DE19532015A1 - Device for mixing and dispensing multi-component products - Google Patents

Abstract

The invention concerns a device (V) for mixing and dispensing multicomponent products (I, II) which are located in a chamber (1) from which they can be dispensed by a piston (19) which is displaceable in the direction of a discharge opening (8) by means of a piston-actuating handle (22). The device enables even difficult preparations to be handled reliably and advantageously owing to a mixing element (M) which is movable in the chamber (1), is disposed upstream of the piston (19) and can be moved by the piston-actuating handle (22).

Description

The invention relates to a device for Mixing and spreading of multi-component products, which are arranged in and out of a chamber one displaceable in the direction of a dispensing opening Use a piston actuation handle to bring out the piston are cash.

A device of this type is through the DE-PS 19 39 316 known. After uniting there reacting two substances for manufacturing of a ready-to-use dental preparation, the pre towards a special vibratory mixing device clamped. The output of the so homogeneously posed Dental preparation is done in the direction of Dispensing opening displaceable piston of the here in Art a syringe-designed device. From the back of the Accordingly, piston is designed as a cross handle opened, freely accessible piston actuation handle. One component is liquid in nature. It deals is phosphoric acid. It's in a breakout ampoule contain. The latter lies in the direction of the discharge opening Seen the device before the piston. The cam mer is divided by a perforated partition. The latter forms the piston-side support Glass-made breaking ampoule and stretches above a subsequent one, the second component containing area. Regarding the second component is a powdery substance, at for example zinc oxide. Releasing the liquid sub punching is done through a willful pressure by means of the piston. This breaks the ampoule chen. The glass splinters are said to be perforated  the movable partition are retained. The corresponding separation is understandable vague. The chamber is open to the outside and therefore not finished odor-tight. About the piston the finished dental preparation is finally issued opening pushed out and brought to the destination. Here is the cannula or spout-shaped Release the dispensing opening, for example by pulling a plug or cutting off a closed canoe lens tip or the like.

The object of the invention is to provide a generic type to indicate the direction in which the creation in particular also problematic preparations from several components allowed safe and much easier to use.

This problem is solved by the specified in claim 1 ben invention.

Subsequent claims give advantageous width formations of the invention.

