1. A dry, edible, sexual enhancement lubricant powder composition comprising:
a dry, powdered sweetening agent which is also a sialogogue,
a dry, powdered thickening agent, which is combined with the sweetening agentsialogogue;
a dry, powdered flavoring agent, which is combined with the sweetening agentsialogogue and thickening agent
the composition such that whereupon the addition of human saliva to the dry, powdered, edible composition, effectuates the transformation of the composition into a gel-like lubricant useable for sexual enhancement.
2. The composition of claim 1, wherein the flavoring agent comprises a dextrose base powder, and at least one natural flavor.
3. The composition of claim 1 wherein the dry, powdered sweetening agent which is also a sialogogue is xylitol, present in an amount from 43%-73% by weight of the total dry, edible, sexual enhancement lubricant powder composition.
4. The composition of claim 1 wherein the dry, powdered thickening agent is lecithin, present in an amount from 0.3%-3% by weight of the total dry, edible, sexual enhancement lubricant powder composition.
5. The composition of claim 1 wherein the dry, powdered flavoring agent is a dextrose base powder with at least one added natural flavor, the flavoring agent present in an amount from 26%-55% by weight of the total dry, edible, sexual enhancement lubricant powder composition.
6. The composition of claim 1 further comprising a coloring agent.
7. The composition of claim 1 further comprising a flavoring agent that acts as an aroma-enhancing agent.
8. The composition of claim 1 further comprising a glow-in-the dark agent.
9. The composition of claim 1 further comprising a preserving agent.
10. A dry, edible, sexual enhancement lubricant powder composition comprising:
dry, powdered xylitol, used as a sweetenersialogogue;
a dry, powdered gelatinizing viscosity enhancer which provides for an increase in the internal resistance of the composition when a liquid phase is added without substantially modifying other properties of the composition, improves suspension of dry powdered ingredients of the composition in a liquid phase, the gelatinizing viscosity enhancer being combined with the xylitol;
a dry, powdered flavoring agent, which is combined with the xylitol and gelatinizing viscosity enhancer wherein the flavoring further comprises:
a dextrose base powder, and
at least one natural flavor;
the composition such that whereupon the addition of human saliva to the dry, powdered, edible composition, effectuates the transformation of the composition into a viscous semi-rigid colloidal suspension useable as a personal lubricant.
11. The composition of claim 10 wherein the xylitol is present in an amount from 54%-66% by weight of the total dry, edible, sexual enhancement lubricant powder composition.
12. The composition of claim 10 wherein the xylitol is a finely ground powder.
13. The composition of claim 10 wherein the gelatinizing viscosity enhancer is lecithin and is present in the amount of from 0.9%-1.1% by weight of the total dry, edible, sexual enhancement lubricant powder composition.
14. The composition of claim 10 wherein the flavoring agent is present in an amount from 32%-45% by weight of the total dry, edible, sexual enhancement lubricant powder composition.
15. A method of sexual enhancement comprising:
providing a dry, edible, sexual enhancement lubricant powder composition comprising:
a dry, powdered sweetening agent which is also a sialogogue,
a dry, powdered thickening agent, which is combined with the sweetening agentsialogogue;
a dry, powdered flavoring, which is combined with the sweetening agentsialogogue and the thickening agent, wherein the flavoring further comprises:
a dextrose base powder, and
natural flavors;
the composition such that whereupon the addition of human saliva to the dry, powdered, edible composition, the composition transforms into a gel-like lubricant useable for sexual enhancement;
applying the dry, edible sexual lubricant powder to an external human body part;
adding human saliva to the dry, edible sexual enhancement lubricant powder; and
using the mixture of dry, edible sexual lubricant powder and human saliva as a sexual lubricant.
16. The method of claim 15 wherein the human saliva is added by orally engaging the body part to which the sexual enhancement lubricant powder has been applied, thereby imparting human saliva to the dry, edible sexual enhancement lubricant powder.
17. The method of claim 15 wherein the provided sexual lubricant enhancement powder comprises a glow-in-the-dark agent.
18. The method of claim 17 wherein an ultraviolet light source is provided to activate fluorescence of the glow-in-the-dark agent.
19. The method of claim 15 wherein the method further comprises grinding by mechanical force the dry, powdered components prior to mixing to ensure the components and the resulting composition are finely ground powders.
20. The method of claim 15 wherein the method further comprises sifting the composition at least once to add air to the composition in order to lower composition density and increase composition volume, resulting in a lighter, fluffier composition
The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.
1. A thermostatic assembly for controlling flow of a fluid along a fluid path in response to a temperature of the fluid, the thermostatic assembly comprising:
a structure for location in the fluid path, the structure including a plurality of openings for selectively allowing the fluid to pass through the structure; and
first and second moveable elements each coupled to the structure for movement between a first position and a second position such that in the first position the plurality of openings permit the fluid to pass through the structure and in the second position the first and second moveable elements reduce or prevent the fluid from passing through the structure,
wherein the first and second moveable elements each selectively opens and closes at least two openings of the plurality of openings such that a first force in a first direction to move the first moveable element toward the first position is cancelled by a second force in a second, opposite direction to move the second moveable element toward the second position.
2. The thermostatic assembly of claim 1, further comprising a temperature responsive element coupled to the first and second moveable elements for moving the first and second moveable elements between the first position and the second position.
3. The thermostatic assembly of claim 2, wherein the temperature responsive element is a bi-metal element.
4. The thermostatic assembly of claim 3, further comprising a shaft that connects the first and second moveable elements to the bi-metal element to transmit movement of the bi-metal element to the first and second moveable elements.
5. The thermostatic assembly of claim 3, wherein the bi-metal element rotates the first moveable element in a first direction in response to a temperature above a predetermined temperature and in a second, opposite direction in response to a temperature below the predetermined temperature.
6. The thermostatic assembly of claim 2, wherein the temperature responsive element moves the first moveable element in one direction on rising temperature of an engine coolant and the opposite direction with falling temperature.
7. The thermostatic assembly of claim 2, wherein a first half of the openings of the structure are sealed from a first side of the structure and a second half of the openings of the structure are sealed from a second side of the structure by action of the temperature responsive element.
8. The thermostatic assembly of claim 1, wherein the fluid path is partially open at a first temperature and fully open at a second temperature.
9. A thermostatic assembly for controlling flow of a fluid along a fluid path in response to a temperature of the fluid, the thermostatic assembly comprising:
a housing for location in the fluid path, the housing including a plurality of openings including at least first and second pairs of openings for selectively allowing the fluid to pass through the housing; and
first and second rotors each coupled to the housing for movement between a first position and a second position such that in the first position the plurality of openings permit the fluid to pass through the housing and in the second position the first and second rotors reduce or prevent the fluid from passing through the housing,
wherein the first and second rotors each selectively opens and closes at least two openings of the plurality of openings such that a first force in a first direction to move that the first rotor toward the first position is cancelled by a second force in a second, opposite direction to move the second rotor toward the second position.
10. The thermostatic assembly of claim 9, further comprising a temperature responsive element coupled to the first and second rotors for moving the first and second rotors between the first position and the second position.
11. The thermostatic assembly of claim 10, wherein the temperature responsive element is a bi-metal element.
12. The thermostatic assembly of claim 9, wherein the first and second rotors both operate to open and close one of the first and second pairs of openings.
13. The thermostatic assembly of claim 9, wherein a first half of the openings of the housing are sealed from an outside of the housing and a second half of the openings of the rotor are sealed from an inside of the housing.