Two-component mixing capsule, in particular for the field of dentistry

The invention claimed is: 1. A mixing capsule ( 1 ) comprising a housing in the form of a cylinder, wherein the mixing capsule has an applicator ( 2 ) at the top surface ( 15 ) of the cylinder and an auxiliary capsule ( 3 ) to receive a composition B in the region of the base surface of the cylinder being mounted displaceably in the direction of the longitudinal axis, the auxiliary capsule ( 3 ) being mounted displaceably in the direction of the longitudinal axis in a cylindrical inside pipe ( 4 ) and/or a mounting of the mixing capsule ( 1 ), the housing of the mixing capsule comprising an outer housing sleeve ( 5 ) and an inner housing sleeve ( 6 ) being mounted rotatably against each other and displaceably in a telescope-like manner into each other, the auxiliary capsule ( 3 ) and the cylindrical inside pipe ( 4 ) and/or the mounting taking a first partial volume of the internal volume of the mixing capsule ( 1 ) in a first position of the inner housing sleeve ( 6 ), the mixing capsule ( 1 ) having a second partial volume of the internal volume ( 9 ) to receive a composition A being independent from the auxiliary capsule ( 3 ) and the cylindrical inside pipe ( 4 ) and/or the mounting, the internal volume ( 9 ) of the cylinder being increased compared to the first position in a second position of the inner housing sleeve ( 6 ) after the outer housing sleeve ( 5 ) and the inner housing sleeve ( 6 ) being pushed apart in a telescope-like manner along the longitudinal axis, the increased internal volume ( 9 ) being adapted to receive composition B of the auxiliary capsule ( 3 ) besides composition A, composition A and composition B being mixable to composition C by moving the mixing capsule, composition C being ejectable via the applicator ( 2 ) when the outer housing sleeve ( 5 ) and the inner housing sleeve ( 6 ) being telescoped, the auxiliary capsule ( 3 ) having an ejection piston ( 8 ), the ejection piston ( 8 ) being adapted to convey composition B from the auxiliary capsule ( 3 ) into the second partial volume or the increased internal volume ( 9 ) when being pushed or turned, the cylindrical inside pipe ( 4 ) or the mounting being adapted to receive the auxiliary capsule ( 3 ), the inner housing sleeve ( 6 ) being mounted displaceably within the outer housing sleeve ( 5 ) along the longitudinal axis of the mixing capsule ( 1 ) and rotatably about the longitudinal axis of the mixing capsule ( 1 ), the cylindrical inside pipe ( 4 ) or the mounting being mounted displaceably within the inner housing sleeve ( 6 ) along the longitudinal axis of the mixing capsule ( 1 ), and a part of the outer housing sleeve ( 5 ) and a part of the inner housing sleeve ( 6 ) being lockable in a first position of the inner housing sleeve ( 6 ) after the outer housing sleeve ( 5 ) and the inner housing sleeve ( 6 ) being telescoped along the longitudinal axis and after being rotated about the longitudinal axis. 2. The mixing capsule ( 1 ) according to claim 1 , wherein a part of the outer housing sleeve ( 5 ) and a part of the inner housing sleeve ( 6 ) form a bayonet catch ( 7 ) in a first position of the inner housing sleeve ( 6 ) after the outer housing sleeve ( 5 ) and the inner housing sleeve ( 6 ) being telescoped. 3. The mixing capsule ( 1 ) according to claim 1 , wherein the outer housing sleeve ( 5 ) encases the inner housing sleeve in part in the first position and in the second position of the inner housing sleeve ( 6 ), the encasement being larger in the first position than in the second position. 4. The mixing capsule ( 1 ) according to claim 1 , wherein the outer housing sleeve ( 5 ) encases the inner housing sleeve in part in the first position and in the second position of the inner housing sleeve ( 6 ), the encasement being maximal in the first position and minimal in the second position. 