The present invention relates to a head plate device, to a storage container device, to a cartridge arrangement, to a dispensing apparatus comprising the cartridge arrangement and a mixer device, and the usage of the head plate, the storage container device, the cartridge arrangement, and the dispensing apparatus.
More specifically, the present invention relates to a head plate device for a cartridge arrangement for a dispensing apparatus for dispensing at least two flowable components, to a storage container device for a cartridge arrangement and configured for storing a flowable component, to a cartridge arrangement for a dispensing apparatus for dispensing at least two flowable components, to a dispensing apparatus comprising for dispensing at least two flowable components using the cartridge arrangement, and their usage.
For the purpose of mixing and dispensing at least two flowable components or media dispensing apparatuses—together with head plates having attached thereto a static or dynamic mixer on the one hand and plural storage containers on the other hand—are used in a variety of technical fields. This e.g. applies to the field of mixing and dispensing of two-component systems such as sealing compounds, two-component foams, two-component adhesives, and two-component filling media, e.g. in the dental medical field, for example for mixing and dispensing impression materials or the like. In addition, the field of storing, mixing, and/or dispensing at least two flowable components, in particular at least one of a sealant and an adhesive and/or for at least one of installing, fixing, gluing, sealing, and repairing a window, in particular a wind shield or wind screen of a vehicle, in particular in a car, is of high interest, too. The individual components usually have to remain separated from each other until the intended usage is begun. Upon use, the components are mixed and dispensed so that e.g. hardening can subsequently take place by a chemical reaction.
Such mixers are often designed for single use because in general cleaning is difficult after hardening or after any other chemical reaction of the components involved.
Storage container devices for storing and supplying the flowable components on the one hand and the mixer device on the other hand therefore often attached to a mediating means such as a head plate for which the present invention provides improvements.
Further, such head plates are—besides the mixers—are often part of a dispensing apparatus which further includes cartridges or other storage chambers for storing and supplying the respective components. In use, the individual components are dispensed from the chambers by means of a plunger or by means of a drivable piston, in order to move the components into the mixer.
Based on the head plate's and the mixer's operation, the components are intimately mixed and exit the mixer through an outlet opening thereof as a homogeneous mixture of the involved components.
There are many different designs with respect to the chambers for storing and supplying the components. The chambers can be designed, for example, as rigid cartridges which are inserted directly into the dispensing apparatus. In this respect, the cartridges can, for example, each have a piston as a base which is moved in the cartridge by exerting pressure to dispense the respective component.
According to other designs in which the cartridges have very thin walls, the cartridges are inserted into a support cartridge of the dispensing apparatus. Pressure is exerted on them by a plunger or by a piston. Provision can be made in this respect that the thin-walled cartridge collapses on dispensing within the support cartridge.
U.S. Pat. No. 4,981,241 relates to a dual dispenser cartridge, having two interlocked storages cylinders, separated by double walls, arranged axially parallel side-by-side, and each comprising one front end discharging opening, wherein both discharging openings are located next to each other on the common center line of both storage cylinders. The dual dispenser cartridge comprises a transition member, positioned ahead of the two storage cylinders. A permanent, axial push-fit connection between the transition member and the two storage cylinders is accomplished by means of a snap lock. This push-fit connection, however, does not provide a secure engagement against rotation but merely an axially snap-in connection.
Document DE 296 03 416 U1 relates to a cartridge for two-component materials. If a handle is actuated, foil bags are opened via cutting elements so that the material is introduced in a mixer. These cutting elements cannot establish a secure engagement with the flexible foil bag so that, again, a rotation is not securely blocked.
Document EP 2 520 360 A1 discloses a mixer for mixing at least two flowable components and a dispensing apparatus, wherein first and second containers for storing and supplying first and second flowable components are connected with their outlet passages to cooperating inlet passages of the mixer.