As a result of such a configuration is a generic one Device of increased use and safety value achieved. No special mixing device is required more. The whole thing is achieved simply by an inner half of the chamber movable, upstream of the piston and movable by means of the piston actuation handle Mixing element. The latter is mechanically revolutionary through the mix. There is a high grade Homogeneity. That happens along the entire length of the Chamber. No areas remain unturned. The The quality of the preparation is accordingly good. In the Mixing in the chamber leaves no odor step outside. The piston acts as a side  Odor trap. The thing is sterile. Before In terms of direction, the measure is advantageous in that the mixing element as perforated, linear in the chamber movable disk is designed. Usually one brings the cross-section of the chamber adapted disc consequently an equal mixing effect, and completely independent of the device. she can be placed upside down or lying horizontally order, etc. This is clearly more effective than the wandering dune-like shifting of the Substance in a vibrating mixer. A sol che disc can also be quite thin, so that there due to limited volume loss of the chamber is acceptable in view of those achieved in return intensive mixing effect. A structural advantage adhesive solution then results from the fact that the mixing element at the free end of one centrally in the longitudinal axis a cylindrical chamber displaceable rod sits, which the col operating handle and in its range the chamber carries a threaded spindle, which rotates in ster, but axially movable coupling to the rod. The mixing stroke can thus be immediate and independent of the Piston displacement can be carried out. In addition, change the volume of the chamber so that the piston practically also the function of an adjustable ceiling the chamber receives. Since the thread of the threaded spindle in self-locking area may be emerging Internal pressure in the chamber does not affect a change in the position of this ceiling, i.e. piston to practice. The desired linear actuation of the disc is achieved in that the coupling through wings of Rod is achieved, so in a longitudinal slot of the Threaded spindle engages. Such rotary drivers Wings can be integrally molded onto the pane and  connect to the free end of the rod. By doing so Wings are bridges of the mixing element, comes to the Mischele ment another function. Next is the Vorrich tion characterized by a bush-shaped end section cut the lead screw beyond the range of the Longitudinal slots for the purpose of mounting the threaded spindle the cylindrical rod. The bush-shaped End section corresponds approximately to the axial thickness of the Piston. It is the zone anyway, which is not for the Movability of the mixing element is required. in the The area of the socket-shaped end section is that of Home from tubular, previously slotted Threaded spindle held together stably. The through the Threaded spindle drive resulting displacement of Piston is practically slip-free because the piston passes through its scope, especially its piston ring, friction arranged in a rotationally fixed manner in the cylindrical chamber is not. A measure that promotes mixing depending on the substance then exists through a suction pipe connector in the end area of the chamber on the handle side, namely in Direction of the dispensing opening in front of the withdrawn one Piston lying. A safe-to-use spindle guide arises from the fact that the free, slotted end the threaded spindle in a recess of the output cross-section is conveniently stored. To the Device in a convenient handling position to be able to operate, it is further proposed that a closure cap closing the dispensing opening is designed as a footplate. The invention strikes furthermore a training of even independent Importance with regard to composing the components ten before: This results from one adjacent to the chamber tes housing for receiving the second component, the The interior of the housing can be connected to the inside space of the chamber containing the mixing element. In the  according to the summary of the Device for a combination device proves an embodiment in that the Connection by moving the housing relative to Chamber is achievable. In concrete terms, it looks like that the chamber has a bearing socket for a bearing bush of the housing and the connection by cover same position of free spaces of both parts to each other is achieved. That creates a kind of lock. Through the corresponding rotation pointer-like assignment of the housing it can also be used as an operating handle for Establishing said connection. It is advantageous that the housing as a lid lockable Recording for a crushing ring ampoule is designed. Wei ter is proposed that the bearing neck of the chamber in the end area of the Chamber lies. For the functional assignment of the for example containing the liquid component Crush ring ampoule is further proposed that the Bearing socket an elastic receptacle for the ampoules spit of the crushing ring ampoule and the housing a space is left for axial retreat Canceling the ampoule skewer by moving the Housing relative to the bearing neck of the chamber. With simple Chen means is the elastic absorption of one inside the contour of the ampoule skewer formed, which is in a transverse blind hole of the bearing neck extends. The cross-joint Ampoule skewer is secure in the elastic holder held while the ampoule body in a die Release of the liquid component causing the fall is pivoted. The bearing bush is axially from the bearing detachable, what because cleaning or sterile Accessible, multiple use of the device tion opened. Finally, it is proposed that the  Relocation from the housing to the bearing socket as a rotating movement tion and stroke-limited. Finally the invention still proposes that the housing in the insertion position for the crushing ring ampoule in parallel lies to the longitudinal direction of the chamber. This loading position also results from the position suggestion rier footplate, so that maloperation is practical excluded are. Finally a flawless one Use function achieved through a the longitudinal slot locking ring locking against the piston. The Mixed material cannot step behind the pistons.

The object of the invention is shown below a graphically illustrated exemplary embodiment les explained in more detail. It shows:

Fig. 1 shows the device containing the components in vertical section, in stand mode,

Fig. 2 shows the device in side view, against which the housing having side sailed hen,

Fig. 3 is a FIG. 2 corresponding illustration, but placed in a 180 °-turned position in broken shown Ge steering interface between chamber and housing,

Fig. 4 is a similar view with triggered pivoting of the housing relative to the chamber, breaking the break ring ampoule,

Association Fig. 5 a of FIG. 4 corresponding representation in gebrachtem in the maximum pivot position of high housing among illustrate the components,

Fig. 6 shows the device in perspective depicting lung with removed to illustrate the articulation point housing,

Fig. 7 shows the section according to line VII-VII in Fig. 1,

Fig. 8 is a vertical section through the chamber illustrating the mixing process and

Fig. 9 shows a same section when dispensing the homogeneously mixed multi-component product by means of a spindle drive via a piston.

The device V shown for mixing and dispensing gene multi-component products comprises a chamber 1 and a housing 2nd

The chamber 1 receives a first component I. It is powder.

