DEVICE FOR WITHDRAWING FLOWABLE FILLING MATERIAL THROUGH A FLEXIBLE WALL OF A BAG
The invention refers to a device for withdrawing flowable filli material through a flexible wall of a bag, and in one aspect to two piece device adherable to the bag wall for forming a di charge opening
Prior Art
In the DE-OS 25 25 000, a withdrawing device is disclosed co prising an annular sealing member within the bag and a wi
a sealed throughgoing opening ("annular" means all around and is not limited to a circular configuration). Annular sealing surfaces are provided on the sealing member and the withdrawing member, each surrounding a throughgoing opening and being adapted to be brought to a mutual sealing engagement with the interposition of the bag wall. The separating means consists of a central conical tip which has the throughgoing opening in its side wall, and which is connected at its base to a flatter conical surface which forms the sealing surface. Upon the plugging together, the bag wall is severed before the sealing surfaces meet and a further relative movement in the plugging direction is no longer possible. Sealing member and withdrawing member can be screw-connected. In the described known device, it may happen that the conical tip will not severe but rather merely advances the bag wall. This may be the case par¬ ticularly with thick-walled and/or double-walled bags. Even if the bag wall will be severed, an insufficient and/ or non uniform opening may easily result which can extend as far as into the sealing surface and then endangers the desired sealing.
A device of the kind mentioned above has become known from
the DE-OS 35 44 244. Sealing member and withdrawing member include locking means which are located radially outwardly of the sealing surface and at an axial distance therefrom such that upon the interplugging the wall of the bag is stretched before the separating means becomes effective. By means of such a withdrawing device, flowable filling material can be satisfactorily withdrawn also from thick- walled and double-walled bags. The sealing member is de¬ fined by a ring member having an annular groove at the outer circumference into which locking tongues of the withdrawing member snappingly engage.
The known withdrawing device requires that as a precaution sealing members are also charged into those bags which under some circumstances are not emptied by the withdrawin device. For such cases, the sealing member is disad¬ vantageous since it drops out of the bag when emptied and thus is brought into the region whereinto the contents is poured. Particularly in connection with cast resins for electrical connections,e.g. cable connections, the pouring out of a sealing member is highly undesired due to its negative effect on the electrical insulation.
The freely floating sealing member in the bag can be
at least translucent. In many cases, the filling material, however, is dark so that the sealing member can be only detected by touch feeling.
Summary of the Invention
The object of the invention is to provide a device for forming a discharge port for withdrawing flowable filling material through a flexible wall of a bag.
According to the invention, that object is attained with a device according to claim 1.
Similar to known cases, the device according to the in¬ vention consists of a first and a second member. Essential to the invention is that both members are located on the outer side of the associated bag walls. Essential to the invention is further that the annular sealing surfaces are attached to the outer side of the bag walls by adhesion. One of the members is provided with a punch-like sepa¬ rating means which is pierced through both bag walls when both members are plugged together, the punch-like portion thereafter engaging the throughbore of the other member under leaving a passage for the flowable filling material.
tively, are locked in the throughbore of the other member such that both members can be moved relative to each other. When penetrated by the separating means, both bag walls engage each other whereby only a narrow passage is left. To allow a free discharge of the flowable material through the other member or its throughbore, respectively, both bag walls have to have a certain distance from each other. This distance is achieved in that the first and the second element are moved away from each other until reaching a stop. Thus, the flowable material can freely enter the passage which is defined by the throughbore of the first member and the punch-like separating means of the second member.
The device according to the invention, therefore, consists of a socket and a separating means (punch) lockable within the socket, with both members being adhered to the bag wall to concurrently establish a sealing effect. The in¬ terlocking of both members can be achieved by a conven¬ tional snap connection known in a variety of modifications. It can be also formed by a positive connection, e.g. a bayonet lock or the like. In both cases, it is necessary that both members can limitedly move relative to each other in and opposite to the plugging direction to allow the
flowable material to be discharged. The inventory for the material and the manufacturing for both members is rela¬ tively small. Above all, the disadvantage is avoided that a part of the withdrawing device has to be put into the bag in conjunction with the flowable material.
In order to achieve a rapid adhering of the members to the bag wall, the annular sealing surfaces preferably comprise a pressure-sensitive adhesive coating which prior to use is covered by a removable protective liner.