The coupling elements between the cartridges or storage containers on the one hand and those of the head plate on the other hand often have a circular geometry. Therefore, it may be possible that even after having coupled a cartridge or a storage container with its opening region—in particular an outlet—to the opening region of the mixer—in particular to an inlet—there remains a risk in the already coupled state of an inadvertent relative rotational motion between the storage container or the cartridge during operation. This is in particular a risk in case that a piston with a self-cutting thread is used for driving the supply process for one or plural of the flowable components.
Indeed, such a situation increases the risk of slippage and of loosening of the portions to be connected and thereby of unintended releasing of the cartridge or the storage container from the mixer or the intermediate portion between the mixer and the cartridge or storage container within the dispensing apparatus.
As a consequence, the reliability of the head plate, of the mixer device, of the storage container device, of the cartridge arrangement, and of and the dispensing apparatus and of their operation in a process of dispensing flowable media is reduced.
It is an object of the invention to provide a head plate device for a cartridge arrangement for a dispensing apparatus for dispensing at least two flowable components, a storage container device for a cartridge arrangement and configured for storing a flowable component, a cartridge arrangement for a dispensing apparatus for dispensing at least two flowable components, and a dispensing apparatus which are particular reliable in their usage and within dispensing processes and which have in particular a reduced risk of unintendedly releasing of coupled cartridges or storage containers from the site of the mixer or of the head plate device as an intermediate portion within an dispensing apparatus.
The object underlying the present invention is solved by a head plate device according to independent claim 1, by a storage container device according to independent 4, by a cartridge arrangement according to independent claim 17, by a dispensing apparatus according to independent claim 19, and their usage defined according to independent claim 20. Preferred embodiments are defined in the respective dependent claims.
According to one aspect of the present invention a head plate device for a cartridge arrangement for a dispensing apparatus for dispensing at least two flowable components is provided.
The head plate device comprises at least two separate outlet openings for respectively dispensing the at least two flowable components and at least two separate inlet passages through which the at least two flowable components can be introduced and flowed through separately from one another to a respective one of the outlet openings.
Each of said inlet passages of the head plate device is designed for—preferably sealing—cooperation with one respective outlet passage of storage container device. At least one of the inlet passages of the head plate device comprises an inlet opening region of essentially circularly shaped cross-section with at least one of an inner periphery and an outer periphery. At least one of the inner periphery and the outer periphery comprises at least one engaging element. The at least one engaging element extends radially from the respective inner or outer periphery.
With these measures and in particular by having provided an engaging element on a periphery which extends radially from the periphery, a rotational motion of a coupled cartridge, storage container, storage container device or chamber for providing a flowable component is avoided when the cartridge, the storage container, the storage container device or the chamber has already reached its coupling position or has already occupied its coupling state by cooperation of the inlet passage of the mixer device or an intermediate portion thereof with the outlet passage of the cartridge, the storage container, the storage container device or the chamber. Thus a particular risk—in case that a piston with a self-cutting thread is used for driving the supply process for one or plural of the flowable components—can be reduced or even avoided.
In addition, the provided engaging elements may additionally or alternatively help an easy and reliable attachment of a storage container device on the head plate, e.g. by means of a snap, lock, latch, or click into place action. Thereby, an axial motion between attached storage container devices and the head plate and thus an unintended separation can be suppressed. In an alternative embodiment, the engaging element (engaging elements) is (are) configured to allow (at least to a certain extent) axial movement between the storage container device and the head plate (in a coupled state). In particular, the engaging element (engaging elements) is (are) configured to allow separation of the storage container device and the head plate (only) by an axial movement. In particular, the engaging element (engaging elements) is (are) adapted to hinder rotational movement (block rotational movement) between the storage container device and head plate and allow an axial movement between these parts (optionally until complete separation), in their coupled state. In their coupled state, storage container device and head plate may be connected by a press-fit. In general, in their coupled state, there may be no form-fit between storage container device and head plate hindering an axial movement between these parts. In any event, connection and separation of storage container device and head plate may be very simple and reliable. In particular, if the engaging element (the engaging elements) hinders (hinder) a rotational movement, which can be sufficient to avoid a decoupling of storage container device and head plate.
