59 over which the lip must be pushed during assembly. The two parts are thus connected to each other in such a way that they can be rotated in relation to each other. The wall 50 of the part 16 is provided with a sleeve-shaped connecting part 60 which, according to the figure, can be internally threaded so that it can be screwed onto an ordinary tube of the toothpaste tube type. In the pin 22, a recess 61 is arranged which faces downwards in the figure and which through openings 62 is in connection with the interior 57 of the closing device.

in Part 18 is provided with a sleeve 63 which extends in the opposite direction to the sleeve 36, its free end being guided in a groove 64 in the wall 50. The sleeve 63 has openings 65 which can be led to cover the openings 62 or cover for these openings. It appears that in the first case a connection is formed between the inside of the tube and the closure device and that this

connection is not found in the other case, as this closure takes place in the same way as in the example above, by turning the two parts of the closure device in relation to each other. In order to limit this rotation/- and also to give an indication of the achieved angular position, the parts can be provided with. interacting

organs, e.g. in the form of one or more knobs 66 on the part 18 and grooves 67 with suitable extent in the circumferential direction on the part 16.

The cam is appropriately designed so that it effectively blocks rotation beyond the position corresponding to closing the closing device, i.e. openings 62 and 65 out of mutual coverage, respectively open with openings 62 and 65 in coverage. The lower edge portion 24 of the sleeve-shaped part 18 can be toothed in such a way that it is fixed against the tube's parapet by screwing on.

Claims (17)

1. Self-closing closure device intended to be connected to a package with at least one yielding wall, to feed out the contents of the package by pressure on this wall, characterized in that it comprises a central part with a peripheral part. < i and a valve body which extends outwards and which has an outer surface, as well as a membrane element comprising a relatively thick \ flange portion which is intended to be connected to the peripheral portion of the central part, further comprising a relatively thin, resilient planar portion formed integrally with the flange, extending inwardly towards the valve body, a substantially tubular portion which surrounds the body and is separated from it and which ends in an open lip which forms an exact sliding fit with the outer surface of the body so that together with this it forms a valve, the planar part in a stress-free state being shaped concave in relation to the flange and with the lip pressed against the valve body to bias the planar part and reduce the concave the angle when the valve is closed and the planar portion exhibits a convex shape when the valve is opened by means of pressure on the yielding wall and is returned to the concave shape with bias when this pressure ceases. 2. Device in accordance with claim 1, characterized in that the valve body has a longitudinal axis and that the planar part of the membrane element is shaped with a negative angle of between 5 and 15° to a plane perpendicular to the longitudinal axis, when the part is in a tension-free state and that the pressure of the body against the lip when the central part is connected to the membrane part, reduces the negative' the angle with approx. 2°. in 3. Device in accordance with claim 2, characterized in that the planar part of the membrane element in its convex position forms a positive angle which must not exceed 8° with a plane which is perpendicular to the longitudinal axis of the body. \ 4. Device in accordance with claim 3, characterized in that the positive angle lies in the interval 3 to 5 o. 5. Device in accordance with claim 1, where the seal is designed such as a tube, characterized in that it comprises an organ for snapping into the tube wall, the tube wall exerting a radial force on the closing device which does not cause the change in the membrane's negative angle to exceed -1°. 6. Device in accordance with claim 1, characterized in that the central part comprises a perforated support part and valve; ^the body comprises a truncated cone near the outer end which ends in <!:> a short, largely cylindrical section. 7. Device in accordance with claim 6, characterized in that the support of the central part is designed with radial spokes and that the valve body starts from the intersection of these spokes. S 8. Device in accordance with claim 6, characterized in in that the tubular part of the membrane element is designed with an intermediate part which borders the flat part and a part with a frustoconical shape, which connects the intermediate part with the lip. 9. Device in accordance with claim 8, characterized in that the lip rests against the valve body when the valve is closed, at the transition between the truncated cone and the largely cylindrical part and that the lip is designed with a surface that is complementary to this transition. 10. Self-closing closing device for tubes etc., for dispensing the tube contents at a pressure of approx. 20-200 millibars on the tube, characterized in that it comprises a central part with a perforated support element with a circular circumference and with: a valve body which is centrally located on the support member, to extend outward from the tube wall, which valve body comprises a portion in the form of a frustum of a cone which transitions into a substantially cylindrical end portion and a diaphragm member comprising a front respectively thick flange part which is intended to fit in the tube and intended to be connected to the circumference of the central part, a relatively thin, springy, flat part which is formed in one with the flange and extends inwards towards the valve body and a mainly .tubular part which is formed in one with the planar part and 'which surrounds the valve body separately from it, the tubular part being provided with an intermediate part which connects the Jplanar part with a part in the form of a truncated cone which ends in a circular lip for forming the valve together with the valve body, under which the planar portion is shaped to present a stress-free, concave shape with a negative angle of 5 - 15° with a plane perpendicular to the axis of the tube and that the circular lip presses towards the transition between the part in the form of a 'truncated cone' and the cylindrical part of the body in the valve's (closed) position, in order to provide bias in the flat parts of the body and reduce the negative angle by approx. 2 , the flat part being convex shape with an angle of 3 - 8° with a ■plane perpendicular to the axis of the tube when the valve is opened by pressure on the tube, and that said flat part returns to the concave, prestressed shape when the pressure on tu legs cease. in. 11. Device in accordance with claim 10, characterized in that the membrane element has a maximum diameter of approx. 60 mm. 12. Device in accordance with claim 11, characterized in that the diameter of the membrane element is 20-35 mm and that the negative angle to the prestressed planar part of the membrane element is approx. 10-12°. 13. Packing, characterized in that it comprises one container with at least one yielding wall and a self-closing one. closing device in accordance with requirement 1. 14. Closing device in accordance with claim 1, characterized in that the two parts are rotatable in relation to each other, that one of the parts has a cylindrical part, the interior of which is connected to the interior of the container or the like. on which the closing device is to be used, that the second part of the closing device shows a tubular part which tightly encloses the cylinder-shaped part of the first part and that the second part's tubular part shows openings which in a first mutually rotating position of the two parts cover openings while the cylinder-shaped part of the first part, so that a connection is achieved between the closure device and the interior of the container, but in a second pivoting position is out of coverage with these openings, so that it does not; longer there is a connection between the closing device and container; er's interior. 15. Device in accordance with claim 14, characterized in that the springy membrane extends from the tubular portion of the second part, the wall carrying the pin extending from the cylindrical portion of the other part. ] i 16. Device in accordance with claim 1, character i- < i s e r t in that one part exhibits a revolving, springy, lip which diverges in the discharge direction and which is calculated • on being pushed into a circumferential groove in a resilient lip which ■ is included in the second part and which in turn is intended to ! is pushed into a groove or groove in a tube or other ■ container. j 17. Device in accordance with claim 1, characterized in that the tubular and cylindrical parts are arranged in the central part. in J in