A dispenser bottle having a first receiving container for a first active fluid and at least a second receiving container for a second active fluid, wherein the receiving containers each have a respective outlet for the active fluid and the outlets are arranged adjacently such that the two active flu
A dispenser bottle having a first receiving container for a first active fluid and at least a second receiving container for a second active fluid, wherein the receiving containers each have a respective outlet for the active fluid and the outlets are arranged adjacently such that the two active fluids can be applied in a common application field of an application region, and wherein the outlets each comprise a respective discharge nozzle, which nozzles are spaced from one another such that the active fluids intermix only after departing the discharge nozzles.
대표청구항▼
What is claimed is: 1. A dispenser bottle comprising a first receiving container for a first active fluid and at least a second receiving container for a second active fluid, wherein the receiving containers each have a respective outlet for the active fluid and the outlets are arranged adjacently
What is claimed is: 1. A dispenser bottle comprising a first receiving container for a first active fluid and at least a second receiving container for a second active fluid, wherein the receiving containers each have a respective outlet for the active fluid and the outlets are arranged adjacently such that the two active fluids can be applied in a common application field of an application region, and wherein the outlets each comprise a respective discharge nozzle, which nozzles are spaced from one another such that the active fluids intermix only after departing the discharge nozzles, wherein the nozzles each have cross-sectional constrictions arranged asymmetrically with respect to the associated nozzle cross-section to comprise means at the location of the constrictions, for increasing the flow speed of fluids being discharged through the nozzles, to impart a degree of twist to the fluids being discharged from the nozzles, wherein the receiving containers are compressible, wherein the receiving containers comprise a material that returns at least in part to original form after deformation, wherein the receiving containers are each formed as a complete container, connected only by at least one connecting web integrally connected at mutually facing inner sides of the receiving containers over substantially the full lengths of the receiving containers, and operating as a reinforcing means for stabilizing the mutually facing inner sides of the receiving containers and as a means for buttressing pressure forces exerted by the hand of a user when discharging active fluids from the containers, wherein the receiving containers together have a recessed holding region over a sufficiently large portion of the height of the container between vertically spaced ends to comprise means for facilitation grasping by a hand of a user for squeezing the containers and dispensing liquid from the containers, wherein the active fluids discharge from the nozzles and intermix at a predetermined distance after exiting the nozzles by hand pressure and/or gravitational force, and wherein the fluids intermix at a distance of approximately 50 millimeters to approximately 300 millimeters after exiting the nozzles. 2. The dispenser bottle of claim 1 wherein the receiving containers comprise one or more polyolefins selected from the group consisting of polypropylene, polyethylene, polyvinylchloride polyethylene terephthalate, a glycol-modified polyethyleneterephthalate, or any mixture thereof. 3. The dispenser bottle of claim 1, wherein the receiving containers have the same volume and/or have a like, similar, or symmetric shapes. 4. The dispenser bottle of claims 1, wherein the receiving containers are separate structures connected by said at least one connecting web formed between the receiving containers. 5. The dispenser bottle of claim 1, wherein the receiving containers are constructed integrally with one another and have a different transparency and/or a different colouring. 6. The dispenser bottle of claim 1, wherein the nozzles are part of a nozzle head that is comprised of a stiffer material than that of the containers, to have less deformation than the containers when the containers are squeezed. 7. The dispenser bottle of claim 6, wherein the receiving containers have in cross-section in the holding region outer circumference of approximately 18 to approximately 30 centimeters. 8. The dispenser bottle of claim 1, wherein at least one of the active fluids has a viscosity 1 to 100,000 mPas or is thixotropic. 9. The dispenser bottle of claim 8, wherein at least one of the active fluids has a viscosity of 1 to 10,000 mPas. 10. The dispenser bottle of claim 9, wherein at least one of the active fluids has a viscosity of 1 to 1,000 mPas. 11. The dispenser bottle of claim 1, wherein the outlets are oriented substantially parallel to one another. 12. The dispenser bottle of claim 1, the discharge nozzles are laterally spaced approximately 5 millimeters to approximately 30 millimeters. 13. The dispenser bottle of claim 12, the discharge nozzles are laterally spaced approximately 15 millimeters to approximately 20 millimeters. 14. The dispenser bottle of claim 1, wherein the discharge nozzles include a removable closure cap. 15. The dispenser bottle of claim 14, wherein the removable closure cap has a closure plugs that enters each of the discharge nozzles. 16. The dispenser bottle of claim 14, wherein the closure caps of the discharge nozzles are formed as a single closure cap. 17. The dispenser bottle of claim 1, wherein the discharge nozzles comprise nozzle channels that are substantially nonparallel or substantially parallel to one another. 18. The dispenser bottle of claim 17, wherein the constrictions have a length in ratio to the overall length of each nozzle channel of approximately 1:2 to approximately 1:4. 19. The dispenser bottle of claim 18, wherein the overall length of each nozzle channel is approximately 2 millimeters to approximately 6 millimeters. 20. The dispenser bottle of claim 17, wherein the nozzle channels have a diameter of approximately 1.0 millimeters to approximately 4.0 millimeters. 21. The dispenser bottle of claim 1 wherein the first receiving container contains a first active fluid and the second receiving container contains a different second active fluid, wherein the first active fluid comprises one or more optionally acidic decalcifiers, optionally acidic or basic adjusted abrading agents, or mixtures thereof, and the second active fluid comprises one or more bleaches, disinfecting agents, aromatics, abrading agents, neutral cleaners, surfactants, pH indicators, dyes, or mixtures thereof. 