A head plate or head plate device in the sense of the present invention is an element and in particular a plate to which storage containers for storing and supplying a component can be or are attached. In practice, the storage containers are attached and fixed to the head plate and the arrangement formed by the head plate and the storage containers attached and fixed thereto is offered and e.g. sold to an end consumer. Such an arrangement is called a cartridge arrangement.
The head plate may also be referred to as an intermediate part or portion as in practice it is located between the attached storage containers and a mixer to which the components are fed for mixing.
In addition, the terms cartridge, storage container, storage container device and chamber are used as synonyms. The term storage container device is, however, used as a generic term. A storage container device may form a storage chamber by offering a space for directly receiving and storing a flowable component, thereby operating e.g. as self-supporting cartridge. Alternatively, a storage container device may form a storage chamber by offering a space for receiving a bellows type container, a foil type container, a collapsible cartridge or any other container, thereby operating as a supporting cartridge which only indirectly stores a flowable component.
The storage container device, in particular a cartridge may have rigid walls, in particular self-supporting walls.
In each case, a plunger, a piston, in particular comprising a self-cutting thread, or any other suitable means for initiating the components' flow may be provided, even when they are not explicitly shown in the figures.
Because of the underlying principle of sealing cooperation of the inlet passages of the mixer device with respect to outlet passages of the storage container device, this requires an engagement of the outlet passage of the storage container device with the engaging element located at or on the periphery of the inlet passage in question.
By means of such an engagement an axial movement and/or a rotational motion of the coupled storage container device about a common axis of symmetry of the coupled inlet and outlet passages is avoided, thereby producing a tighter fit of the coupled storage container device.
According to an additional or alternative measure of the present invention, the at least one engaging element is configured to engage with a cooperating and essentially complimentary engaging element of a corresponding outlet passage of a storage container device in a state where the inlet passage of the head plate device sealingly cooperates with the respective outlet passage of the storage container device.
Thereby a torque proof cooperation between the inlet passage of the head plate device and the respective outlet passage of the storage container device can be achieved by preventing a rotational movement about a respective symmetry axis underlying the essentially circularly shaped cross-section of the inner periphery and the outer periphery of the inlet passage of the head plate device.
Alternatively or additionally, a snap, lock, latch, or click into place action and/or a form fit, a press fit, and/or a force fit thereof can be achieved.
According to a preferred embodiment, the head plate device has opposed first and second sides, wherein the at least two separate inlet passages are formed on one of the first and second sides, wherein the at least the at least two separate outlet openings are formed on the other one of the first and second sides, and wherein in particular the number of inlet passages is identical to the number of outlet openings.
It is another aspect of the present invention to provide a storage container device for a cartridge arrangement for a dispensing apparatus which is configured for storing a flowable component. The storage container device provides or comprises a storage chamber for storing a flowable component and an outlet passage through which the flowable component can be discharged. The outlet passage of the storage container device is designed for—preferably sealing—cooperation with a respective inlet passage of a head plate device. The outlet passage of the storage container device comprises an outlet opening region of essentially circularly shaped cross-section with at least one of an inner periphery and an outer periphery. At least one of the inner periphery and the outer periphery comprises at least one engaging element. The at least one engaging element extends radially from respective inner periphery or outer periphery.
The at least one engaging element of the outlet passage of the storage container device is configured to engage with a cooperating and essentially complimentary engaging element of a corresponding inlet passage of a head plate device in a state where the outlet passage of the storage container device—preferably sealingly—cooperates with the respective inlet passage of the head plate device.
Thereby a torque proof cooperation between the outlet passage of the storage container device and the respective inlet passage of the head plate device is ensured by preventing a rotational movement about a respective symmetry axis underlying the essentially circularly shaped cross-sections of the inner and outer peripheries of the inlet and outlet passages.
