1. A formulation consisting of:
at least one elastomer selected from a group consisting of Dimethicone Copolymers in Dimethicone, Vinyldimethicone Copolymers in Dimethicone, Dimethicone crosspolymers in Dimethicone, Vinyldimethicone crosspolymers in Dimethicone, Silicone, and combination and mixtures thereof;
a first dispersant selected from a group consisting of Cyclomethicone, Isododecane, Hydrocarbons, Esters, Dimethicones, petrolatum, Cyclopentasiloxane, and combination and mixtures thereof;
a second dispersant selected from a group consisting of Dimethicone, Cyclomethicones, Hydrocarbons, Esters, and combination and mixtures thereof;
at least one active selected from a group consisting of Ascorbic Acid, Epigallo Catechin Gallate (EGCG), Hydroquinone, Ubiquinone, Ubiquinol, Ferrulic Acid, Lipoic acid, and combination and mixtures thereof;
an activator selected from a group consisting of Water, Glycerin, Glycols, Polyols, Polyglutamic Acid, Hyaluronic Acid, and combination and mixtures thereof; and
an anhydrous system which is selected from a group consisting of steardimonium hectorite, disteardimonium hectorite, and combination and mixtures thereof, wherein said formulation forms a delivery system wherein said active in said formulation retains its stability, functionality and aesthetics.
2. The formulation of claim 1 wherein said formulation can be used as a product selected from a group consisting of skin care products, cosmetics, cosmeceuticals, pharmaceuticals and nutriceuticals.
3. The formulation of claim 1 wherein said second dispersant has a viscosity from about 0.65 to about 350 centistoke at 25 degrees Celsius.
4. A process for manufacturing a formulation, said process consisting of:
admixing at least one elastomer with a first dispersant to form a gel, said elastomer is selected from a group consisting of Dimethicone Copolymers in Dimethicone, Vinyldimethicone Copolymers in Dimethicone, Dimethicone crosspolymers in Dimethicone, Vinyldimethicone crosspolymers in Dimethicone, Silicone, and combination and mixtures thereof, said first dispersant is selected from a group consisting of Cyclomethicone, Isododecane, Hydrocarbons, Esters, Dimethicones, petrolatum, Cyclopentasiloxane, and combination and mixtures thereof;
admixing a second dispersant with said gel, second dispersant is selected from a group consisting of Dimethicone, Cyclomethicones, Hydrocarbons, Esters, and combination and mixtures thereof,
admixing at least one active with said gel to form a delivery system wherein said active in said formulation retains its stability, functionality and aesthetics, said active is selected from a group consisting of Ascorbic Acid, Epigallo Catechin Gallate (EGCG), Hydroquinone, Ubiquinone, Ubiquinol, Ferrulic Acid, Lipoic acid, and combination and mixtures thereof;
admixing at least one activator with said gel wherein said activator is selected from a group consisting of Water, Glycerin, Glycols, Polyols, Polyglutamic Acid, Hyaluronic Acid, and combination and mixtures thereof
admixing an anhydrous system with said gel wherein said anhydrous system is selected from a group consisting of steardimonium hectorite, disteardimonium hectorite, and combination and mixtures thereof; and
admixing at least one organic sunscreen.
5. The process of claim 4 wherein said formulation can be used as a product selected from a group consisting of skin care products, cosmetics, cosmeceuticals, pharmaceuticals and nutriceuticals.
6. The formulation of claim 4 wherein said second dispersant has a viscosity from about 0.65 to about 20 centistoke at 25 degrees Celsius.
