IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0931687
(2001-08-16)
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발명자
/ 주소 |
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출원인 / 주소 |
- Food Equipment Technologies Company, Inc.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
15 인용 특허 :
18 |
초록
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A dispensing urn assembly (10, 10′) with a hollow body (12) with an interior surface for containing beverage (14) and a manually operable faucet (16) for selectively dispensing beverage (14) from the bottom of hollow body with an electronic status display assembly (50) controlled by a microcomputer
A dispensing urn assembly (10, 10′) with a hollow body (12) with an interior surface for containing beverage (14) and a manually operable faucet (16) for selectively dispensing beverage (14) from the bottom of hollow body with an electronic status display assembly (50) controlled by a microcomputer (62) in response to a temperature probe (44), a level probe (42) and a timer reset switch (46) to provide graphic displays (64,68, 72), numerical displays (66,70, 74) of the temperature, quantity and time elapsed or remaining since the brewing of the beverage and light indication displays (55,57, 59) when preselected values are ahieved. A an integrated funnel assembly (30′) with a down-tube (40) and level probes (174-186) carried by the down-tube (40), electronic module (170) and relatively rigid interconnection (200,174) between provdes a water tight passageway for leads from the probes to the microcomputer (62) contained within the electronic component housing and forms a single subassembly or module that eliminates the need for switches for activation and operation of the display (162) and may be removed for cleaning or repair.
대표청구항
▼
A dispensing urn assembly (10, 10′) with a hollow body (12) with an interior surface for containing beverage (14) and a manually operable faucet (16) for selectively dispensing beverage (14) from the bottom of hollow body with an electronic status display assembly (50) controlled by a microcomputer
A dispensing urn assembly (10, 10′) with a hollow body (12) with an interior surface for containing beverage (14) and a manually operable faucet (16) for selectively dispensing beverage (14) from the bottom of hollow body with an electronic status display assembly (50) controlled by a microcomputer (62) in response to a temperature probe (44), a level probe (42) and a timer reset switch (46) to provide graphic displays (64,68, 72), numerical displays (66,70, 74) of the temperature, quantity and time elapsed or remaining since the brewing of the beverage and light indication displays (55,57, 59) when preselected values are ahieved. A an integrated funnel assembly (30′) with a down-tube (40) and level probes (174-186) carried by the down-tube (40), electronic module (170) and relatively rigid interconnection (200,174) between provdes a water tight passageway for leads from the probes to the microcomputer (62) contained within the electronic component housing and forms a single subassembly or module that eliminates the need for switches for activation and operation of the display (162) and may be removed for cleaning or repair. rver waits to be contacted by said alarm verification station.5. The method of claim 4, wherein said alarm verification station contacts said alarm verification server and obtains said alarm verification information from said alarm verification server, whereby said alarm verification information is obtained by said alarm verification station.6. The method of claim 5, including the step of providing an intermediate server, and wherein, after said alarm verification server is initiated, said alarm verification server sends said alarm verification information to said intermediate server.7. The method of claim 6, wherein said alarm verification information is obtained by said alarm verification station by said alarm verification station contacting said intermediate server and contacting said alarm verification information from said intermediate server.8. A system for transmitting and verifying alarm signals over a TCP/IP network comprising: an electronic alarm monitoring system referred to as an alarm panel, including connections for connecting to a TCP/IP network, receivers for receiving alarm indications from at least one alarm sensor, and means for receiving alarm verification information from at least one alarm verification information source; an alarm client; a verification server connected to said alarm panel; an alarm monitor server; communication circuits for said alarm client to communicate with said alarm monitor server; an alarm verification station adapted to connect to said TCP/IP network; and communication circuits for said alarm monitor server to communicate with said alarm verification station; wherein when said at least one alarm sensor generates an alarm signal at said alarm client relating to an alarm indication, said alarm client prepares said alarm signal containing information about the alarm indication, and information about how to obtain said verification information from said verification server over said TCP/IP network, and sends said alarm signal to said alarm monitor server, and said information about said alarm indication and said information about how to obtain said alarm verification information from said verification server over said TCP/IP network, is forwarded to said verification station so as to adapt said verification station to obtain said alarm verification information. 9. The system of claim 8, wherein the means for said alarm panel to communicate with said alarm monitor server comprises said TCP/IP network.10. The system of claim 9, wherein the means for said alarm monitor server to communicate with said alarm verification station comprises said TCP/IP network.11. The system of claim 10, wherein said alarm monitor server and said alarm verification station are resident on the same host computer.12. The system of claim 10, wherein said alarm monitor server and said alarm verification station are resident on another host computer.13. A method for transmitting an alarm signal from an alarm client to an alarm monitor server and verifying said alarm signal over a TCP/IP network comprising the steps of: sending said alarm signal from said alarm client to said alarm monitor server over said TCP/IP network; sending an alarm verification signal from said alarm monitor to an alarm verification server over said TCP/IP network; and receiving said alarm verification signal over said TCP/IP network at said alarm verification server. 