Again, by means of such an engagement an axial movement and/or a rotational motion of the coupled storage container device about a common axis of symmetry of the coupled inlet and outlet passages is avoided, thereby producing a tighter fit of the coupled storage container device.
Also again, additionally or alternatively at least one of a snap, lock, latch, or click into place action and/or a form fit, a press fit, and a force fit may be achieved.
Preferably, a plurality of engaging elements—i.e. at least two—may be provided, wherein a first fraction—i.e. least one—of the plurality engaging elements is configured for achieving said torque proof cooperation be-tween the inlet passage of the head plate device and the respective outlet passage of the storage container device, and wherein a second fraction—i.e. also at least one—of the plurality of engaging elements is configured for achieving an engagement between the inlet passage of the head plate device and the respective out-let passage of the storage container device thereby avoiding an axial movement and an inadvertent spatial separation thereof. Therefore, an advantageous combination of avoiding axial on rotational movement can be achieved.
The general aspects of the head plate device and of the storage container device in view of the concepts (A) of involving a rotation prohibiting engaging element and (B) of providing an axial movement prohibiting engaging element have been presented so far. In general, a central idea of the present invention is a configuration of the outlet passage of the storage container device and inlet passage of the head plate device so that a rotation, in their coupled state is avoided. At the same time, an axial movement, in their coupled state, may be possible. In essence, the corresponding engaging elements are configured so that a rotation is blocked, whereas an axial movement may be allowed. In an alternative embodiment, such an axial movement may be also blocked. If an axial movement is—in principle—possible, it may be restricted by certain press-fit (without, in particular, an additional form-fit).
The following aspects define particularities of the respective engaging elements and in general apply to both the engaging elements of the head plate device and of storage chamber device.
An engaging element may be formed as a male member protruding either from the inner periphery of the respective inlet or outlet opening region of the respective inlet or outlet passage and radially inwardly or from the outer periphery of the respective inlet or outlet opening region of the respective inlet or outlet passage and radially outwardly.
On the other hand, an engaging element may be formed as a female member recessing either from the inner periphery of the respective inlet or outlet opening region of the respective inlet or outlet passage and radially outwardly or from the outer periphery of the respective inlet or outlet opening region of the respective inlet or outlet passage and radially inwardly.
The above given circumstances show that in each case the provided engaging element may be formed as a male protrusion or as a female recess on the respective periphery of an inlet opening region of the inlet passages of a head plate device or of an outlet opening region of an outlet passage of a storage container device.
That means that a male member as a protrusion in each case protrudes from the periphery at which the protrusion is located: From an outer periphery the protrusion protrudes outwardly in a radial direction and from an inner periphery the protrusion protrudes inwardly in the radial direction.
A male member may have a rectangular shape and be, preferably, arranged so that two sides of the rectangular shape are in contact with surrounding parts of the head plate device or storage container device, respectively. Similarly, as an alternative or in addition, the female member may have a rectangular cross-section, wherein, preferably, two sides of the rectangular cross-section are open.
In general, a male member, if located at the head plate device, may have a first end, facing in the direction of the head plate device and a second end facing in the direction of the storage container device, wherein the first end is in contact with the head plate device and the second end can be inserted into a corresponding female member of the storage container device. Similarly, alternatively or in addition, if the engaging element is provided at the storage container device, it is preferred that the first end is free and the second end is in contact with the storage container device. Thereby, a simple and reliable blocking of rotation can be achieved.
Similarly, alternatively or in addition, if a female member is located at the head plate device, a first end of the female member (facing in the direction of the head plate device) may have a bottom, whereas a second end of the female member (facing in the direction of the storage container device) is free so that a corresponding male member may be inserted. If the female member is provided at the storage container device, the first end may be open and the second end may be closed by a bottom surface. Thereby, a simple and reliable blocking of rotation can be achieved.
On the other hand, a female member as a recess located on a respective periphery of an inlet opening region of an inlet passage of a head plate device or of an outlet opening region of an outlet passage of a storage container device recesses on an outer periphery inwardly in radial direction, whereas a recess on an inner periphery recesses outwardly in the radial direction.