Particularly, if the one member includes a casting grommet, the device according to the invention can be used to dis¬ charge the contents of the bag directly into a container or the like. Alternatively, the first member having the throughbore can be formed as a connection fitting for the container. Finally, the first element can be formed by the container itself or a portion thereof. It has already been suggested to glose a so-called flap sleeve for a cable connection . with a rail having a dove-tail-like cross section. In case such rail is provided with a bore, the second member having the punch-like separating means can
be plugged into and lockingly engage the bore. By this measure for example cast resin can be directly filled into the interior of the sleeve. In case the bore is on the upper side of a container, the bag can be directly discharged into the container in the manner described. In this case, measures should be undertaken to remove the bag after being emptied, e.g. by tearing off the bag or by breaking off the upper part of the punch portion which should not drop into the container.
The separating means can be formed as a sleeve or a tube having ripping teeth distributed across a part-circum¬ ferential area of the throughgoing opening of the sleeve. Such separating means are disclosed by the already mentioned DE-OS 35 44 244. A chip is cut out of the bag wall by the known separating means which remains connected to the bag wall through a small winge portion. If such a separating means is applied to the invention, it has to be taken care that sufficient space is left between the outer side of the separating means and the inner wall of the throughbore for the flow of the flowable material. In another embodiment, the separating means can include two cutting edges arranged at an angle equal or unequal to
180°. If the cutting edges are arranged at an angle of 180°, a straight cut is formed in the bag wall which can be easily closed again. A plurality of cutting edges arranged at an angle cut angular flaps which remain con¬ nected to the bag wall, however, serve for a sufficiently large passage for the flowable material if bent outwardly. Preferably, three or more cutting edges are arranged star¬ like, with the cutting edges being formed as wedges and converging away from the annular sealing surface or in plugging direction, respectively, in order to improve the cutting effect.
In case both members of the device according to the in¬ vention are to be interlocked by a snap action, at least one member has to be provided with a resilient portion which is to engage an undercut of the other member. Such a resilient portion can be simply formed on the punch-like portion which for example coacts with a narrow portion of the throughbore of the other member.
It is prerequisite that the separating means has to be relatively sharp and mechanically stable to safely cut
through both bag walls. In case plastic material is se¬ lected, the suitable material may be relatively hard and thus provides an extremely small breaking extension. Possibly, the allowable deformation of the resilient portions of the separating means is not sufficient to establish a safe snap connection. In any case, it has to be avoided that the snap connection is released. If the material is poured out of the bag, considerable pressures might occur particularly if additional aids are applied so that the contents of the bag is subject to a higher pressure. The snap connection between the members has to resist also these higher pressures. Therefore, it can be appropriate to provide the other member with the resilient portion. According to an embodiment of the invention, the throughbore includes a portion, the wall thereof alterna¬ tively having cuts and projections, the arrangement of the cuts being selected such that upon a respective orien¬ tation, the cutting edges of the separating means can be plugged through the cuts, shoulders being formed above the cutting edges and the projections having indentations on the rear side opposite to the plugging direction which co¬ operate with the shoulders. In this embodiment according to the invention, first the cutting edges are plugged through slots without affording any deformation. Since the
slots are relatively narrow, a minimum rotation of the first member or its punch-like portion is sufficient to prevent the shoulders of the cutting edges from passing the slots or cuts in withdrawing direction, rather, the shoulders enter the indentations which are formed at the rear side of the projection. The interlocking is further improved in that the slots are defined by flexible tongues, the free ends thereof being as close as possible so that the shoulders of the punch portion engage the free ends of the tongues or are automatically guided toward the inden¬ tations upon a retraction of the punch portion so that in no case a release of the connection can occur.
As already mentioned, various known snap connections can be applied to the device according to the invention. It is refrained from listing more examples.
Brief Description of Embodiments of the Invention
Embodiments of the invention will be subsequently described at more detail in connection with drawings.
Fig. 1 shows a lateral view of a device according to the invention" partially in cross section after its application to a bag.
Fig. 2 shows a similar view as Fig. 1 with the device being in flowable material withdrawing position.
Fig. 3 shows a side view partially in vertical section in larger scale of the punch-like second member of the device of Fig. 1.
