DE3347079A1 - Method of producing a throughflow shutoff arrangement and closure membrane produced by said method - Google Patents

Abstract

A method of producing a closure membrane and a closure membrane produced by said method for containers, tubes, bottles and the like receiving liquids, viscous to extremely viscous media or compounds, wherein passage openings occur in the closure membrane when the medium itself, which is enclosed in the container, exerts a pressure on a central pressure area of the closure membrane due to an external pressure effect. During production by injection moulding, passage slits are made in the pressure area or in the peripheral transition region between said pressure area and an outer annular structure by the use of cores which close by themselves after cooling due to the shrinkability and can be opened only temporarily by displacement of the pressure area when pressure is exerted.

Description

Process for the production of a flow barrier arrangement

and sealing membrane manufactured according to the state of the art It is known, in containers located viscous or highly viscous liquids through often to be found integrally connected with the containers Ausflußttillen so that Due to the narrowing of the removal area, a certain dosage is also not possible, for example if you take the container, which in this case preferably be a tube can be compressed in the middle or at its rear end. The material plays a role the container has a subordinate role; but it is not uncommon in this context Desirably, the outflow of the medium or the liquid at a given point in time to interrupt, which is easiest to do by pressing again the container is no longer exercised. In this context, however, it has been shown that that this generally does not necessarily stop the outflow of the medium can, for example, because this drips tends, or because, even if you give up the external pressure on the container, still a Residual pressure remains, the further amounts of liquid or masses from the outflow opening he rvorciuellen, sometimes in very considerable quantities.

As an example for everyone, but the invention goes without saying not restrictive, reference is made to adhesive tubes, with which it is seldom possible to Just as much glue can be removed as for the respective gluing process is sanctified.

In this context, closure membranes are basically suitable which can be found inside the container, expediently adjacent to the spout, arranged and which should be designed so that they one under pressure Allow the medium present in the container or tube to flow through When the pressure is stopped, however, immediately close their own flow openings, so that the space between it and the spout is in any case pressure-free and therefore, in the normal case, no more liquid can flow out. here results now there is a problem, which is that it is possible to use such sealing membranes to be designed in the manner of check valves, for example - these considerations do not have to be necessarily belong to the known state of the art - for example by adding in the surface of the membrane, which is usually made of plastic, has a cross recess attaches by means of a cutting tool. Full of one side under pressure the cross slot will then open and allow fluid to flow through - If the I) jerk falls below a specified value, then the membrane-own restoring forces the closure of this flow opening.

However, in this case it is necessary to remove every single sealing membrane, which, for example, after the injection molding process in considerable numbers of the Manufacturing machine is ejected, by hand or at least by means of a tool and to provide a second operation with an incised opening The effort involved in the tens of thousands of such closure membranes to be produced forbids by itself.

On the other hand, it is possible, through appropriate training of the Forrll to provide openings in the closure during the injection molding process - however, these can only be produced by the presence of cores in the mold become and do not close themselves, since they necessarily have a finite width and length, for example in the case of a slot shape, must have, because also the one Such a throughflow opening in the core forming the closure membrane can have certain dimensions for reasons of strength not differentiate. Every opening, no matter how small but runs contrary to the task set here, one method and one according to this Method of creating a sealing membrane which has flow openings, which open when pressure is applied to enable the medium to flow through and after the end of the pressure, close again by themselves, with the prerequisite that that such a closure membrane without reworking in the injection molding process or a similar, related process.

Advantages of the invention The inventive method and according to Sealing membrane according to the invention produced by this method solve this problem respectively with the characterizing features of the main claim or

of the first material claim and have the advantage that it is possible the sealing membrane completely and exclusively by the injection molding process without producing any rework and still ensuring that the required Properties are present, i.e. an arbitrary opening of automatically re-closable Flow openings takes place. this simplifies the manufacturing process for such sealing membrane, which is a pronounced mass product is significant, because it can be during the manufacturing process, i.e. usually In the injection molding process, effectively working with cores in the shape that cause the desired passage openings, but with the result that the sealing membrane When freshly sprayed, they also have correspondingly open openings. this in this respect cannot be avoided at all, since the cores are physically effectively present are and are necessary when removing the respective finished spray material or immediately afterwards have to leave behind these openings they have made themselves.