All the provisions taken ensure an engaging interaction between the corresponding and coupled inlet and outlet passages where for a given engaging element situated at or on a periphery of an inlet opening region of an inlet passage of a head plate device corresponds to a provided and essentially complementary engaging element of the corresponding outlet opening region of the outlet passage of a storage container device.
If these outlet opening regions are coupled in a prescribed sense, the engaging elements—which correspond to each other—engage and thereby enhance tightness of the connection, avoid a slippage and reduce the risk of getting lost of the coupling by prohibiting a rotational motion of the coupled components about a common symmetry axis.
It is therefore an essential effect that by the provision of engaging elements a torque proof cooperation between an inlet passage and the corresponding and coupled outlet passage can be achieved.
Any geometry for the engaging element formed at or on the periphery of the inlet opening region of the inlet passage of the head plate device and at or on the periphery of the outlet opening region of the outlet passage of the storage container device is suitable as far as (i) an engaging operation is possible and (ii) a rotational motion and thereby slippage of the coupled components can be avoided.
However, simple geometric structures keep the underlying manufacturing process and the handling of the product simple and are therefore preferred.
Thus, according to another aspect of the present invention the at least one engaging element is formed as one of (A) a fin element extending axially and/or circumferentially, (B) a slit extending axially and/or circumferentially, (C) an element with one of a polygonal, rectangular, triangular, semicircular and oval cross section in the axial direction each on the respective periphery and extending axially and/or circumferentially.
Although provision of a single engaging element is sufficient for avoiding rotational motion, a plurality of engaging elements may be provided on at least one of the inner periphery and the outer periphery of at least one of the inlet or outlet opening region of at least one of the inlet and the outlet passages of the head plate device and the storage container device. Thereby, the reliability of the handling and of the operation of the underlying mixer and of the dispensing apparatus is enhanced.
Again, the structure and the underlying manufacturing process can be kept simple if each of the plurality of engaging elements is formed with an essentially identical shape. However, this is not mandatory and the engaging elements may be different from each other.
For instance and according to a further embodiment of the present invention, the plurality of engaging elements on a respective periphery of the inlet opening regions of the inlet passages may be formed as a sequence of alternating male and female structures. For instance, the sequence of alternating male or female structures may appear as an undulation or corrugation when be viewed along the symmetry axis of the underlying inlet opening region.
In a further alternative of the mixer of the present invention, individuals of pairs of adjacent engaging elements of the plurality of engaging elements on a respective periphery may be positioned directly adjacent to and in direct contact with each other.
Additionally or alternatively, individuals of pairs of adjacent engaging elements of the plurality of engaging elements on a respective periphery are positioned on a respective periphery, with a gap element between them, formed by a free portion of the respective periphery.
An intended exertion of form-fit, press-fit or force-fit may be achieved based on the shape of the at least one engaging element on the respective periphery of the respective opening region of the respective passage.
Therefore, the shape of a protruding engaging element may provide a tapered configuration with at least one of a reduced height in the radial direction and a reduced width in the circumferential direction, each towards the respective opening region or the opening as such.
In case of a male engaging element, a tapered shape with at least one of a reduced height in radial direction and a reduced width in circumferential direction each towards the respective inlet or outlet opening may be provided.
In analogous manner for a female engaging element, a tapered shape with at least one of an increased depth in radial direction and an increased width in circumferential direction each towards the respective inlet or outlet opening may be provided.
These arrangements advantageously result in a self-alignment of the components during the coupling process in particular if the tapered shape of the cooperating engagement elements is provided by engagement elements with circumferential widths which are not constant in the axial direction.
The provision of the engaging element and in particular its shape and/or its position and orientation on the respective periphery may be used as a mechanical coding in order to define a particular assignment of an inlet passage with its inlet opening region to a certain kind of outlet passage and the respective outlet opening region. Thereby, unintended couplings to certain inlet passages or to certain mixers can be avoided as only cartridges can be coupled to the respective inlet opening which have suitable cooperating and complementary engaging elements at their periphery.
