IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
|
출원번호 |
US-0933337
(2004-09-03)
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우선권정보 |
KR-0063790 (2000-10-28); KR-0042128 (2000-07-22) |
발명자
/ 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
12 인용 특허 :
20 |
초록
▼
A liquid supply apparatus (10) is provided. The liquid supply apparatus (10) has a cylinder (12), a piston (14) and a piston pushing apparatus. The cylinder (12) is provided with a head portion (20) with outlet (24). The cylinder (12) has a rear end opened. The piston (14) is inserted into the cylin
A liquid supply apparatus (10) is provided. The liquid supply apparatus (10) has a cylinder (12), a piston (14) and a piston pushing apparatus. The cylinder (12) is provided with a head portion (20) with outlet (24). The cylinder (12) has a rear end opened. The piston (14) is inserted into the cylinder (12). The piston moves along the longitudinal direction of the cylinder (12) so as to inject liquid contained in the cylinder (12). The piston pushing apparatus (16) pushes the piston (14). The piston pushing apparatus (16) has a moving member contacting the rear portion of the piston (14), a electric motor and a movement transferring mechanism. The movement transferring mechanism converts the rotation of the motor into the linear movement of the moving member.
대표청구항
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1. A liquid supply apparatus, comprising:a cylinder having an interior space, a head portion and a rear portion, the head portion having a liquid-flow opening;a piston located in the interior space of the cylinder and air-tightly partitioning the interior space into a liquid compartment on the side
1. A liquid supply apparatus, comprising:a cylinder having an interior space, a head portion and a rear portion, the head portion having a liquid-flow opening;a piston located in the interior space of the cylinder and air-tightly partitioning the interior space into a liquid compartment on the side of the head portion and a gas compartment on the side of the rear portion;a gas supply apparatus configured to be coupled to the rear portion and to supply a gas into the gas compartment, the gas supply apparatus comprising:a solid material containing a gelatin, anda liquid material capable of generating the gas by a chemical reaction with the solid material; andwherein the piston is configured to move toward the head portion when the gas is supplied to the gas compartment.2. The liquid supply apparatus of claim 1, wherein the solid material comprises 70?95 wt % of sodium bicarbonate (NaHCO3), 3?30 wt % of gelatin, and no more than 3 wt % of talc.3. The liquid supply apparatus of claim 1, wherein the solid material comprises 90?94 wt % of sodium bicarbonate (NaHCO3), 5?10 wt % of gelatin, and no more than 1 wt % of talc.4. The liquid supply apparatus of claim 1, wherein the liquid material is a solution of L-tartaric acid (C4H6O6).5. The liquid supply apparatus of claim 1, wherein the gas supply apparatus is configured to generate the gas at a pressure from about 0.35 kg/cm2 to about 0.50 kg/cm2.6. The liquid supply apparatus of claim 1, wherein the gas supply apparatus further comprising a breakable partition isolating the solid and liquid materials from each other, a reaction vessel where the solid and liquid materials react with each other when the partition is broken, and a partition breaker configured to break the breakable partition so as to let the solid and liquid materials contact each other in the reaction vessel.7. The liquid supply apparatus of claim 6, wherein the reaction vessel is a container containing the liquid.8. A liquid supply apparatus, comprising:a cylinder having an interior space, a head portion and a rear portion, the head portion having a liquid-flow opening;a piston located in the interior space of the cylinder and air-tightly partitioning the interior space into a liquid compartment on the side of the head portion and a gas compartment on the side of the rear portion;a gas supply apparatus configured to be coupled to the rear portion and to supply a gas into the gas compartment, the gas supply apparatus comprising:a liquid material configured to be used to generate the gas, anda gas separating structure configured to separate the generated gas from the liquid, the gas separating structure comprising a liquid-impermeable-but-gas-permeable sheet in contact with the liquid material; andwherein the piston is configured to move toward the head portion when the gas is supplied to the gas compartment.9. The liquid supply apparatus of claim 8, wherein the gas supply apparatus further comprises a solid material capable of generating the gas by a chemical reaction with the liquid material.10. The liquid supply apparatus of claim 9, wherein the solid material contains a metal carbonate.11. The liquid supply apparatus of claim 9, wherein the solid material comprises 70?95 wt % of sodium bicarbonate (NaHCO3), 3?30 wt % of gelatin, and no more than 3 wt % of talc.12. The liquid supply apparatus of claim 9, wherein the solid material comprises 90?94 wt % of sodium bicarbonate (NaHCO3), 5?10 wt % of gelatin, and no more than 1 wt % of talc.13. The liquid supply apparatus of claim 9, wherein the liquid material is a solution of L-tartaric acid (C4H6O6).14. The liquid supply apparatus of claim 8, wherein the gas supply apparatus is configured to generate the gas at a pressure from about 0.35 kg/cm2 to about 0.50 kg/cm2.15. The liquid supply apparatus of claim 8, wherein the gas supply apparatus further comprises:a second material;a breakable partition isolating the liquid material and the second material from each other;a reaction vessel where the liquid and second materials react with each other when the partition is broken; anda partition breaker configured to break the breakable partition so as to let the liquid and second materials contact each other in the reaction vessel.16. The liquid supply apparatus of claim 15, wherein the