A second component II is assigned to the housing 2 . The latter is liquid in nature and is located in a fragile glass ampoule, referred to throughout as the crushing ring ampoule 3 . The ampoule skewer 4 breaks between the ampoule body and head without filing his wasp waist-like neck 5 . The corresponding procedure is explained below.

The components I, II require different procedures in certain cases stanchions. For example, for the production of bone cells  ment, the relevant powder is gammabe beforehand shine. This can only be done in the absence of the second compo nente II happen. Regarding these second components Ten II is, for example, methyl meta chrylate monomer. The latter substance is problematic table with a view to toxic evaporation. The Device V is designed accordingly, i. H. the Preparation takes place in a hermetically sealed a sterile zone. The correspondingly sealing Conclusion is not specified in detail by nete sealing rings and bushings realized (see drawing tion).

The volume 1 of the larger usable space provides the mixing zone and at the same time advises the application device. You ( 1 ) is designed in the form of an elongated sleeve 6 ge. At least its inner wall 7 is cylindrical.

The sleeve 6 forms an outlet opening 8 at one end. It is central. It connects via an annular shoulder 9 which is perpendicular to the longitudinal center axis xx of the chamber to a stub 10 projecting outwards. The carries external thread 11 for engagement with a corresponding internal thread of a foot plate 12 as an adjusting aid for the device V or chamber 1 (see standing position Fig. 1).

The foot plate 12 is also realized as a sealing cap. For this purpose, it forms a stopper 13 , which sealingly enters the dispensing opening 8 . The central plug 13 is integrally formed on the base plate 12 . To increase the footprint, the footplate 12 continues on the installation side into a cross section of the chamber 1 clearly superior setting edge 14 continues. The rotationally symmetrical cantilever edge 14 has a knurling 15 peripherally to increase the grip.

The other end of the chamber 1 is also tightly lockable via a cap 16 . The acts as a headstock. It is also based on a screw cap; the external thread of this cap 16 is called 17th The matching counter thread is located in the end region of the inner wall 7 of the chamber forming the sleeve 6 . The part of the closure cap 16 which forms the actual head plate merges into a turning handle, likewise with knurling 18 provided to increase the grip.

The chamber 1 contains a piston 19 arranged longitudinally displaceably therein. The mixed multicomponent product I / II can be pushed out through the discharge opening 8 via the latter. The piston displacement takes place via a threaded spindle 20 which is pivoted at both ends. Rotational driving of the piston itself can be switched off via longitudinal guides on the inner wall 7 . Such means are not shown in the exemplary embodiment. It has been found that the piston 20 is held in the cylindrical chamber 1 with sufficient frictional engagement and thus in a rotationally fixed manner. This rotation lock is further favored by a piston ring 21 assigned to the jacket wall of the piston 19 . If the cross-section of chamber 1 and piston 19 is non-circular, it is itself speaking.

The piston 19 is displaced via an externally accessible piston actuation handle 22 , via which the threaded spindle 20 is set in rotation. This is done indirectly via a central rod 23 , using a mixing element M that can be moved by means of the piston actuating handle 22 .

The mixing element M sits at the end of the rod 23 inside the chamber and is designed in the form of a disk 24 which can be displaced linearly in the chamber 1 . The relatively thin, transverse to the longitudinal center axis xx disc 24 can move over the entire free inner length of the chamber 1 , that is, starting from the inside of the ring shoulder 9 to immediately in front of the pressure surface 25 of the piston 19 , which in the basic position is limited to the inside of the end position Top plate ie the closure cap 16 lies against the inside of the closure cap 16 . The direction of displacement of the mixing element M is indicated by double arrow y.

The rod 23 is in the hollow threaded spindle 20 leads ge. The edge of the thus guided over the centrally guided rod 23 also on the threaded spindle 20 moved th disk 24 ends in a radial, leaving a small gap in front of the inner wall 7 of the chamber 1st The mix can pass here. The disc 24 is, as can be seen from Fig. 7, also richly broken. The opening is formed as a result of arch slots 26 which are distributed at equal angles. The latter form a rich lattice structure, so that a high-grade, uniform mixing effect is created due to the appropriate crackdown. The arc slots 26 realized as concentric circular arc slots are arranged in two or more concentric rows, are equally spaced at an angle and leave radial bridges 27 between continuous circumferential rings 28 . The radial bridges 27 extend on the Winkelhalbie ends of the adjacent arc slots 26th There are four arch slots in each row of rings.