According to a further aspect of the present invention, a cartridge arrangement for a dispensing apparatus for dispensing at least two flowable components is provided, comprising a head plate device designed according to the present invention and at least two storage container devices for receiving or for providing a respective chamber for a respective one of the at least two flowable components, wherein at least one of the storage container devices is designed according to the present invention.
Each of the at least two storage container devices may be filled with material of one of the at least two flowable components.
It is another aspect of the present invention to provide a dispensing apparatus for dispensing at least two flowable components. The dispensing apparatus comprises a cartridge arrangement according to the present invention, i.e. a head plate device for mixing the components and at least two storage container devices for receiving or providing a respective chamber for each component.
The storage container device or the respective chamber has at least one outlet passage for one of the components. The head plate device is designed according to the present invention and as described above. At least one of the storage container devices is designed according the present invention. In addition, the apparatus comprises a mixer device which is attachable or attached to the cartridge arrangement and which is configured for receiving from the cartridge arrangement the at least two flowable components, for mixing the at least two flowable components, and for dispensing the at least two flowable components in a mixed state.
An involved mixer may be a dynamic mixer having a rotatable mixing element or a static mixer having a static mixing element.
According to the present invention, the head plate device according to the present invention, the storage container device according to the present invention, the cartridge arrangement according to the present invention, and the dispensing apparatus according to the present invention may be used for storing, mixing, and/or dispensing at least two flowable components, in particular at least one of a sealant and an adhesive and/or for at least one of installing, fixing, gluing, sealing, and repairing a window, in particular a wind shield or wind screen of a vehicle, in particular in a car.
Further details of the invention will become apparent from a consideration of the drawings and ensuing description.
In the following, embodiments of the invention are described. All described embodiments in the following and their properties and technical features may be combined in any way, i.e. there is no limitation that certain described embodiments, properties and technical features may not be combined with others.
The same reference symbols in the figures describe the same or equivalent components, even if a detailed description is not repeated for each occurrence thereof.
In the following, reference is taken to the figures in detail. The trihedrons shown in the figures elucidate the position and the orientation of the respective components and portions of the head plate device 45, of the storage container device 90, of the cartridge arrangement 100, and of the dispensing apparatus 1 according to the present invention with respect to each other and in relation to space, in particular when compared between the different views of the figures.
The mixer device 10 is formed by a mixer housing 20 which comprises in an upper part in
Here the shown head plate device 45 is configured for being coupled on its second or upper side 45b with the mixer device 10; thus, respective engaging elements—as for the attachment of the cartridge container devices 90—or cooperating threadings or any other means be provided.
The shown head plate device 45 is configured for being coupled on its first or lower side 45a with a plurality of storage container devices 90 offering respective storage chambers 91, 92 which are not shown here.
Therefore, the head plate 45 comprises first and second inlet passages 50 and 60, respectively, which are separated from each other and which—after attachment of the mixer device 10—may join into the interior 25 or mixing passage 25 of the mixer device 10 where the mixing element 30 is situated.
The lower part of the head plate device 45 forms the first and second inlet opening regions 51 and 61, respectively, with its first and second inlet openings 52 and 62, respectively. The first and second inlet opening regions 51 and 61 comprise inner and outer peripheries 53, 63 and 54, 64, respectively.
In the embodiment shown in
The first and second inlet opening regions 51, 61 and the respective openings 52, 62 have a circular or circular cylindrical geometry which in this particular case is given by a symmetry axis which is parallel to the symmetry axis of the mixer 10 as such.
In the case shown in
Each of the storage container devices 90 and the offered storage chambers 91 and 92 are designed in order to store in their interior a first flowable component 11 and a second flowable component 12, respectively. In addition, the storage container devices 90 and in particular their outlet passages 80 and 90 are configured to cooperate with the inlet passages 50 and 60, respectively, of the mixer device 10 and in particular to have means for engaging with the engaging elements 56 and 66 formed on the inner periphery 53, 63 of the first and second inlet opening regions 51 and 61 of the mixer device 10.