22. The dispenser bottle of claim 1, wherein the first receiving container contains a first active fluid and the second receiving container contains a different second active fluid, wherein the first active fluid comprises one or more pretreatment agents, liquid washing agents, surfactants, or any mixture thereof, and the second active fluid comprises one or more liquid washing agents, post-treatment agents, soft rinsing agents, tumble assisting agents, bleach activators, enzymes, dyes, aromatics, optical brighteners, silver protector agents, or any mixtures thereof. 23. The dispenser bottle of claim 1, wherein the first receiving container contains a first active fluid and the second receiving container contains a different second active fluid, wherein the first active fluid comprises one or more bleaches, and the second active fluid comprises one or more enzymes, anti-corrosion agents, aromatics, polymers, nio-surfactants, dyes, bleach activators, and any mixtures thereof. 24. The dispenser bottle of claim 1, wherein the first receiving container contains a first active fluid and the second receiving container contains a different second active fluid, wherein the first active fluid comprises one or more bleaches and the second active fluid comprises one or more bleach activators, optionally combined with one or more aromatics, polymers, nio-surfactants, dyes, enzymes, or any mixtures thereof. 25. The dispenser bottle of claim 1, wherein the first receiving container contains a first active fluid and the second receiving container contains a different second active fluid, wherein the first active fluid comprises one or more peracids and the second active fluid comprises one or more enzymes combined with one or more surfactants. 26. The dispenser bottle of claim 25, wherein the first active fluid comprises 1 weight percent to 25 weight percent organic peracid. 27. The dispenser bottle of claim 25, wherein the first active fluid comprises 6-phthalimidoperoxohexanoic acid. 28. The dispenser bottle of claim 25, wherein the first active fluid has an acidic pH. 29. The dispenser bottle of claim 28, wherein the first active fluid has a pH of 2.5 to 6. 30. The dispenser bottle of claim 29, wherein the first active fluid has a pH of 3 to 5. 31. The dispenser bottle of claim 25, wherein the second active fluid contains a mixture of non-ionic and anionic surfactants. 32. The dispenser bottle of claim 25, wherein an anionic surfactant and a non-ionic surfactant are separately contained in one or the other of the second active fluid and a third active fluid contained in a third receiving container. 33. The dispenser bottle of claim 31, wherein the anionic surfactant and non-ionic surfactant are present in the second active fluid in a weight ratio of 10:1 to 1:10. 34. The dispenser bottle of claim 33, wherein the anionic surfactant and non-ionic surfactant are present in the second active fluid in a weight ratio of 7.5:1 and 1:5. 35. The dispenser bottle of claim 34, wherein the anionic surfactant and non-ionic surfactant are present in the second active fluid in a weight ratio of 5:1 and 1:2. 36. The dispenser bottle of claim 1, wherein a single active fluid or the total active fluids comprise 5 weight percent to 80 weight percent of one or more surfactants. 37. The dispenser bottle of claim 36, wherein a single active fluid or the total active fluids comprise 7.5 weight percent to 70 weight percent of one or more surfactants. 38. The dispenser bottle of claim 37, wherein a single active fluid or the total active fluids comprise 10 weight percent to 60 weight percent of one or more surfactants. 39. The dispenser bottle of claim 38, wherein a single active fluid or the total active fluids comprise 12.5 weight percent to 50 weight percent of one or more surfactants. 40. The dispenser bottle of claim 25, wherein the active fluid comprises one or more proteases, amylases, cellulases, or mixtures thereof. 41. The dispenser bottle of claim 25, wherein the second active fluid is alkaline. 42. The dispenser bottle of claim 25, wherein the first active fluid comprises a first component of a multi-phase liquid cleaning agent, and at least the second active fluid comprises a further component of said multi-phase liquid cleaning agent. 43. A dispenser bottle comprising a first receiving container for a first active fluid and at least a second receiving container for a second active fluid, wherein the two receiving containers are either separately constructed and connected together or constructed integrally with one another and wherein the receiving containers each have a respective outlet for the active fluid contained therein and the outlets are arranged adjacent to one another such that the two active fluids can be applied in a common application field of an application region, wherein the receiving containers are compressible containers, and wherein the two active fluids comprise components of a toilet cleaning agent, a cleaning agent for cleaning hard surfaces, a disinfecting agent, a washing agent, a dishwashing agent, or an anti-corrosion agent, and wherein the outlets each comprise a respective discharge nozzle, which nozzles are spaced from one another such that the active fluids intermix only after departing the discharge nozzles, wherein the nozzles each have cross-sectional constrictions arranged asymmetrically with respect to the associated nozzle cross-section to comprise means at the location of the constrictions, for increasing the flow speed of fluids being discharged through the nozzles, to impart a degree of twist to the fluids being discharged from the nozzles, wherein the receiving containers comprise a material that returns at least in part to original form after deformation, wherein the receiving containers are each formed as a complete container, connected only by at least one connecting web integrally connected at mutually facing inner sides of the receiving containers over substantially the full lengths of the receiving containers, and operating as a reinforcing means for stabilizing the mutually facing inner sides of the receiving containers and as a means for buttressing pressure forces exerted by the hand of a user when discharging active fluids from the containers, wherein the receiving containers together have a recessed holding region over a sufficiently large portion of the height of the container between vertically spaced ends to comprise means for facilitation grasping by a hand of a user for squeezing the containers and dispensing liquid from the containers.
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이 특허에 인용된 특허 (46)
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