From the inner ring 28 ago the connection of the disc 24 to the inner end of the rod 23 is vorgenom men. The disc 24 is in a rotationally fixed connection. Likewise, the non-rotatable connection to the threaded spindle 20 is given over the area there. The threaded spindle 20 is, as already indicated, at the same time in axially movable coupling to the rod 23 .

The clutch is reached by wing 29 . The latter start from the inner ring 28 of the disk 24 . Here only two wings 29 arranged in the diametral are realized. The desired coupling can practically also be realized with only one wing 29 . In principle, more than two wings 29 are conceivable.

The wings 29 pass through a longitudinal slot 30 of the threaded spindle 20 . The wings 29 also form webs of the mixing element M. It can be seen, according to the longitudinal slit 30, that in the longitudinal central axis xx of the cylindrical chamber 1 , the displacement of the rod 23 for the explained mixing process is unobstructed.

The head plate end of the threaded spindle 20 forms a socket-shaped end portion 31 thereof. A closed cross-section of the threaded spindle 20 thus remains here. It is an end section which, in the basic position of the piston 19, mainly penetrates a collar 32 of the piston 19 directed inward of the pot. The collar 32 and, if applicable, also the bottom of the cup-shaped piston 19 , which creates the pressure surface 25 , contain the internal thread of the piston 19 which interacts with the thread 33 of the threaded spindle 20 . In the case of a slot seal explained below, the bottom is not included in the thread.

The thread-free, stepped end of the threaded spindle 20 enters a bearing receptacle 34 there . The bearing receptacle 34 is formed on a nozzle 35 directed from the top plate of the closure cap 16 and directed towards the chamber. The latter has such an axial length that it also radially supports the collar 32 of the piston 19 pointing in the opposite direction and thus also guides the piston peripherally in its initial movement. There is extremely stable storage of the concentrically interlocking or nested parts.

Del 20 is a seal member 36, which encloses the outer wall of the cylindrical rod 23 sealingly in front of the front end of the remote end of the threaded spindles. For the passage of the rod 23 there is a central bore 36 in the top plate of the closure cap 16 .

The actuating handle 22 is designed as a crank. Your perpendicular to the central longitudinal axis xx crank arm 38 continues in the opposite direction to an axle bearing th rotary knob 39 in the appropriate arm length, so that a cross handle is created, which makes higher actuating forces transferable, especially when the piston-induced application of the multi-component product I / II . A chamber-side receptacle 40 for the cantilevered end of the rod 23 is of such a length that a sufficiently free gripping space remains between the chamber 1 and the crank arm 38 .

The storage of the foot plate-side end of the threaded spindle 20 is solved in a similar manner, in that a thread-free section of the end of the thread play 20, which is slotted here, however, also protrudes into a recess 41 in a cross-section 42 of the output cross-section 8 . Said web 42 ends immediately before the inner end of the plug 13 . A supportive effect is furthermore that a central stud 43 extends from the bottom of the pot-shaped web 42 , which protrudes in a cross-sectionally adapted manner into the central bore 44 of the hollow threaded spindle 20 . The recess 41 is cross-sectionally matched so that a peripheral support of the forked through the slot 30 threaded spindle 20 is achieved. Of course, the web 42 is firmly connected to the inner wall of the nozzle 10 circumscribing the discharge opening 8 , for example via radial material bridges. The chamber 1 can be filled with the first component I via one or the other openable end of the device V.

