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公开(公告)号:EP2981768A1
公开(公告)日:2016-02-10
申请号:EP14779310.3
申请日:2014-04-04
申请人: Teoh, Siang Teik
发明人: TEOH, Siang, Teik
IPC分类号: F24F7/00
CPC分类号: F24F7/02 , F24F5/0035 , F24F12/006 , Y02B30/563
摘要: A coaxial ventilator (20) exchanges atmosphere between parts of a building (22) that are at differing heights. The coaxial ventilator (20) includes an outer conduit (24) that extends from an upper end (42) thereof downward to a lower end (44) thereof. The outer conduit (24) surrounds an inner conduit (62) that extends substantially the entire length of the outer conduit (24). Both the outer and inner conduits (24, 62) are open at their respective upper ends (42, 66) and lower ends (44, 68). Temperatures of atmosphere both surrounding and within the outer conduit (24) and the inner conduit (62) induce an exchange of atmosphere between the coaxial ventilator (20) and surrounding atmosphere.
摘要翻译: 同轴呼吸机(20)交换处于不同高度的建筑物(22)的部分之间的气氛。 同轴通气机(20)包括从其上端(42)向下延伸到其下端(44)的外导管(24)。 外导管(24)围绕基本上延伸外导管(24)的整个长度的内导管(62)。外导管和内导管(24,62)在其各自的上端(42,66) 和下端(44,68)。 外导管(24)和内导管(62)周围和内部的大气温度引起同轴通气机(20)与周围大气之间的气氛交换。
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公开(公告)号:EP2981768A4
公开(公告)日:2016-12-21
申请号:EP14779310
申请日:2014-04-04
申请人: TEOH SIANG TEIK
发明人: TEOH SIANG TEIK
IPC分类号: F24F7/00
CPC分类号: F24F7/02 , F24F5/0035 , F24F12/006 , Y02B30/563
摘要: A coaxial ventilator (20) exchanges atmosphere between parts of a building (22) that are at differing heights. The coaxial ventilator (20) includes an outer conduit (24) that extends from an upper end (42) thereof downward to a lower end (44) thereof. The outer conduit (24) surrounds an inner conduit (62) that extends substantially the entire length of the outer conduit (24). Both the outer and inner conduits (24, 62) are open at their respective upper ends (42, 66) and lower ends (44, 68). Temperatures of atmosphere both surrounding and within the outer conduit (24) and the inner conduit (62) induce an exchange of atmosphere between the coaxial ventilator (20) and surrounding atmosphere.
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3.发明公开DOUBLE LAYER SOLAR HEATING-AND-COOLING THERMOSYPHON SYSTEM 审中-公开杜邦制造商SONNENENERGIE-THERMOSIPHON-SYSTEMFÜRERHITZUNG UNDKÜHLUNG
公开(公告)号:EP2771624A4
公开(公告)日:2015-09-30
申请号:EP12843338
申请日:2012-10-29
申请人: TEOH SIANG TEIK
发明人: TEOH SIANG TEIK
IPC分类号: F24J2/44 , E04D13/00 , F24D11/00 , F24F5/00 , F24J2/00 , F24J2/26 , F24J2/34 , F24J2/46 , F25D1/00 , F28D5/00
CPC分类号: F24J2/44 , E04D13/00 , F24D11/003 , F24F2005/0064 , F24J2/0023 , F24J2/26 , F24J2/345 , F24J2/4647 , F25D1/00 , F28D5/00 , Y02B10/20 , Y02E10/44
摘要: A solar liquid-heating-and-cooling system (20) includes: 1. a hot-liquid storage-tank (22); 2. a hot-liquid manifold-tank (26); 3. a coaxial heating-and-cooling-tube (24) that connects downward from the hot-liquid storage-tank (22) to the hot-liquid manifold-tank (26); 4. a double layer heating-and-cooling collector-array-panel (32) located beneath the hot-liquid manifold-tank (26), the panel (32) including, connected to the hot-liquid manifold-tank (26) a. an upper layer of glazed heating-tubes (36); and b. a lower layer of unglazed cooling-tubes (56); 5. parabolic-trough mirror reflectors (64) that are located between the upper and lower layers of tubes (36, 56); 6. cold-liquid manifold-tank (92) located below the panel (32) connected to lower ends both of the glazed heating-tubes (36) and of the unglazed cooling-tubes (56); 7. a cold liquid storage tank (98); and 8. a coaxial heating-and-cooling-tube (96) that connects downward from the cold-liquid manifold-tank (92) to the cold liquid storage tank (98).
