IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0021445
(2001-10-30)
|
발명자
/ 주소 |
|
대리인 / 주소 |
Eugene Stephens & Associates
|
인용정보 |
피인용 횟수 :
13 인용 특허 :
14 |
초록
▼
An evaporation chamber controlled by a pressure drop across an intake valve is used in conjunction with a regulator to supply fuel such as propane in its gaseous state regardless of the chamber's orientation to a portioning fuel injection system for portable engines such as can be used for gas-power
An evaporation chamber controlled by a pressure drop across an intake valve is used in conjunction with a regulator to supply fuel such as propane in its gaseous state regardless of the chamber's orientation to a portioning fuel injection system for portable engines such as can be used for gas-powered fastening tools.
대표청구항
▼
An evaporation chamber controlled by a pressure drop across an intake valve is used in conjunction with a regulator to supply fuel such as propane in its gaseous state regardless of the chamber's orientation to a portioning fuel injection system for portable engines such as can be used for gas-power
An evaporation chamber controlled by a pressure drop across an intake valve is used in conjunction with a regulator to supply fuel such as propane in its gaseous state regardless of the chamber's orientation to a portioning fuel injection system for portable engines such as can be used for gas-powered fastening tools. ; wherein an outer surface of said clutch member threadably engages with an inner surface of said roller at an end thereof when said first and second engaging portions are in the engaged and disengaged states; and wherein when said transmission path is connected by said driving source switching means, said roller, by a transmission of rotation from one of said rotary members through said transmission path, rotates at the peripheral surface speed which is different from the other of said rotary members, and when said transmission path is disconnected by said driving source switching means, said roller rotates at a peripheral surface speed, which is approximately the same as the other of said rotary members according to the frictional force between the circumferential surfaces. 2. A roller structure according to claim 1, wherein one of said rotary members rotates at a peripheral speed lower than that of the other one of said rotary members. 3. A roller structure according to claim 1, wherein said roller is a dampening form roller, and said rotary members are a plate cylinder and an oscillating roller. 4. A roller structure in a printing press, comprising: a roller supported rotatably and adapted to come into contact with two rotary members, having different peripheral surface speeds, at outer surfaces thereof; a transmission path for transmitting rotation of one of said rotary members to said roller, wherein said transmission path includes a gear mechanism including a driving gear which rotates together with one of said rotary members, and wherein said gear mechanism has a gear member rotatably supported to be coaxial with said roller and meshing with said driving gear; a roller shaft rotatable together with said roller and adapted to rotatably support said gear member; driving source switching means for connecting/disconnecting said transmission path, wherein said driving source switching means is formed of a clutch mechanism for connecting/disconnecting transmission of rotation between one of said rotary members and said roller through said gear mechanism, and wherein said clutch mechanism has a cylindrical clutch member supported by said roller shaft to be rotatable and axially moveable and adapted to move close to/away from said gear member when connected to said roller, thereby disconnecting/connecting transmission of rotation from said gear member to said roller; wherein one of said gear member and said clutch member has an engaging cylindrical portion, at a central portion of a side surface thereof, with a tapered tilted surface, and the other one of said gear member and said clutch member has an engaging hole, at a central portion of a side surface thereof, with a tapered inner wall to engage with said engaging cylindrical portion, said engaging cylindrical portion and said engaging hole being set in engaged and disengaged states as said clutch member moves; and wherein when said transmission path is connected by said driving source switching means, said roller, by a transmission of rotation from one of said rotary members through said transmission path, rotates at the peripheral surface speed which is different from the other of said rotary members, and when said transmission path is disconnected by said driving source switching means, said roller rotates at a peripheral surface speed, which is approximately the same as the other of said rotary members according to the frictional force between the circumferential surfaces. 5. A roller structure according to claim 4, wherein one of said rotary members rotates at a peripheral speed lower than that of the other one of said rotary members. 6. A roller structure according to claim 4, wherein said roller is a dampening form roller, and said rotary members are a plate cylinder and an oscillating roller. 