reaction vessel is a container containing the liquid material.17. The liquid supply apparatus of claim 1, wherein the head portion of the cylinder comprises a projection extending into the interior space and has a longitudinal through-hole, the through-hole constituting the liquid-flow opening.18. The liquid supply apparatus of claim 17, wherein the piston has a leading end facing the projection, wherein the piston has a recess on the leading end thereof, and wherein the recess is configured to receive the projection.19. The liquid supply apparatus of claim 17, wherein the recess is further configured to substantially contact with the projection when receiving the projection.20. The liquid supply apparatus of claim 17, further comprising a tube connected to the cylinder via the through-hole of the projection, wherein the tube is in fluid communication with the liquid compartment.21. The liquid supply apparatus of claim 8, wherein the head portion of the cylinder comprises a projection extending into the interior space and has a longitudinal through-hole, the through-hole constituting the liquid-flow opening.22. The liquid supply apparatus of claim 21, wherein the piston has a leading end facing the projection, wherein the piston has a recess on the leading end thereof, and wherein the recess is configured to receive the projection.23. The liquid supply apparatus of claim 21, wherein the recess is further configured to substantially contact with the projection when receiving the projection.24. The liquid supply apparatus of claim 21, further comprising a tube connected to the cylinder via the through-hole of the projection, wherein the tube is in fluid communication with the liquid compartment.25. A liquid supply apparatus, comprising:a cylinder having an interior space, a head portion and a rear portion, the head portion having a liquid-flow opening;a piston located in the interior space of the cylinder and air-tightly partitioning the interior space into a liquid compartment on the side of the head portion and a gas compartment on the side of the rear portion;a gas supply apparatus configured to be coupled to the rear portion and to supply a gas into the gas compartment;a tube connected to the liquid-flow opening and in fluid communication with the liquid compartment;a cap configured to cover a distal end of the tube, the cap having a through-hole in fluid communication with the tube, the cap further comprising a gas-permeable-but-liquid-impermeable material placed and configured to allow passage of a gas from the tube through the through-hole while preventing passage of a liquid through the through-hole; andwherein the piston is configured to move toward the head portion when the gas is supplied to the gas compartment.26. The liquid supply apparatus of claim 1, wherein the piston has a recess on a trailing end thereof.27. The liquid supply apparatus of claim 8, wherein the piston has a recess on a trailing end thereof.28. A method of continuously supplying a liquid for an extended period of time, the method comprising:providing the liquid supply apparatus of claim 1;filling the liquid compartment with a liquid;activating the gas supply apparatus so as to supply the gas into the gas compartment, wherein the gas supply apparatus continuously supplies the gas into the gas compartment for an extended period of time; andwherein the piston is moved toward the head portion as a gaseous pressure within the gas compartment increases, whereby the liquid in the liquid compartment flows out of the liquid compartment through the liquid-flow opening.29. The method of claim 28, wherein the liquid is a liquid medication.30. A method of continuously supplying a liquid for an extended period of time, the method comprising:providing the liquid supply apparatus of claim 8;filling the liquid compartment with a liquid;activating the gas supply apparatus so as to supply the gas into the gas compartment, wherein the gas supply apparatus continuously supplies the gas into the gas compartment for an extended period of time; andwherein the piston is moved toward the head portion as a gaseous pressure within the gas compartment increases, whereby the liquid in the liquid compartment flows out of the liquid compartment through the liquid-flow opening.31. The method of claim 30, wherein the liquid is a liquid medication.32. The liquid supply apparatus of claim 25,wherein the head portion of the cylinder has a projection extending into the interior space and a longitudinal through-hole in the projection; andwherein the piston has a leading end facing the projection and a recess on the leading end thereof, the recess being configured to receive the projection.33. The liquid supply apparatus of claim 32, wherein the recess is further configured to substantially contact with the projection when receiving the projection.34. The liquid supply apparatus of claim 32, further comprising a tube connected to the cylinder via the through-hole of the projection, wherein the tube is in fluid communication with the liquid compartment.35. The liquid supply apparatus of claim 32, wherein the piston has a recess on a trailing end thereof.36. The liquid supply apparatus of claim 32, wherein the piston comprises a cylindrical body and a sealing ring, wherein the cylindrical body has an annular groove on an outer surface thereof, and wherein the sealing ring is fitted around the groove.37. A cap for covering a liquid supply tube, comprising:a cap body configured to cover an end of a liquid supply tube;a through-hole formed on the cap body, the through-hole being in fluid communication with the liquid supply tube; anda gas-permeable-but-liquid-impermeable material configured to allow passage of a gas from the tube through the through-hole while preventing passage of a liquid through the through-hole.38. The cap of claim 37, wherein the cap body is configured to tightly receive the end of the liquid supply tube.
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