The housing 2 accommodating the second component II is closely adjacent to the chamber 1 . The housing 2 is also formed by an essentially cylindrical sleeve 45 , from the housing interior 46 of which the liquid component II can be connected to the interior 47 of the chamber 1 containing the mixing element M. The corresponding connection is only possible with a strong will, by a movement to be carried out on the device V. Specifically, this is done in such a way that the uniting path of the two components I, II by moving the housing 2 relative to the chamber I is sufficient. The combination of the two components I, II takes place in terms of flow technology via a channel, in particular transverse channel K, and mechanically by breaking off the above-mentioned ampoule spit 4 . For this purpose, the housing 2 is pivoted. The pivoting takes place around a bearing socket 48 . The latter is radially directed, that is, perpendicular to the longitudinal central axis xx, from the outer wall of the chamber 1 and is overlapped by a bearing bush 49 of the housing 2 in a sealed manner. Bearing socket 48 and the inner joint-forming surface of the bearing bush 49 are designed cylin drisch accordingly.

The bearing socket 48 lies in the end region of the chamber 1 facing the discharge opening 8 .

In the basic position shown in FIG. 1, the loading-side end of the housing 2 faces the area of the piston actuation handle 22 . The housing 2 is in the insertion position for the crushing ring ampoule 3 parallel to the longitudinal direction of the chamber 1 . This end position is defined by a first end stop a. For this purpose, a slot slot 50 lying concentrically to the pivoting movement of the housing 2 is used. The starts from the jacket wall of the bearing socket 48 and receives a stop pin 51 . The latter is formed by a grub screw. The radially penetrates the wall of the bearing bush 49 and cooperates in the insertion position also shown in FIG. 2 with the end stop a of the bearing socket 48 . The housing 2 can thus only be pivoted in the direction of the arrow z about the geometric axis of the bearing socket, which finally leads to a contact of the stop pin 51 with a second end b there. The swivel angle is significantly more than 100 °. From the, from FIGS. 4 and 5 ersichtli chen movement it comes to the task of coaxiality of the crushing ring ampoule 3 and ampoule skewer 4th

The corresponding coaxiality, on the other hand, is present when the device V is loaded. For this purpose, the housing 2 , which is designed as a cover which can be closed, is opened. His captive and tight-fitting Dec kel is designated 52 . The crushing ring ampoule 3 is inserted with the ampoule spike 4 pointing downward. The latter arrives in an elastic receptacle 53 in the relevant end position. The holds the ampoule skewer in the bearing neck 48 by the root of the pfeilar tig-shaped skewer to the wasp waist-like neck 5 is undercut. The elastic cal receptacle 53 can be formed by a rubber or sponge-like body in the form of a pot-like spout which lies in a blind bore 54 lying in this position coaxially to the housing-side receptacle, also here by the restoring force of the material in a self-captivating manner. The elastic body tolerates slightly different tilts of the ampoule body, so that there is no premature breakage of the ampoule skewer 4 even with different tolerance pairs.

The mouth of the spout, which is open on the joint side, forms one Funnel. It has a centering effect.

The canceling takes place only by pivoting the housing 2 in the direction of the arrow z. For this purpose, the device V is expediently brought into the position shown in FIG. 3, that is to say turned 180 ° with respect to FIG. 1. In this position, a flow connection between the housing interior 46 and the interior 47 of the chamber 1 is excluded. A housing-side free space F1 and a chamber-side free space F2 are still closed by tight joints between the jacket wall of the bearing socket 48 and the corresponding bearing wall of the bearing bush 49 . The corresponding chick-like Ver closure point is designated 55 . The flow connection is rather achieved only by practically congruent position of the free spaces F1 and F2 of the two parts to each other (see FIG. 5).

Even if the ampoule skewer 4 is broken off, the liquid component II is not immediately released. The fracture opening 56 of the crushing ring ampoule 3 is directed upwards into the initial water position. Only when the horizontal alignment of the housing 2 is introduced and pivoted further there is a desired transfer of the liquid into the powdery component I via transverse channel K. The transfer is indicated in FIG. 5 by arrow B. The lower edges of the free spaces F1, F2 are substantially level with the lower edge of the transverse channel K.