摘要翻译: 太阳能液体加热和冷却系统(20)包括:1.热液储罐(22); 2.一种热液歧管罐(26); 3.一种从热液储罐(22)向下连接到热液歧管罐(26)的同轴加热和冷却管(24); 4.一种位于热液歧管槽(26)下方的双层加热和冷却收集器阵列板(32),所述面板(32)包括连接到热液歧管罐(26) 一个。 上层玻璃加热管(36); 和b。 下层的无釉冷却管(56); 5.抛物面反射镜(64),其位于管(36,56)的上层和下层之间; 6.位于面板(32)下方的冷液歧管槽(92),其连接到两个釉面加热管(36)和无釉冷却管(56)的下端; 7.冷液储罐(98); 8.一种从冷液歧管箱(92)向下连接到冷液储罐(98)的同轴加热和冷却管(96)。
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公开(公告)号:EP0852689B1
公开(公告)日:2003-07-09
申请号:EP96933025.7
申请日:1996-09-13
申请人: Teoh, Siang Teik
发明人: Teoh, Siang, Teik
IPC分类号: F24J2/44
CPC分类号: F24S90/10 , F24S10/753 , F24S40/70 , F24S60/30 , Y02E10/44
摘要: A collector core (104) for a solar water-heating-system (100) includes a plurality of heat-absorbing pipes (108) each of which surrounds a cooler-water return-pipe (116). The heating-pipes (108) may connect directly to an insulated hot-water storage-tank (104) from which cooler water descends through the return-pipes (116) into the heating-pipes (108). Upon reaching the end of the return-pipes (116), the cooler water flows outward into the space between the surrounding heating-pipes (108) and the inner return-pipes (116). Upon warming, water between the two pipes (108, 116) rises upward back to the hot-water storage-tank (104) thus completing the thermosyphon flow cycle. Preferably, the inner return-pipe (116) is made of polyvinyl chloride ("PVC"), polybutelene ("PB"), or other compressible material which permits collector core (106) operation both in freezing and non-freezing environments. Alternatively, the collector core (106) may be added to an existing solar water-heating panel (102') to improve its operation.
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公开(公告)号:EP0852689A1
公开(公告)日:1998-07-15
申请号:EP96933025.0
申请日:1996-09-13
申请人: Teoh, Siang Teik , Alam, Hassan
发明人: Teoh, Siang, Teik
IPC分类号: F24J2
CPC分类号: F24S90/10 , F24S10/753 , F24S40/70 , F24S60/30 , Y02E10/44
摘要: A collector core (104) for a solar water-heating-system (100) includes a plurality of heat-absorbing pipes (108) each of which surrounds a cooler-water return-pipe (116). The heating-pipes (108) may connect directly to an insulated hot-water storage-tank (104) from which cooler water descends through the return-pipes (116) into the heating-pipes (108). Upon reaching the end of the return-pipes (116), the cooler water flows outward into the space between the surrounding heating-pipes (108) and the inner return-pipes (116). Upon warming, water between the two pipes (108, 116) rises upward back to the hot-water storage-tank (104) thus completing the thermosyphon flow cycle. Preferably, the inner return-pipe (116) is made of polyvinyl chloride ("PVC"), polybutelene ("PB"), or other compressible material which permits collector core (106) operation both in freezing and non-freezing environments. Alternatively, the collector core (106) may be added to an existing solar water-heating panel (102') to improve its operation.
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公开(公告)号:EP2942576A1
公开(公告)日:2015-11-11
申请号:EP15166988.4
申请日:2015-05-08
申请人: Teoh, Siang Teik
发明人: Teoh, Siang Teik
CPC分类号: F24F5/0035 , F24F5/0042 , F24F7/02 , F24F7/04 , F24F7/08 , F24F12/00 , F24F13/0281 , F24F13/26 , Y02B10/40
摘要: A coaxial ventilator (20) exchanges atmosphere between parts of a building (22) that are at differing heights. The coaxial ventilator (20) includes an outer conduit (24) that extends from an upper end (42) thereof downward to a lower end (44) thereof. The outer conduit (24) surrounds an inner conduit (62) that extends substantially the entire length of the outer conduit (24). Both the outer and inner conduits (24, 62) are open at their respective upper ends (42, 66) and lower ends (44, 68). Temperatures of atmosphere both surrounding and within the outer conduit (24) and the inner conduit (62) induce an exchange of atmosphere between the coaxial ventilator (20) and surrounding atmosphere.
摘要翻译: 同轴呼吸机(20)交换处于不同高度的建筑物(22)的部分之间的气氛。 同轴通气机(20)包括从其上端(42)向下延伸到其下端(44)的外导管(24)。 外部导管(24)围绕基本上在外部导管(24)的整个长度上延伸的内部导管(62)。 外导管和内导管(24,62)在其各自的上端(42,66)和下端(44,68)处都是敞开的。 外导管(24)和内导管(62)周围和内部的大气温度引起同轴通气机(20)与周围大气之间的气氛交换。
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公开(公告)号:EP0852689A4
公开(公告)日:1999-12-01
申请号:EP96933025
申请日:1996-09-13
申请人: TEOH SIANG TEIK , ALAM HASSAN
发明人: TEOH SIANG TEIK
CPC分类号: F24J2/265 , F24J2/345 , F24J2/44 , F24J2/4632 , Y02E10/44
摘要: A collector core (104) for a solar water-heating-system (100) includes a plurality of heat-absorbing pipes (108) each of which surrounds a cooler-water return-pipe (116). The heating-pipes (108) may connect directly to an insulated hot-water storage-tank (104) from which cooler water descends through the return-pipes (116) into the heating-pipes (108). Upon reaching the end of the return-pipes (116), the cooler water flows outward into the space between the surrounding heating-pipes (108) and the inner return-pipes (116). Upon warming, water between the two pipes (108, 116) rises upward back to the hot-water storage-tank (104) thus completing the thermosyphon flow cycle. Preferably, the inner return-pipe (116) is made of polyvinyl chloride ("PVC"), polybutelene ("PB"), or other compressible material which permits collector core (106) operation both in freezing and non-freezing environments. Alternatively, the collector core (106) may be added to an existing solar water-heating panel (102') to improve its operation.