14. A system for transmitting and verifying alarm signals over a TCP/IP network comprising: an electronic alarm monitoring system for connecting to a TCP/IP network; receivers for receiving alarm indications from at least one alarm sensor; an alarm client; a verification server connected to said alarm monitoring system; an alarm monitor server, said alarm client being adapted to communicate with said alarm monitor server; and an alarm verification station adapted to connect to said TCP/IP network, and communicating with said a larm monitor server; wherein when said at least one alarm sensor generates an alarm signal at said alarm client, said alarm verification information is communicated from said verification server over said TCP/IP network, so as to send said alarm signal to said alarm monitor server. n of the knob. The timing capabilities of the lock provides the opportunity to set the minimum time that can be used in the entering of the combination. The lock waits a period of time, typically, two seconds between the entry of one element of the combination and the lock permitting the entry at the next element of the combination. The microprocessor will also keep a count record of all the failed attempts to open the lock since the last successful operation. If the numbers of tries or attempts to unlock the lock equals or exceeds the number set in the microprocessor microcode, the lock will fail to open even if an authorized combination is subsequently entered. After an error indication is displayed, the lock is disabled to prevent further entry tries, until the lock is reset. In order to eliminate the possibility of correlation between the number displayed and/or entered and knob position, there is a random time delay between the start of knob rotation and the incrementing the number displayed. ators connected in series with said filter section for providing a signal path and, in parallel with said signal path, one or more fourth piezoelectric resonators connected in series.4. A filter structure according to claim 1, which is a duplex filter having a receiver filter branch and a transmitter filter branch coupled to a conductor forming a common port for said receiver filter branch and transmitter filter branch, said filter section forming a part of either said receiver filter branch or transmitter filter branch and the passband of said receiver filter branch being different from the passband of said transmitter filter branch.5. A filter structure according to claim 4, wherein each of the receiver branch and the transmitter filter branch comprises a filter section having at least two branches connected in parallel, first branch of said at least two branches comprising one or more first piezoelectric resonators connected in series and a second branch of said at least two branches comprising one or more second piezoelectric resonators and phase shifting means connected in series, said phase shifting means arranged to provide a phase shift of substantially 180 degrees.6. A filter structure according to claim 4, further comprising phase shifting means arranged to provide a phase shift of substantially 90 degrees and to connect either the receiver filter branch or the transmitter filter branch to said conductor forming said common port.7. A filter structure according to claim 1, wherein said phase shifting means consists of one phase shifting element.8. A filter structure according to claim 7, wherein said phase shifting element is a transformer.9. A filter structure according to claim 7, wherein said phase shifting element is a substantially half-wavelength long transmission line.10. A filter structure according to claim 1, wherein said phase shifting means comprises lumped element phase shifting circuitry consisting of capacitors and coils.11. A filter structure according to claim 1, wherein said phase shifting means comprises a plurality of phase shifting elements, the sum of the phase shift arranged to be provided by said plurality of phase shifting elements being substantially 180 degrees.12. A filter structure according to claim 11, wherein said plurality of phase shifting elements comprises a plurality of transmission lines.13. A filter structure according to claim 12, wherein said plurality of transmission lines comprises two substantially quarter-wavelength long transmission lines.14. A filter structure according to claim 1, wherein the series resonance frequency of said one or more first piezoelectric resonators is substantially equal to the resonance frequency of said one or more second piezoelectric resonators.15. A filter structure according to claim 2, wherein the series resonance frequency of said one or more third piezoelectric resonators is substantially equal to the resonance frequency of said one or more fourth piezoelectric resonators.16. A filter structure according to claim 3, wherein the series resonance frequency of one or more third piezoelectric resonators is substantially equal to the resonance frequency of said one or more fourth piezoelectric resonators.17. A filter structure according to claim 1, wherein said one or more first piezoelectric resonators are bulk acoustic wave resonators.18. A filter structure according to claim 17, wherein said one or more second piezoelectric resonators are bulk acoustic wave resonators.19. A filter structure according to claim 1, wherein said one or more first and second piezoelectric resonators are surface acoustic wave resonators.20. An arrangement for transmitting and receiving radio frequency signal, comprising first amplification means for amplifying a first signal, second amplification means for amplifying a second signal, and a filter structure comprising a first filter branch for filtering the first signal and a second filter branch for filterin
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