IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
|
출원번호 |
US-0881876
(2001-06-15)
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발명자
/ 주소 |
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인용정보 |
피인용 횟수 :
6 인용 특허 :
15 |
초록
▼
A finishing tool holder includes a plurality of pocket assemblies each having a front wall, a pair of side walls, a rear wall and a bottom wall. The pocket assemblies have a holding space that is adapted for holding a finishing knife. One of the pluralities of pocket assemblies is adapted for remova
A finishing tool holder includes a plurality of pocket assemblies each having a front wall, a pair of side walls, a rear wall and a bottom wall. The pocket assemblies have a holding space that is adapted for holding a finishing knife. One of the pluralities of pocket assemblies is adapted for removably coupling to the belt of the user. The pocket assemblies are coupled to an adjacent one of the pocket assemblies. A plurality of compartments are provided. Each of the compartments has a storage space adapted for storing one of the finishing knives. Each of the a compartments is coupled to an adjacent one of the compartments. One of the compartments is coupled to one of the pocket assemblies such that the compartments are adapted for being removably coupled to the user.
대표청구항
▼
A finishing tool holder includes a plurality of pocket assemblies each having a front wall, a pair of side walls, a rear wall and a bottom wall. The pocket assemblies have a holding space that is adapted for holding a finishing knife. One of the pluralities of pocket assemblies is adapted for remova
A finishing tool holder includes a plurality of pocket assemblies each having a front wall, a pair of side walls, a rear wall and a bottom wall. The pocket assemblies have a holding space that is adapted for holding a finishing knife. One of the pluralities of pocket assemblies is adapted for removably coupling to the belt of the user. The pocket assemblies are coupled to an adjacent one of the pocket assemblies. A plurality of compartments are provided. Each of the compartments has a storage space adapted for storing one of the finishing knives. Each of the a compartments is coupled to an adjacent one of the compartments. One of the compartments is coupled to one of the pocket assemblies such that the compartments are adapted for being removably coupled to the user. tor and pushing the ferromagnetic pellets in the anterior wall away from the second electromagnetic field generator to relax the heart chamber; (h) discontinuing the second electromagnetic field generated by the second electromagnetic field generator; and (i) repeating cyclically steps (e)-(h). 2. The method of claim 1, wherein the heart chamber is the heart's left ventricle. 3. The method of claim 1, wherein the pellets are inserted into the myocardium of the anterior and posterior walls. 4. The method of claim 1, further comprising the steps of: (j) positioning an EKG monitor on the patient and generating a waveform of the heart's electrical activity; and (k) synchronizing the cyclical electromagnetic fields generated by the first and second electromagnetic field generators to correspond to the heart's electrical activity. 5. A method of compressing and relaxing a chamber in a heart of a patient comprising the steps of: (a) inserting a plurality of diamagnetic pellets into the anterior wall of the heart chamber; (b) inserting a plurality of ferromagnetic pellets into the posterior wall of the heart chamber; (c) positioning a first electromagnetic field generator on a chest wall of the patient; (d) positioning a second electromagnetic field generator on a back wall of the patient; (e) generating a first electromagnetic field with the first electromagnetic field generator thereby pushing the diamagnetic pellets in the anterior wall away from the first electromagnetic field generator and pulling the ferromagnetic pellets in the posterior wall toward the first electromagnetic field generator to compress the heart chamber; (f) discontinuing the first electromagnetic field generated by the first electromagnetic field generator; (g) generating a second electromagnetic field with the second electromagnetic field generator thereby pulling the ferromagnetic pellets in the posterior wall toward the second electromagnetic field generator and pushing the diamagnetic pellets in the anterior wall away from the second electromagnetic field generator to relax the heart chamber; (h) discontinuing the second electromagnetic field generated by the second electromagnetic field generator; and (i) repeating cyclically steps (e)-(h). 6. The method of claim 5, wherein the heart chamber is the heart's left ventricle. 7. The method of claim 5, wherein the pellets are inserted into the myocardium of the anterior and posterior walls. 8. The method of claim 5, further comprising the steps of: (j) positioning an EKG monitor on the patient and generating a waveform of the heart's electrical activity; and (k) synchronizing the cyclical electromagnetic fields generated by the first and second electromagnetic field generators to correspond to the heart's electrical activity. he steps of: providing a control valve joined for fluid conduction between each of the at least two containers and the means for fluid conduction; and selecting first, the second one of the containers using the control valve to enable suction on the automotive radiator, and thereafter selecting second, the first one of the containers using the control valve to enable suction on the first one of the containers. 3. The method of claim 1 further comprising the steps of: pressurizing the second one of the containers and establishing connection with the means for fluid conduction between the second one of the containers and a waste repository to enable dispensing of the spent radiator fluid. 4. A method of replacing radiator fluid in an automotive radiator, the method comprising the steps of: providing at least four containers, each of the containers providing a means for sealing against gas leaks from and into the container, a means for fluid conduction, the fluid conduction means integral with a nozzle adapted for sealing a radiator fill pipe nipple; filling a first one of the containers with a fresh radiator fluid; filling a third one of the containers with a radiator flush; drawing a high vacuum on a second and a fourth one of the containers; establishing suction, using the means for fluid conduction, between an automotive radiator containing a spent radiator fluid, and the second one of the containers; drawing the spent radiator fluid into the second one of the containers, through the fluid conduction means, using only suction from the second one of the containers, thereby leaving the automotive radiator under a partial vacuum; establishing suction, using the means for fluid conduction, between the automotive radiator and the third one of the containers; drawing the radiator flush into the radiator, through the fluid conduction means, using only suction from the radiator, thereby leaving the third one of the containers at atmospheric pressure; establishing suction, using the means for fluid conduction, between the automotive radiator containing the radiator flush, and the fourth one of the containers; drawing the radiator flush into the fourth one of the containers, through the fluid conduction means, using only suction from the fourth one of the containers, thereby leaving the automotive radiator under a partial vacuum; establishing suction, using the means for fluid conduction, between an automotive radiator, and the first one of the containers; drawing the fresh radiator fluid into the automotive radiator, through the fluid conduction means, using only suction from the radiator, thereby leaving the automotive radiator clean and filled with fresh radiator fluid. 5. The method of claim 4 further comprising the steps of: providing a control valve joined for fluid conduction between each of the at least four containers and the means for fluid conduction; and selecting first, the second one of the containers using the control valve to enable suction on the automotive radiator, and thereafter selecting second, the third one of the containers using the control valve to enable suction on the third one of the containers; and thereafter selecting third, the fourth one of the containers using the control valve to enable suction on the radiator; and thereafter selecting fourth, the first one of the containers using the control valve to enable suction on the first one of the containers. 6. The method of claim 4 further comprising the steps of: pressurizing the second one of the containers; establishing connection with the means for fluid conduction between the second one of the containers and a waste repository to enable dispensing of the spent radiator fluid; and establishing connection with the means for fluid conduction between the fourth one of the containers and a further waste repository to enable dispensing of the used flush. he on board tanks of aircraft. The system is adapted to provide a supply of scrubbed fuel having a low concentration of dissolved oxygen. The scrubbed fuel can be supplied from bulk storage tanks to dispensing stations nearby the aircraft loading and boarding positions at an airport. The system also includes equipment adapted to wash the ullage of the aircraft fuel tanks to remove excess oxygen above the fuel in the tanks. The system further includes a gas cleaning unit to strip excessive amounts of volatile organic compounds from gas exhausted during operation of the system thereby producing environmentally benign atmospheric emissions. 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