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公开(公告)号:EP2504636A4
公开(公告)日:2014-12-17
申请号:EP10831919
申请日:2010-11-23
申请人: TEOH SIANG TEIK
发明人: TEOH SIANG TEIK
CPC分类号: F24J2/44 , F24D11/003 , F24D17/0021 , F24D2200/14 , F24D2220/08 , F24J2/0023 , F24J2/245 , F24J2/345 , F24J2/4647 , Y02B10/20 , Y02E10/44
摘要: Disclosed is a solar water-heating-and-cooling system (20) that included a collector array panel (32, 36) having thermosyphon coaxial heating/cooling tubes (52). The disclosed system (20) avoids damaging the collector array panel (32, 36) by filling the tubes (52): 1. only when environmental conditions ensure that damage won't occur,—and/or 2. using a filling method that ensures that damage won't occur. Thermosyphon coaxial heating/cooling tubes (52) disclosed herein may be open both at their upper and lower ends. Tubes (52) that are open at their, lower end enables capturing radiative cooling of liquid present within the tubes (52). A cold water storage tank (46) and cold radiator array (48) included in the water-heating-and-cooling system (20) permits preserving and using the radiative 'cooling. Also disclosed are coaxial tubes (104, 106) that enable simpler and easier installation of the system (20), and also provide a less architecturally intrusive system (20).
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公开(公告)号:EP2771624A1
公开(公告)日:2014-09-03
申请号:EP12843338.0
申请日:2012-10-29
申请人: Teoh, Siang Teik
发明人: Teoh, Siang Teik
IPC分类号: F24J2/44
CPC分类号: F24S90/10 , E04D13/00 , F24D11/003 , F24F2005/0064 , F24S10/75 , F24S20/40 , F24S60/30 , F24S80/30 , F25D1/00 , F28D5/00 , Y02B10/20 , Y02E10/44
摘要: A solar liquid-heating-and-cooling system (20) includes: 1. a hot-liquid storage-tank (22); 2. a hot-liquid manifold-tank (26); 3. a coaxial heating-and-cooling-tube (24) that connects downward from the hot-liquid storage-tank (22) to the hot-liquid manifold-tank (26); 4. a double layer heating-and-cooling collector-array-panel (32) located beneath the hot-liquid manifold-tank (26), the panel (32) including, connected to the hot-liquid manifold-tank (26) a. an upper layer of glazed heating-tubes (36); and b. a lower layer of unglazed cooling-tubes (56); 5. parabolic-trough mirror reflectors (64) that are located between the upper and lower layers of tubes (36, 56); 6. cold-liquid manifold-tank (92) located below the panel (32) connected to lower ends both of the glazed heating-tubes (36) and of the unglazed cooling-tubes (56); 7. a cold liquid storage tank (98); and 8. a coaxial heating-and-cooling-tube (96) that connects downward from the cold-liquid manifold-tank (92) to the cold liquid storage tank (98).
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公开(公告)号:EP2504636A1
公开(公告)日:2012-10-03
申请号:EP10831919.5
申请日:2010-11-23
申请人: Teoh, Siang Teik
发明人: Teoh, Siang Teik
IPC分类号: F24J2/44
CPC分类号: F24S90/10 , F24D11/003 , F24D17/0021 , F24D2200/14 , F24D2220/08 , F24S10/742 , F24S20/40 , F24S60/30 , F24S80/30 , Y02B10/20 , Y02E10/44
摘要: Disclosed is a solar water-heating-and-cooling system (20) that included a collector array panel (32, 36) having thermosyphon coaxial heating/cooling tubes (52). The disclosed system (20) avoids damaging the collector array panel (32, 36) by filling the tubes (52): 1. only when environmental conditions ensure that damage won't occur,—and/or 2. using a filling method that ensures that damage won't occur. Thermosyphon coaxial heating/cooling tubes (52) disclosed herein may be open both at their upper and lower ends. Tubes (52) that are open at their, lower end enables capturing radiative cooling of liquid present within the tubes (52). A cold water storage tank (46) and cold radiator array (48) included in the water-heating-and-cooling system (20) permits preserving and using the radiative 'cooling. Also disclosed are coaxial tubes (104, 106) that enable simpler and easier installation of the system (20), and also provide a less architecturally intrusive system (20).
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