On the other hand, the invention makes it possible to apply the external form adjust the sealing membrane so that taking into account thermospecific Properties of the sealing membrane material in the end the be ready for operation Sealing membrane closed passage openings are sictlerierter - with others In words, the passage openings produced by the cores during the injection molding process then only have one more in the ready-to-use state of the closure membrane capillary .SpaltöffunS in which the gap forming, opposite Areas may

not just adjacent to each other, but to a certain extent and are also pressed onto one another in an advantageous embodiment.

In such a state, the closure membrane is then in the mindc finished that they are in the respective tube or in the respective container adjacent can be used on the spout area and then their advantageous properties unfolds. For this purpose, the design of the closure membrane is also still like this made that it has a pressure-sensitive surface, which is to be released in each case Medium is exposed and then itself and through it also the capillary stomata be subjected to such a change in shape when the tube is pressed, for example that the passage openings are released, in some cases even considerably unfold and secure the desired flow, but immediately after printing is finished and even if the small pressures still prevail, they return to their original shape Accept capillary gap and effectively block the flow.

In one embodiment of the present invention is the closure membrane as an annular plate with an outer sealing ring formed by a circumferential ring structure equipped and also has a peripheral liingwulst, which is through a Accumulation of material has arisen. This accumulation of material is for normal operation the sealing membrane inside the tube of no great importance; however, she worries the ejection of the workpiece and its gradual Cool down that through the inherent thermal reaction possibilities (shrinkage) at least indirectly a closure of the otherwise open ones due to the core effect Flow openings takes place - a closure, which is then in the hardened normal operating state the flow membrane is maintained. This closure can then only over the temporarily prevailing pressure effect of viscous media to be removed or Liquids are temporarily suspended.

By the in the subclaims or in the following description The measures listed are advantageous developments and improvements of the System according to the invention of a closure membrane possible. Particularly beneficial is the arrangement of the passage openings as the circular shape following inner, peripheral Slots in the transition from the central disc or plate to the annular bulge area the sealing membrane.

These peripheral slits that follow the circular shape of the membrane are then carried out under pressure by the protuberance of the central Center area of the sealing membrane pulled open and taken again after the application of pressure their tight-fitting capillary gap shape. So when it comes to production, it is the outer one peripheral ring bead design, which by their thermal contraction the particular peripherally but further inwardly located passage openings initially closes and possibly even under maintaining pressure to the resilient system of Brings stomata, then in normal operation it is the everting of the inside disk-like surface of the closure membrane, which the- passage openings - due to their elasticity - opens, i.e. winds up and then on returning to the original position again locks. These two functions must also be used in the following can be distinguished.

Drawing An embodiment of the invention is shown in the drawing and is explained in more detail in the following description.

It shows: Fig. 1 an embodiment of a closure membrane in Cross section and FIG. 2 shows a partial representation of the closure membrane of FIG. 1 in one View from below, FIGS. 3a, 3b and 3c show possible embodiments of the attachment the passage openings or slots through the core material in the injection molding process and FIG. 4 shows the ready-to-use use of the closure membrane in the example Application of a tube filled with glue, for example.

Description of the execution examples The basic idea at hand Invention consists in that through the use of at least one core for the passage-Sehlitzbildung In the injection molding process, this means that the passage opening is open permanently and preferably resiliently fitting, to close that the material distribution of the verse chlußmem brarim ate i.ials so hit is that that basically yes only low thermal shrinkage capacity of the plastic material used, on which it is sensible to specifically turn off the slits that are formed and blocks the flow as a whole.

It is then understood in a continuation of this basic idea according to the invention, that the closure membrane must be designed as a whole so that these slots to achieve real flow openings if this is the case when handling the over Such a closure membrane having container is desired to reopen, then but return to the state that was achieved by the Function of the material accumulations is given, so in the locked state.

