IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0813618
(2001-03-21)
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발명자
/ 주소 |
- Rudick, Arthur G.
- Berchowitz, David M.
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출원인 / 주소 |
- The Coca-Cola Company, Global Cooling BV
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대리인 / 주소 |
Sutherland Asbill & Brennan, LLP
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인용정보 |
피인용 횟수 :
20 인용 특허 :
94 |
초록
▼
An enclosure for a refrigerated space. The enclosure may include a thermosiphon and a Stirling cooler. The thermosiphon may include a condenser end and an evaporator end. The ends may be connected by a small diameter pipe and a large diameter pipe. The Stirling cooler may drive the thermosiphon to c
An enclosure for a refrigerated space. The enclosure may include a thermosiphon and a Stirling cooler. The thermosiphon may include a condenser end and an evaporator end. The ends may be connected by a small diameter pipe and a large diameter pipe. The Stirling cooler may drive the thermosiphon to cool the refrigerated space.
대표청구항
▼
An enclosure for a refrigerated space. The enclosure may include a thermosiphon and a Stirling cooler. The thermosiphon may include a condenser end and an evaporator end. The ends may be connected by a small diameter pipe and a large diameter pipe. The Stirling cooler may drive the thermosiphon to c
An enclosure for a refrigerated space. The enclosure may include a thermosiphon and a Stirling cooler. The thermosiphon may include a condenser end and an evaporator end. The ends may be connected by a small diameter pipe and a large diameter pipe. The Stirling cooler may drive the thermosiphon to cool the refrigerated space. ; US-4231207, 19801100, Kern et al., 052/730.3; US-4411111, 19831000, Hosooka, 052/204.55; US-4870791, 19891000, Nelson, 052/213; US-5157881, 19921000, Tashman et al., 052/098; US-5392574, 19950200, Sayers, 052/217; US-5557894, 19960900, Card, 052/204.55; US-5608637, 19970300, Wang et al., 364/468.03; US-5660010, 19970800, Sayers, 052/217; US-D390974, 19980200, Opielski et al., D25/124; US-D391649, 19980300, Opielski et al., D25/124; US-D406663, 19990300, Morton et al., D25/124; US-D407505, 19990300, Hersh et al., D25/124; US-D407506, 19990300, Hersh et al., D25/124; US-6006478, 19991200, Hubner et al., 052/656.5; US-6044611, 20000400, Brunett, 052/208; US-6055782, 20000500, Morton et al., 052/204.1; US-6119324, 20000900, Suess, 029/417; US-D432248, 20001000, Habeck et al., D25/124; US-D432251, 20001000, Habeck et al., D25/124; US-D432677, 20001000, Habeck et al., D25/124; US-D432678, 20001000, Habeck et al., D25/124; US-D432681, 20001000, Habeck et al., D25/124; US-D436187, 20010100, Habeck et al., D25/124; US-D436188, 20010100, Habeck et al., D25/124; US-D436189, 20010100, Habeck et al., D25/124; US-D436416, 20010100, Habeck et al., D25/124; US-D436670, 20010100, Habeck et al., D25/124; US-D436672, 20010100, Habeck et al., D25/124; US-D437061, 20010100, Habeck et al., D25/124; US-D437424, 20010200, Habeck et al., D25/124; US-6182405, 20010200, Lindahl, 052/208; US-D438641, 20010300, Ballard et al., D25/124; US-D438644, 20010300, Habeck et al., D25/124; US-D440324, 20010400, Habeck et al., D25/124; US-D440664, 20010400, Habeck et al., D25/124; US-D440665, 20010400, Habeck et al., D25/124; US-D440666, 20010400, Habeck et al., D25/124; US-D440667, 20010400, Habeck et al., D25/124; US-D441098, 20010400, Habeck et al., D25/124; US-D441099, 20010400, Habeck et al., D25/124; US-D441100, 20010400, Habeck et al., D25/124; US-D441101, 20010400, Habeck et al., D25/124; US-D441879, 20010500, Habeck et al., D25/124; US-6237208, 20010500, Meeth, 029/403.1; US-6243999, 20010600, Silverman, 052/213; US-D447576, 20010900, Marshall et al., D25/124; US-D448863, 20011000, Habeck et al., D25/124; US-D449388, 20011000, Habeck et al., D25/124 med of a constructional material, having a generally rectangular exterior configuration definable in said xyz Cartesian coordinate system, an x-axis thereof defining a width axis of said wall structure, a y-axis thereof defining the directionality of said wall structure, and a z-axis thereof defining a vertical axis of the wall structure, in which one xz end surface of each building block comprises a positive y-axis deep key geometry and each opposing xz end surface thereof comprises a negative y-axis deep key geometry complementally interlockable to said positive geometry of an opposite xz surface, in which a ratio, of the x-axis width of a base of each positive and negative deep key geometry of each opposing xz end surface, comprises at least twenty percent of the entire x-axis width of each block, in which each y-axis deep key dimension of said respective deep key geometries comprises a range of about eight to about twenty five percent of the x-axis dimension of said block, in which said block includes a plurality of vertical cavities extending through the entire z-axis length thereof, said cavities separated by a web portion, said cavities each including (i) a rectilinear recess at an upper xy surface of said block, said recess defining, in a xz plane cross section, a shallow U-shaped negative sub-platform, homologous with said recess, beneath and co-parallel with an xy top surface of said block, in which a vertical z-axis of said web begins at said negative sub-platform, and (ii) an opposite and lower xy surface of said block, at an opposite end z-axis end of said web, having an integral projecting positive sub-platform co-parallel with said negative sub-platform and complementally interlockable into adjoining negative sub-platforms of like blocks of vertically adjacent courses of blocks within said wall structure, each of said sub-platforms having a z-axis dimension in a range of about five to about twenty five percent of the x-axis dimension of said block, whereby a substantially rigid and load-resistant interlock between horizontally and vertically contiguous blocks, when joined as a component of a wall system, is resultant therefrom. 2. The constructional component as recited in claim 1 in which said positive sub-platform defined at said lower xy surface of said block includes a central x-axis recess for complemental engagement of a web of a vertically adjoining negative sub-platform of a vertically adjacent course of blocks. 3. The component as recited in claim 2 in which said web tapers from greater to lesser y-axis width from top to bottom of said block. 4. The component as recited in claim 2 in which said block further comprises a positive x-axis deep key geometry integrally projecting from at least one yz wall of said block. 5. The component as recited in claim 4 in which said block further comprises a positive z-axis deep key geometry integrally projecting from at least one yz wall of said block. 6. A constructional component for a wall system definable in an xyz Cartesian coordinate system capable of resisting high gravity and lateral loads, both uniform and cyclical, the component comprising: a solid building block, formed of a constructional material, having a generally rectangular exterior configuration definable in said xyz Cartesian coordinate system, an x-axis thereof defining a width axis of said wall structure, a y-axis thereof defining the directionality of said wall structure, and a z-axis thereof defining a vertical axis of the wall structure, in which one xz end surface and one yz end surface of each building block comprises a positive y-axis deep key geometry, each of said geometries complementally interlockable to a negative geometry of an opposite surface, in which a ratio, of the width of a base of each positive deep key geometry to a width of each opposing xz end surface, comprises at least twenty percent of the entire x-axis width of each block, in which each y-axis deep key dimension of
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