7. A formulation consisting of: at least one elastomer; a first dispersant selected from a group consisting of Dimethicone Copolymers in Dimethicone, Vinyldimethicone Copolymers in Dimethicone, Dimethicone crosspolymers in Dimethicone, Vinyldimethicone crosspolymers in Dimethicone, Silicone and combination and mixtures thereof; a second dispersant selected from a group consisting of Dimethicone, Cyclomethicones, Hydrocarbons, Esters, and combination and mixtures thereof; an active, wherein said active is selected from a group consisting of Ascorbic Acid, Epigallo Catechin Gallate (EGCG), Hydroquinone, Ubiquinone, Ubiquinol, Ferrulic Acid, Lipoic acid, and combination and mixtures thereof, wherein said formulation forms a delivery system wherein said active in said formulation retains its stability, functionality and aesthetics.
8. A process for manufacturing a formulation, said process consisting of:
admixing at least one elastomer with a first dispersant to form a gel, said elastomer is selected from a group consisting of Dimethicone Copolymers in Dimethicone, Vinyldimethicone Copolymers in Dimethicone, Dimethicone crosspolymers in Dimethicone, Vinyldimethicone crosspolymers in Dimethicone, Silicone, and combination and mixtures thereof, said first dispersant is selected from a group consisting of Cyclomethicone, Isododecane, Hydrocarbons, Esters, Dimethicones, petrolatum, Cyclopentasiloxane, and combination and mixtures thereof;
admixing a silicone with said gel;
admixing ascorbic acid with said gel to form a delivery system wherein said ascorbic acid in said formulation retains its stability, functionality and aesthetics; and
admixing an anhydrous system with said gel wherein said anhydrous system is selected from a group consisting of steardimonium hectorite, disteardimonium hectorite, and combination and mixtures thereof.
The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.
We claim:
1. A closing device for doors and hatches of motor vehicles, comprising:
at least one lock including a sliding block;
a drive device including an electric motor for generating a driving force for moving said sliding block;
a transmission means for transmitting a driving force to the sliding block, said transmission means including a compressiontension cable to control an opening and closing process of the closing device via linear motion of said sliding block.
2. The closing device of claim 1, further including a closing lever and a locking lever both pivotally supported and spaced apart from one another, wherein a position of the sliding block, relative to the closing lever and the locking lever, controls the opening and closing process of the lock.
3. The closing device of claim 1, wherein the sliding block is in a neutral position both in a closed position and also in an open position of the lock.
4. The closing device of claim 2, wherein the closing lever includes an actuating journal, wherein, with the sliding block being in its neutral position, the lock is positionable in a preliminary catch position in which the closing lever holds a body-side locking bolt while the actuating journal fits into a first catch of the locking lever.
5. The closing device of claim 4, wherein, to adjust the closed position of the lock, the sliding block is movable in the direction of the closing lever to push the closing lever by means of an upper lever arm into approximately a horizontal position parallel to a moving path of the sliding block so that the actuating journal of the closing lever fits securely into a second catch of the locking lever and in doing so moves the locking bolt by holding the closing lever in a blocked position to permit the sliding block to be moved again into the neutral position.
6. The closing device of claims 5, wherein said closing lever is spring-pretensioned, and wherein, to actuate the open position, the sliding block is moved in the direction of the locking lever to swivel the locking lever such that the actuating journal of the closing lever disengages from the second catch and the closing lever swivels into a position perpendicular to the compressiontension cable and releases the locking bolt to permit the sliding block to be moved again into the neutral position.
7. The closing device of claims 1, wherein an electric control controls the electric motor to displace the sliding block.
8. The closing device of claim 2, wherein the closing lever and the locking lever are both spring pretensioned, the spring pretensioning of the closing lever holding the closing lever in a vertical position perpendicular to the compressiontension cable for maintaining the open position of the lock, the spring pretensioning of the locking lever maintaining the locking lever in a vertical position perpendicular to the compressiontension cable to maintain the closed position of the lock.
9. The closing device of claim 1, wherein the at least one lock includes at least two locks actuated by the electric motor.
10. The closing device of claim 1, wherein the compressiontension cable includes an outer spiral for engaging a driving pinion of the electric motor.
11. The closing device of claim 9, wherein the electric motor actuates the at least two locks one at a time via two compressiontension cables.