To this extent, the invention succeeds in agreeing to be incompatible Results held during the creation process, namely the (subsequent) closure not only effective through the use of cores in the injection molding process by removing material, but by the fact that at this point no material at all There may be slotted openings formed by a permanent mechanism ensure that the shape, thickness dimensions and material distribution are cleverly designed the closure membrane itself is inherent or achieved permanently by cooling it will.

In FIG. 1, the closure membrane is designated as a whole by 10; she can be subdivided into a peripheral ring structure 11 and a central one, preferably integrally connected to the ring structure 11 seiwiben- or piatten-like pressure area 12.

The ring structure 11 is initially designed so that it, -in a corresponding Dimensions matched to the internal dimensions of the vessel or tube in which it is used, with outer, peripheral sealing means 13 on the inner wall of the tube is present. The sealing means can form a tongue-like ring extension downwards and also attached in this way in the preferably one-piece transition to the ring structure 11 be that they push themselves somewhat resiliently to the outside, so that a flawless dense Closure outside the periphery of the closure membrane after its use in the respective Vessel is ensured. There is no need to go into this further, since such peripheral sealing functions by resilient tongues are known per se are, the space inside the ring structure 11 is taken up by the pressure surface 12, which can be made relatively thin-walled and therefore also has elastic properties has, so that it is possible, for example, that the pressure surface 12 when it is exposed to a medium pressure acting in the direction of arrow A, which in Fig. 1 position shown in dashed lines i2> can assume.

Such a sealing membrane can be produced by suitable means Forming process, a suitable material being the preferred material for the closure membrane SunststofL, for example, a thermoplastic can be used. As a preferred one The well-known injection molding process is suitable, in which case such a shape is used that the described construction of the closure meme bran results.

It is now necessary to provide the sealing membrane with means which on the one hand allow her to use a medium that has been withheld or separated from her, in particular to keep away viscous or highly viscous liquids such as adhesives and the like or to stop, on the other hand also to let flow through it. If you go from the prerequisite that no rework is done on the injection molding process Manufactured closure membrane are to be made, then openings in this cause only the fact that the shape with which the closure membrane are produced by injection molding, at the location of the openings cores, projections or has tongues, so that the closure membrane material is not at these points can penetrate or be present.

In the preferred embodiment shown in FIGS these are then caused by the cores in the freshly sprayed state of the closure membrane Passage or passage slots or openings shown in dashed lines and with 14a, 14b, 14c. These passage slots therefore have measurable lengths and also thickness dimensions, because this also includes the physically present cores need to have; here it goes without saying that in the drawing of Fig. 2 these slots are shown exaggerated for a better understanding could be. In the embodiment shown in Figs. 1 and 2 are the slots in the transition area between the pressure surface 12 and the peripheral Ring structure ll, following the course of a circle, arranged, the number of slots is arbitrary and its length with a diameter of about 25 mm the Closure membrane can each be about 5 mm - these are only preferred Dimensional specifications which of course do not restrict the scope of the invention. the Passage slots 14aJ 14b, 14c therefore alternate with continuous one-piece Material areas in the transition between pressure surface 12 and ring structure 11 from and they can also be arranged at any point on the printing surface, always with the proviso that according to an essential feature of the invention means are provided on the closure membrane which ensure that these slots in the normal initial state of the closure membrane close and then also closed remain with the closure membrane itself is then designed so that it thereafter seeks to continuously maintain the closed slot state.

The means provided in the preferred embodiment are initially expressed in general terms, that the material distribution in the ring structure 11 of the closure membrane 10 is made so that a certain material distribution, a certain accumulation of material or predetermined larger amounts of material in the Way in the area of the ring structure 11 show that, based on a behavior parameter the closure membrane, the slits are closed or are then closed when the sealing membrane from the freshly sprayed state to the normal cooled state has passed.

The invention has recognized that one and therefore to solve the inventive Task of usable parameters the existing Temperature dependence of the locking device material, that is to say of the plastic, which is the tendency has, at the transition from the freshly sprayed state to the cooled down basic form to shrink to some extent, possibly only as much as this is inherent in all substances or materials which, when heated, expand and experience contraction on cooling. So is a sufficient amount of material in the ring area 15, as indicated by the arrows in Fig. 1, is present, then this ring area when cooling after removal or ejection from the injection molding machine have a tendency to shrink or shrink, i.e. to contract and since the ring structure in the area 15 forms a closed ring shape tensile or force components that are directed towards the center of the membrane, such as indicated by the arrows B in FIG.