5. The mixing capsule ( 1 ) according to claim 1 , wherein the cylindrical inside pipe ( 4 ) and/or the mounting of the mixing capsule ( 1 ) has at least one guiding rail ( 10 ), the at least one guiding rail ( 10 ) being adapted to guide the auxiliary capsule ( 3 ) when being slid into the cylindrical inside pipe ( 4 ) and/or the mounting of the inner housing sleeve ( 6 ). 6. The mixing capsule ( 1 ) according to claim 1 , wherein the auxiliary capsule ( 3 ) has a helical bar ( 11 ) at the outer periphery, the helical bar ( 11 ) being adapted to guide the auxiliary capsule ( 3 ) when being rotated about the longitudinal axis of the auxiliary capsule ( 3 ) and when the auxiliary capsule ( 3 ) being slid into the cylindrical inside pipe ( 4 ) and/or the mounting of the inner housing sleeve ( 6 ), the helical bar ( 11 ) interacting with a notch and/or recess at the cylindrical inside pipe ( 4 ) and/or the mounting when the auxiliary capsule ( 3 ) being rotated about the longitudinal axis of the auxiliary capsule ( 3 ) and when the auxiliary capsule ( 3 ) being slid into the cylindrical inside pipe ( 4 ) and/or into the mounting of the inner housing sleeve ( 6 ). 7. The mixing capsule ( 1 ) according to claim 1 , wherein the outer housing sleeve ( 5 ) has a guiding groove ( 12 ) in its inside, the guiding groove ( 12 ) being directly adjacent to the inner housing sleeve ( 6 ), the guiding groove ( 12 ) being adapted to completely receive the cylindrical inside pipe ( 4 ) and/or the mounting along with auxiliary capsule ( 3 ) and ejection piston ( 8 ) when the cylindrical inside pipe ( 4 ) and/or the mounting along with the auxiliary capsule ( 3 ) and the ejection piston ( 8 ) being displaced from the inner housing sleeve ( 6 ) into the outer housing sleeve ( 5 ) along the longitudinal axis of the mixing capsule ( 1 ), the guiding groove ( 12 ) in particular having respectively one detent cam ( 13 ) at each of its longitudinal edges, being adapted to interact with an end edge and/or a recess of the cylindrical inside pipe ( 4 ) and/or the mounting. 8. The mixing capsule ( 1 ) according to claim 1 , wherein the applicator ( 2 ) has a round disc ( 24 ) at the top surface ( 15 ) of the outer housing sleeve ( 5 ), the round disc ( 24 ) being mounted rotatably about the longitudinal axis of the mixing capsule ( 1 ), the round disc ( 24 ) having a hole ( 16 ) being arranged congruently to a discharge opening ( 22 ) of the applicator ( 2 ), the applicator ( 2 ) further having an outlet opening ( 23 ), a discharge nozzle ( 20 ) being arranged between the discharge opening ( 22 ) and the outlet opening ( 23 ) of the applicator. 9. The mixing capsule ( 1 ) according to claim 8 , wherein the applicator ( 2 ) has a rotatably mounted disc ( 24 ) at the top surface of the cylinder, the round disc ( 24 ) being rotatable congruently with the hole ( 16 ) to the discharge opening ( 22 ) of the applicator ( 2 ). 10. The mixing capsule ( 1 ) according to claim 7 , wherein the guiding groove ( 12 ) and the round disc ( 24 ) are integrally connected and the hole ( 16 ) is rotatable congruently to the discharge opening ( 22 ) of the applicator ( 2 ) by rotating the inner housing sleeve ( 6 ). 11. The mixing capsule ( 1 ) according to claim 10 , wherein the outer housing sleeve ( 5 ) has an outlet opening ( 17 ) at its top surface ( 15 ), the hole ( 16 ) of the round disc ( 24 ) of the applicator ( 2 ) being bringable into congruency to the outlet opening ( 17 ) of the outer housing sleeve ( 5 ) by rotating the round disc ( 24 ) about the longitudinal axis of the mixing capsule ( 1 ). 12. The mixing capsule ( 1 ) according to claim 1 , wherein the inner housing capsule ( 6 ) has at least one guiding notch ( 18 ) or guiding bar and at least one cross bar ( 19 ) at its outside for the bayonet catch ( 7 ). 13. The mixing capsule ( 1