Fig. 4 shows partially in vertical section the side view in a larger scale of the first member of the device of Fig. 1
Fig. 5 shows a fragmentary bottom view of the member of Fig. 3.
Fig. 6 shows the side view partially in vertical section of a modified second member.
Fig. 7 shows partially in vertical section a modified first member.
Fig. 8 shows a fragmentary plan view of the member of Fig.7
Fig. 9 shows partially in cross section the members of the Figs. 6 and 7 mounted together at a first relative position.
Fig. 10 shows a similar illustration as Fig. 9 with the members being in a second relative position.
Fig. 11 shows a side view of a modified embodiment of the second member of the device according to the in¬ vention.
Fig. 12 shows a further modified embodiment of the second member of the device according to the invention, and
Fig. 13 shows a perspective view of a further modified em¬ bodiment of the first member.
Detailed Description of the Embodiment
A bag 10 is made of plastic sheet material which is sealed at margins 11. The bag 10 contains a flowable substance, e.g. liquid cast resin. A withdrawing device 14 is applied to bag 10 which consists of a first member 15 and a second member 16. The members 15 and 16 are subsequently explaine by means of Figs. 3 to 5.
The member 16 illustrated in Figs. 3 and 5 includes a flat
head 20 to which a punch portion 21 is integrally joined. The punch portion consists of perpendicularly crossing webs 22, 23 X-shaped in plan having a radially outwardly extending shoulder 24. Below the shoulders 24, the outer edges of the webs 22, 23 are formed as cutting edges 25 intersecting at the free end of the punch portion 21 at 26. A pressure-sensitive adhesive layer 28 is coated on the lower side of head 20 which has a distance from the webs 22, 23 as can be seen in Fig. 5. The adhesive layer 28 is covered by a removable protective liner 29.
A slot 51 extends from the shoulders 24 of member 16 parallel to the cutting edges 25, whereby the portions including the cutting edges 25 can be deformed radially inwardly.
The integrally formed member 16 is made of a suitable plastic material having a great hardness so that sharp and mechanically stable cutting edges 25 can be achieved.
The member 15 shown in Fig. 4 includes a sleeve portion 30 which conically tapers at the free end at 31. A radial flange 32 is formed at the opposite end. A pressure sen¬ sitive layer 33 is applied to flange 32 which is covered by a removable protective liner 34. At the upper end of
member 15, a bore portion 50 of reduced diameter is pro¬ vided. If engaging the bore portion 50, the cutting edges 25 of member 16 can be radially inwardly deflected. There¬ after, the shoulders snap behind the step formed by the bore portion 50 so that member 16 cannot be retracted from member 15.
If applied, the members 15, 16 of the withdrawing device first are freed from the protective films 29 and 34 of the pressure-sensitive adhesive layers 28 and 33. Subsequently, member 15 is adhered to the outer side of a bag wall. The punch portion 21 of member 16 is then pierced from the opposite side through both bag walls and inserted into member 15 in a manner described above. The member 16 is plugged into member 15 as far as necessary to adhere the adhesive layer 28 to the associated outer side of the bag wall. If an opposite respective pressure is applied, the members 15, 16 dand bag walls are moved away from each other, the material within the bag can then flow through the passage between the punch portion 21, the bore 50, and the throughbore of sleeve portion 30 as indicated by arrows 42 in Fig. 2. The four cutting edges 25 of punch portion 21 effect a cross cut in the bag walls whereby four tri¬ angular flaps are formed which are bent into the passage when the ma-terial is poured out as can be seen at 43. The
shoulders 24 prevent that the punch portion 21 is re¬ tracted from the first member 15.
In the embodiment shown in Figs. 6 to 10, the parts equal to those of the embodiment described above are provided with the same reference numbers to which an "a" is added.