Tests have shown that this results in a perfect Closing the through slots 14a, 14b caused by the core insert. . . results, namely a closing not only to the plant of the opposite Slit surfaces or walls, but to plant under pressure, so that through the remaining, capillary stomata no more material or liquid can penetrate. It is therefore possible through the targeted use of material training the closure membrane in the area of the ring structure 11, on the one hand in the injection molding Manufactured closure mem- branes to arrange passage openings or slots, these but, if you place on the finished and cooled sealing membrane, also at the same time to close again.

This opens up a wide range of applications for them Closure membranes, because these have a corresponding embodiment of the invention then also features that open and close depending on use this allow capillary stomata produced by the injection molding process.

First of all, with regard to the illustration of FIG pointed out that the closing of the passage slots 14a, 14b, 14c essentially is due to an annular bead 15a, which, as can be seen in the sectional view lets down in the plane of the drawing in a bead shape or in the manner of a flange the normal plane of the pressure surface 12 protrudes and by its uniform shrinkage or drawing together causes the passage slots to close. The down up to the annular bulge 15a increasingly stronger scraping up to the continuous Blackening should clarify the proportion of the ring structure material in area 15, which, through its shrinking capacity, is decisive for the closing of the passage slots causes. The stronger the hatching or blackening, the more relevant it is Proportion of closure of the slits in normal condition.

Research has also shown that, although the peripheral arrangement of slots in the transition area, as shown in Fig. a preferred embodiment, also a closure and a correspondingly suitable form of use of such form-integrated passage slots can be achieved if this is as further possible as in FIGS. 3a and 3b Embodiments shown are arranged; in Fig. 3a is a the only cross-slit-like slot 16 running in two dimensions can be seen, while the lig. 3b a single transverse slot 17, also in the central area the pressure surface 12 shows.

Finally, the illustration in FIG. 4 is another form of application of many the assignment of the closure membrane according to the invention to only one partially shown adhesive tube 18 with outlet 19 on. Becomes the sealing membrane 10 inserted into this tube in the manner shown in FIG. 4, then results outside around the periphery at 20 a secure seal due to the sealing lip design, so that when an external pressure is exerted on the medium located in the tube 18 this on all sides even on the surrounding walls, as indicated by the arrows 21 indicated, passes on a corresponding pressure.

This medium pressure only affects the area of the sealing membrane a pushing forward of the pressure surface 12 as shown in dashed lines at 12 ″ in FIG is. From what has been said before it can easily be seen that this Everting the pressure surface 12 necessarily a pulling up of the previously closed Causing passage slots, so that in this form the slots are open and the desired amounts of ingredients in the tube, such as glue the spout 19 and so can be pushed outwards without any problems.

Since the pressure of the mediunis according to the arrows 21 then immediately stops or falls back to a much lower value if you yourself relieves the external pressure exerted on the tube, can under under these circumstances, the pressure surface 12 will return to its original starting position, caused by the elasticity of the plastic for the closure membrane and by the fact that this pressure surface 12 is to the greatest extent only through the peripheral passage slots interrupted, fixed and integral with the ring structure 11 communicates.

On the one hand, this causes the passage slots to be closed immediately and securely 14a, 14b, 14c ... and on the other hand a certain pressure relief in the sleeve space, that is irrl space in the plane of the drawing to the right of the closure membrane, whereby the additional The advantageous effect is that the closure membrane is located in the spout 19 or from this medium just about to emerge again, so to speak sucked back, through the volume increase in the nozzle space.

All in the description, the following claims and the drawing Features shown can be used individually or in any combination to be inventive with each other.