7. A roller structure in a printing press, comprising: a roller supported rotatably and adapted to come into contact with two rotary members, hav ing different peripheral surface speeds, at outer surfaces thereof; a transmission path for transmitting rotation of one of said rotary members to said roller, wherein said transmission path includes a gear mechanism including a driving gear which rotates together with one of said rotary members, and wherein said gear mechanism has a gear member rotatably supported to be coaxial with said roller and meshing with said driving gear; driving source switching means for connecting/disconnecting said transmission path, wherein said driving source switching means is formed of a clutch mechanism for connecting/disconnecting transmission of rotation between one of said rotary members and said roller through said gear mechanism, and said clutch mechanism connects/disconnects transmission of rotation between said gear member and said roller; a roller shaft for rotatably supporting said roller and said gear member, wherein said clutch mechanism is formed of a cylindrical clutch member supported to be movable in an axial direction of said roller shaft and adapted to move close to/away from said roller when connected to said gear member, thereby connecting/disconnecting transmission of rotation from said gear member to said roller; wherein said clutch member has a gear portion, on an outer surface thereof, to engage with an inner surface of said gear member, and when said clutch member moves close to said roller, said gear portion is rotatably connected to said roller through an engaging member formed on an inner surface of said roller; and wherein when said transmission path is connected by said driving source switching means, said roller, by a transmission of rotation from one of said rotary members through said transmission path, rotates at the peripheral surface speed which is different from the other of said rotary members, and when said transmission path is disconnected by said driving source switching means, said roller rotates at a peripheral surface speed, which is approximately the same as the other of said rotary members according to the frictional force between the circumferential surfaces. 8. A roller structure according to claim 7, further comprising a movable element engageable with said clutch member when meshing with an outer surface of said gear member and adapted to move said clutch member close to/away from said roller in accordance with rotation. 9. A roller structure according to claim 7, wherein one of said rotary members rotates at a peripheral speed lower than that of the other one of said rotary members. 10. A roller structure according to claim 7, wherein said roller is a dampening form roller, and said rotary members are a plate cylinder and an oscillating roller. el and also in a reverse direction for outputting cooked food items from said cooking vessel; d. a multiplicity of storage and delivery systems located in an upper portion of said automatic stir-fry machine for containing ingredients and condiments and dispensing pre-determined amounts of said ingredients and condiments into said cooking vessel at pre-determined times for cooking said stir-fry dishes; e. a combustion control and safety system having an automatic fire extinguish assembly for closing said exhaust port of said cooking chamber in case of fire inside said cooking chamber; f. a micro-controller unit located in a front portion of said automatic stir-fry machine for controlling the automatic cooking operation of said automatic stir-fry machine; and g. input devices connected to said micro-processor unit for loading computer software programs and making cooking process instructions and selections. 2. The automatic stir-fry machine in accordance with claim 1, wherein said multiplicity of storage and delivery systems comprises a plurality of dry condiment storage and delivery systems. 3. The automatic stir-fry machine in accordance with claim 1, wherein said multiplicity of storage and delivery systems comprises a plurality of liquid condiment storage and delivery systems. 4. The automatic stir-fry machine in accordance with claim 1, wherein said multiplicity of storage and delivery systems comprises a plurality of temporary liquid condiment storage and delivery systems. 5. The automatic stir-fry machine in accordance with claim 1, wherein said multiplicity of storage and delivery systems comprises a plurality of main ingredient storage and delivery systems. 6. The automatic stir-fry machine in accordance with claim 1, wherein said multiplicity of storage and delivery systems comprises a starch stirrer unit. 7. The automatic stir-fry machine in accordance with claim 1, further comprising a water supply system. 8. The automatic stir-fry machine in accordance with claim 1, further comprising a cooked food output assembly. 9. The automatic stir-fry machine in accordance with claim 1, further comprising a self-cleaning system. 10. The automatic stir-fry machine in accordance with claim 9, wherein said self-cleaning system comprises water pipes located near said exhaustion port of said combustion chamber for utilizing the residual heat thereof to heat water for cleaning purposes. 11. The automatic stir-fry machine in accordance with claim 1, further comprising a temperature and humidity control system. 12. The automatic stir-fry machine in accordance with claim 11, wherein said temperature and humidity control system comprises air circulating fans. 13. The automatic stir-fry machine in accordance with claim 11, wherein said temperature and humidity control system comprises an automatic sprinkler assembly. 14. The automatic stir-fry machine in accordance with claim 1, further comprising a refrigerating system for storing said condiments and ingredients at pre-determined low temperature ranges. 15. The automatic stir-fry machine in accordance with claim 1, further comprising audio and visual display devices for indicating cooking process status. 16. The automatic stir-fry machine in accordance with claim 1, further comprising audio and visual alarms for indicating abnormal conditions. 17. An automatic stir-fry machine to be placed on a burner for cooking stir-fry dishes, comprising: a. an adaptor assembly for mounting said automatic stir-fry machine on said burner, forming a closed combustion chamber under said automatic stir-fry machine with only a rear exhaustion port; b. a closed cooking chamber in a lower portion of said automatic stir-fry machine with only a rear exhaustion port, containing a cooking vessel formed primarily by two oppositely spaced apart vertical sidewalls and a generally cylindrical shaped bottom having a horizontal axis; c. a slice assembly supported inside said cooking vessel and rotatable ab
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