Therefore, the outlet passages 70 and 80 of the storage container devices 90 in their outlet opening regions 71, 81 comprise—at suitable locations—respective engaging elements 76, 86 which are not shown in
The engagement of the engaging elements 56, 76 on the one hand and 66, 86 on the other hand ensure a torque-free and rotation-free positioning and cooperation of the storage container devices 90 and the offered first and second storage chambers 91, 92 with their first and second outlet passages 70 and 80 in or at the respective first and second inlet passages 50 and 60 of the mixer device 10 in order to enable a reliable operation of the dispensing apparatus 1 according to the present invention.
Alternatively or additionally, an axial movement between the head plate device 45 and the storage container devices 90 may be suppressed in order to reduce the risk of inadvertently losing the attachment between these components; this may be achieved by the same or by different engaging elements 56, 66, 76, 86, 96, 97.
Between the recesses as engaging elements 66 separating gap elements 67 are provided, i.e. regions where no engaging element 66 is located at or on the inner periphery 63 and where the inner periphery 63 of the second inlet passage 60 is left unchanged. Under such circumstances, the sequence of engaging elements 66 with gap elements 67 therebetween resembles a crown-like structure.
The first engaging elements 66 yield a torque-free attachment to a respective storage container device 90 to the head plate device 45.
In addition, a second engaging element 96 is provided which is formed as an annular recess running around the inner periphery 63 of the second inlet opening region 61 of the second inlet passage 60.
The second engaging element 96 yields suppression of axial movement between of the attached storage container device 90 with respect to the head plate device 45. This is elucidated in more detail in connection with
Towards the inlet opening 62 of the inlet opening region 61 the engaging elements 66 extend in a tapered manner with an increasing width in the circumferential direction. This can also be seen in more detail in
In connection with the embodiments shown in
For instance, inlet passage 60 shown in
Thus, cartridge arrangement 100 shown in
The storage container device 90 described in
Elasticity and/or a resilient nature of one or both of the cooperating engaging elements 96 and 97 might be helpful, too, for supporting their action.
In complementary correspondence to the arrangement of the inlet passage 60 shown in
The embodiments of
In the embodiments shown in
In the embodiment shown in
In the embodiments shown in
It should be noticed that the provision of a single engaging element 56, 66, 76, 86 on each of the coupling elements of the mixing device and the storage container device, respectively, is already sufficient for realizing one principle underlying the present invention, namely to ensure a torque-free and rotation-free coupling of an inlet passage 50, 60 of a head plate device 45 to an outlet passage 70, 80 of a storage container device 90 to thereby avoid rotational motion between them and thus the risk of losing the connection to the storage container device 90 in the coupled state and in particular during the mixing and dispensing operation. However, the provision of a plurality of engaging elements arranged in the circumferential direction of the respective coupling element enhances reliability of the structure during operation. Further in a case in which the engagement elements are arranged in a regular manner, an easier connection process is ensured, since more than one circumferential orientation is possible between the head plate device 45 and the storage container device 90 during coupling.
The embodiment shown in
In contrast thereto
According to
In contrast thereto,
In the embodiment shown in
In
Of course, complementary relations may be achieved when discussing female recesses as of the engaging elements 56, 66, 76, 86 within the respective peripheries 53, 54, 63, 64, 73, 74, 83, 84, wherein the recess depth may increase in the direction towards the opening 52, 62, 72, 82 and/or wherein the width of the recess shall increase in the direction towards the respective opening 52, 62, 72, 82. The latter situations are not depicted in the Figures.
In particular embodiments in line with
Number | Date | Country | Kind |
---|---|---|---|
14185972.8 | Sep 2014 | EP | regional |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/EP2015/071511 | 9/18/2015 | WO | 00 |