Claims (11)

A method for producing a through-flow Spe rranordnun g, in particular one that releases flow openings under the action of pressure and subsequently automatically closing sealing membrane for use in liquids, viscous or highly viscous media or containers, tubes, bottles that take up mass o, the like., dadurcii that by arranging at least one core at the forming IIerstellurig (injection molding process) of the disc-shaped membrane a slot-shaped, open flow opening (14a, 14b, 14c) is formed in this and that at least with the possibility of indirect action up to this slot area the material (plastic) of the membrane is arranged or distributed so that the at least one flow opening due to the after removal from the injection molding machine Still changing material properties of the sealing membrane (cooling / hardening / shrinkage) except for a capillary gap closure opening blocking the flow in this form is permanently contracted. 2. The method according to claim 1, characterized in that the membrane is designed as a symmetrical circular shape with an outer, at the same time peripheral Sealing means-forming ring structure (11), to which a central pressure surface (12) in one piece is molded. 3. The method according to claim 1 or 2, characterized in that the Flow openings formed by the arrangement of the mold cores in the closure membrane centrally in the printing area (12) as a simple slot or cross slot or in the Transition area between the outer ring structure (11) and pressure surface (12), respectively alternating with uninterrupted transition areas. 4. The method according to any one of claims 1 to 3, characterized in that that the load-bearing ring structure (11) is relatively rigid and the shelled Inner space of the ring structure (i 1) spanning pressure surface (12) itself elastic and is elastically suspended from the jing structure in a single-stitch transition such that when the pressure surface is turned forward under the action of pressure (12) the capillary slits opened as passage slits for the medium and closed again by the elasticity of the pressure surface (12) when the pressure is reduced will. 5. The method according to any one of claims 1 to 4, characterized in that that the ring structure (1 1) adjacent to the transition to the pressure surface (12) accumulations of material or thickening has that by cooling after spray freshener Removal from the injection molding machine and the resulting shrinkage Contraction in the central direction and a resulting closure of the Create flow openings. 6. The method according to claim 5, characterized in that the material accumulations as an annular bead (15a) protruding downwards over the plane of the pressure surface (12) are formed, through its shrinkage capacity, the adjacent passage slots getting closed. 7. Closure membrane, produced according to one or more of the claims 1 to 6 and preferably intended for use in liquids, viscous to strong Containers, tubes, bottles or the like containing viscous media or masses, thereby characterized in that in the material of the closure membrane (10) through the use of cores in the injection molding production process integrated into the shape and through the the cooling of the freshly sprayed sealing membrane causes contraction or shrinkage the closure membrane material is closed except for a capillary gap (14a, 14b, 14c) in a central pressure area or in the transition of the pressure area are arranged to a surrounding ring structure (11). t. Closure membrane according to claim 7, characterized in that the surrounding, load-bearing lling structure (11) peripherally not having (sealing lip 13) for external sealing against the inner wall of the container in which it is inserted is and after inside one under the enclosed media pressure resiliently slippable and resilient pressure surface (12) is supported in such a way that by the Movement of the Druckfiäclie from its normal central position the capillary stomata be opened intermittently and whenever there is a pressure of the trapped in the container Medium on the pressure surface (12) results. 9. Closure membrane according to claim 7 or 8, characterized in that that the closure membrane is designed to be rotationally symmetrical and temporarily Passage slots (14a, 14b, which can be opened by moving the pressure surface (12) 14c) as a central cross slot or a simple longitudinal slot in the center of the printing area (12) or in the one-piece transition between the pressure surface (12) and the surrounding one Ring structure (11) of the closure membrane, following the circular shape, alternating with uninterrupted transition areas, are arranged. 10. Closure membrane according to one of claims 7 to 9, characterized in that that the peripheral ring structure (11) thickened material (15) annularly around has adjacent to the transition area to the central pressure surface (12) in such a way that on cooling a contraction in a central inward direction takes place with a closing of the by the actual injection molding process in the Production and the subsequent removal of the core of open passage slots (14a, 14b, 14c). 11. Closure membrane according to claim l (), characterized in that the accumulation of material in the ring structure (11) from a circumferential, the plane overhanging the pressure surface (12) and arranged in one piece on the ring structure (11) Annular bead (15a) is formed.