Tongues 36 are formed at the upper end of the throughbore of member 15 at 35. The tongues are pairwisely arranged such that a downwardly extending V-shaped slot 32 is formed having its most narrow portion at 38. Inversely U- shaped indentations 39 are formed between adjacent tongues 36. The number of slots 37 is such that a cross formed by the cutting edges 25 of member 16a can be plugged through the slots 37 if the cutting edges 25 are aligned to the axis of four slots 37 circumferentially spaced about 90°. Since the width of the cutting edges 25a or of the webs 22a, 23a, respectively, is somewhat larger than the most narrow cross section of slots 37, the flexible tongues 36 are slightly deformed. If the punch portion 21a has been inserted as far as the shoulders 24a have passed the con¬ striction 38, the deformation goes back whereby the punch portion 21a is prevented from being retracted. On the con¬ trary, if a retraction force is applied to member 16a, the shoulders 24a move into the inversely V-shaped inden-
tations 39 whereby the punch portion 21a is non-releasably connected with member 15a. This can be seen in Figs. 9 and 10 wherein the plugging together of members 15a and 16a is illustrated.
In Fig. 10, it can be seen that the punch portion 21a is plugged into the throughbore of sleeve portion 30a a certain extent. If retracted toward direction 40 as shown in Fig. 9, the shoulders 24a enter the indentations 39 of adjacent flexible tongues and engage the joint 35 of tongues 36.
A further retraction is prevented. It can be seen further that a passage is defined between the bore wall of sleeve portion 30a and the webs 22a, 23a of punch portion 21a through which the flowable material can flow through.
The interlocking of members 15a, 16a shown in Figs. 6 to 10 is achieved by a suitable snap connection. In the snap connection, the punch portion 21a is formed as rigid part while member 15a has resilient portions (tongue's). In the embodiment according to Figs. 1 to 4, the punch-like member 16 is provided with resilient portions. It is understood that also other suitable snap connections can be used. Furthermore, the shape of the punch portions 21,
21a can be modified. For example, an annular cutting edge can be used rather than a cross of cutting edges.
If for example the bag is not completely emptied, the mem¬ bers 15, 16 can for example telescope on into one another as shown in Fig. 1 so that the passage for the flowable material is interrupted. In order to maintain this closed position, an inner projection 12 can be formed in the bore of member 15 which forms a snap connection with the shoul¬ der 24 of member 16 which can be easily released.
The member 16b shown in Fig. 11 deviates from that shown in Fig. 3 in that the webs 22b, 23b have a lateral distanc from each other. The webs 22b, 23b are shaped as rods projecting from head 20b. The webs 22b, 23b are also joine at a tip 26'. Therefore, webs 22b, 23b can be limitedly deformed radially to be inserted for example in a member 15 shown in the Figures 1, 2 or 4 and to form a snap con¬ nection therewith.
Fig. 12 shows a punch-like member 16b having a flat head 20b provided with an adhesive layer 28b at the lower side thereof covered by a removable protective liner 29b. A tube-like punch portion 70 is integrally formed to head
20b, the free end thereof being chamfered at 71. The cham¬ fer 71 includes teeth 72 about the larger portion of its circumference. It serves for an effective cut through the bag walls. The punch portion 70 includes four circum¬ ferentially equally spaced tongues 73 between its ends which are . joined to the punch portion 70 with their lower ends and which are radially movable. The upper ends 74 of tongues 73 form shoulders which for example may cooperate with a member 15 of Fig. 4 to lock the punch-like member 16b after the bag walls have been pierced through.
By means of the withdrawing device described, for example a bag 10 shown in Figs. 1 and 2 can be directly discharged into a container. To this purpose, the container has to have an opening which is suited to form a snap connection with member 16, 16a, 16b, respectively, in the manner described above. In Fig. 13, a rail 60 is shown having a dove-tail cross section, the web of rail 60 having a cir¬ cular opening 61. A pressure sensitive layer 62 is applied to the web of rail 60 around opening 61 which layer is protected by a release liner 63. Rail 60 for example serves for the closing of a slitted sleeve (not shown) for a cable connection. By means of a member 16, 16a or 16b, respec¬ tively, as shown in some Figures the contents of a bag 10, e.g. cast resin, can be filled into the sleeve directly.
It is understood that an opening 61 with a respective ad¬ hesive layer can be provided also in connection with other containers. For these cases, it is appropriate when the resiliently defor able portions for the snap connection is associated with the punch portion rather than with the opening.
For the last mentioned embodiment it can be appropriate to remove the bag from the container or the rail 60. This can be for example achieved by tearing off the bag from the head of members 15, 16 under releasing the adhesive con¬ nection. To this purpose the bag can have respective weakening lines.