In order to avoid that in the area of the fracture opening 56 of the ampoule 3 by touching the stationary part, i.e. the jacket wall of the bearing socket 48 and / or the edge of the blind bore 54 , glass breakage, the crushing ring ampoule 3 is an axial evasive space within the Given housing 2 . Reference is made to FIG. 3. The evasive clearance is labeled A. Its function results from an excess of space there in association with a suspension of the crushing ring ampoule 3 via its ampoule spit 4 . The bottom 57 of the crushing ring ampoule 3 is in fact at a distance from the corresponding bottom 58 of the housing interior 46 . Said bottom 58 is formed from the inside of the cover 52 cover. The latter is supported by a shoulder 59 opposite the outward-facing end edge of the housing 2 , the sleeve 45 , thus extending the interior 46 . It is thus avoided with a high degree of certainty that glass fragments get into the substance to be mixed. In the position shown in FIG. 5, the rupture opening 56 of the crushing ring ampoule 3 rides on the top of the outer wall of the connecting piece 48 with a partial lateral overhang to the free space F2 of the chamber 1 in front of it.

In order to give the user an indication of a correct pivoting movement of the housing 2, an arrow 60 is attached to the outer surface of the bearing bush 48 . This protects the lifting gear 50/51 .

The second liquid component II that has entered the interior 47 of the chamber 1 can now be mixed well with the first component I by reciprocating linear displacement of the rod 23 via the mixing element M. For the corresponding shift, the piston actuation handle 22 is used.

After sufficient mixing, the multi-component product I / II can now be applied. This happens immediately if using the piston actuation handle 22 , now while exercising a crank movement. The piston 19 presses the substance out through the discharge opening 8 . In order to achieve a type of syringe, a cannula 61 is assigned to the socket 10 by screwing technology and, for example, ready-to-use bone cement is brought to the destination.

The kickback of substance behind the piston 19 is prevented by a locking ring 62 , which seals the longitudinal slots with the radially inward-pointing fingers 63, closing the longitudinal slots 30 transversely, completely sealingly outward. The locking ring 62 is supported on the piston side in a suitable receptacle 64 on the foot of the collar 32 . The free ends of the fingers 63 follow the contour of the rod 23 . The ring portion of the Sperrin ges 62 overflows the thread 33 of the threaded spindle 20 freely.

In the case of one-way use of the device V, preventive measures can be omitted; if, on the other hand, a reuse is to be sought, the accessibility of the rooms via the base plate 12 , the closure cap 16 and the lid 52 proves to be useful for cleaning. A supplementary measure in this regard results from the fact that the bearing bush 49 axially pull the screw from the bearing socket 48 after loosening the maggot forming the stop pin 51 . The elastic receiving sleeve 53 is then to be replaced zen. It is then conveniently placed under with a drawstring.

Mixing can be done in a vacuum situation. For this purpose, the chamber 1 has a closable connecting piece 65 . The latter extends in the end region of the chamber 1 on the handle side, namely in front of the piston 19 in its end position. The corresponding suction line is not shown.

The device V exists, at least with regard to the housing and chamber-forming parts, shining through the or transparent plastic material. That makes the handling can be followed optically and visually.

All the features disclosed are essential to the invention. In the disclosure of the application is hereby also the Disclosure content of the associated / attached priori full documents (copy of the pre-registration) Lich included, also for the purpose of characteristics of this  Documents in claims of the present registration with to record.

Claims (21)

1. Device (V) for mixing and dispensing multi-component products (I, II), which are arranged in a chamber ( 1 ) and from this by a piston ( 19 ) displaceable in the direction of an outlet opening ( 8 ) by means of a piston actuating handle ( 22 ) can be deployed, characterized by a movable inside the chamber ( 1 ), the piston ( 19 ) upstream and by means of the piston actuating handle ( 22 ) movable mixing element (M). 2. Apparatus according to claim 1 or in particular since, characterized in that the mixing element (M) is designed as a perforated, linearly displaceable disc ( 24 ) in the chamber ( 1 ). 3. Device according to one or more of the preceding claims or in particular according thereto, characterized in that the mixing element (M) sits at the free end of a rod ( 23 ) displaceable centrally in the longitudinal central axis (xx) of a cylindrical chamber ( 1 ), wel che at the outside of the chamber ( 1 ) end of the piston actuating handle ( 22 ) and in its area of extension of the chamber ( 1 ) carries a threaded spindle ( 20 ) which is in a rotationally fixed but axially movable coupling to the rod ( 23 ). 4. Device according to one or more of the preceding claims or in particular according thereto, characterized in that the coupling is achieved by wings ( 29 ) of the rod ( 23 ) which thus engages in a longitudinal slot ( 30 ) of the threaded spindle ( 20 ). 5. The device according to one or more of the preceding claims or in particular according thereto, characterized in that the wings ( 29 ) are webs of the mixing element (M). 6. The device according to one or more of the preceding claims or in particular according thereto, characterized by a socket-shaped end portion ( 31 ) of the threaded spindle ( 20 ) beyond the area of the longitudinal slot ( 30 ) for mounting the threaded spindle ( 20 ) on the cylindrical rod ( 23 ). 7. The device according to one or more of the preceding claims or in particular according thereto, characterized in that the piston ( 19 ) by its circumference, in particular its piston ring ( 21 ) is arranged in a rotationally fixed manner in the cylindrical chamber ( 1 ). 8. The device according to one or more of the preceding claims or in particular according thereto, characterized by a suction line connecting piece ( 65 ) in the handha end region of the chamber ( 1 ). 9. The device according to one or more of the preceding claims or in particular according thereto, characterized in that the free, slotted end of the threaded spindle ( 20 ) in a recess ( 41 ) of a cross-section ( 8 ) crossing web ( 42 ) is mounted is. 10. The device according to one or more of the preceding claims or in particular according thereto, characterized by a closure plate designed as a base plate ( 12 ) for the dispensing opening ( 8 ). 11. The device according to one or more of the preceding claims or in particular according thereto, characterized by a chamber ( 1 ) adjacent housing ( 2 ) for receiving the second component (II), the housing interior space ( 46 ) can be connected to the inside space ( 47 ) of the mixing element (M) containing chamber ( 1 ). 12. The device according to one or more of the preceding claims or in particular according thereto, characterized in that the connection can be achieved by moving the housing ( 2 ) to the chamber ( 1 ). 13. The device according to one or more of the preceding claims or in particular according thereto, characterized in that the chamber ( 1 ) has a bearing socket ( 48 ) for a bearing bush ( 49 ) of the housing ( 2 ) and the connection by congruent position of free spaces ( F1 and (F2) of both parts ( 48, 49 ) to each other is achieved. 14. The device according to one or more of the preceding claims or in particular according thereto, characterized in that the housing ( 2 ) is designed as a lockable receptacle for a crushing ring ampoule ( 3 ). 15. The device according to one or more of the preceding claims or in particular according thereto, characterized in that the bearing neck ( 48 ) of the chamber ( 1 ) in the discharge opening ( 8 ) facing Endbe rich of the chamber ( 1 ). 16. The device according to one or more of the preceding claims or in particular according thereto, characterized in that the bearing socket ( 48 ) has an elastic receptacle ( 53 ) for the break-off spit (ampoule spit 4 ) of the crushing ring ampoule ( 3 ) and the hous se ( 2 ) an evasive space (A) leaves for axially retreating after breaking off the ampoule spit ( 4 ) by moving the housing ( 2 ) relative to the Lagerstut zen ( 48 ) of the chamber ( 1 ). 17. The device according to one or more of the preceding claims or in particular according thereto, characterized in that the elastic receptacle ( 53 ) of egg ner the ampoule spike ( 4 ) is formed form-fitting spout, which is in a transverse blind bore ( 54 ) of the bearing socket ( 48 ) extends. 18. The device according to one or more of the preceding claims or in particular according thereto, characterized in that the bearing bush ( 49 ) is axially removable from the bearing socket ( 48 ). 19. The device according to one or more of the preceding claims or in particular according thereto, characterized in that the displacement of the housing ( 2 ) to the bearing socket ( 48 ) is realized as a rotary movement (arrow (z) and impact-limited. 20. The device according to one or more of the preceding claims or in particular according thereto, characterized in that the housing ( 2 ) insertion position ( Fig. 1) for the crushing ring ampoule ( 3 ) lies parallel to the longitudinal direction of the chamber ( 1 ). 21. The device according to one or more of the preceding claims or in particular according thereto, characterized by a longitudinal slot ( 30 ) relative to the piston ( 19 ) closing locking ring ( 62 ).