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4. 发明专利

AT410646T 未知
公开(公告)号：AT410646T
公开(公告)日：2008-10-15
申请号：AT01931354
申请日：2001-05-24
申请人： BENES JINDRICH , BENES MARTIN
发明人： BENES JINDRICH , BENES MARTIN
IPC分类号： F24D12/02 , F24D19/10 , F24S20/00 , F24S40/00 , F24S90/00 , F24V30/00
摘要： The heating apparatus consists of a main heat source (21) and a solar collector unit (1), consisting of at least one collector. The solar collector unit (1) is connected to a control unit (13), which is connected to the first temperature sensor (36) of the heated area air temperature. The main heat source (21) is connected to the second temperature sensor (22) of the heated area air temperature. The temperature (T1) set on the first sensor (36) is higher than the temperature (T2) set on the second sensor (22). The control unit (13) is connected with two three-way valves (15, 19). The first three-way valve (15) connects the output line (27) of the solar collector unit (1), the connecting line (35) to the return line (30) from the heating elements and the feed line (31) to the secondary heat appliance. The second three-way valve (19) placed on the return line (30) from the heating element (23) connects the feed line (26) of the solar collector unit (1). The connecting line (35) furnished by a check valve (20) exits into the return line (30) between the second three-way valve (19) and the main heat source (21). The control unit (13) is connected to an auxiliary power source (14) consisting of a photovoltaic cell. The auxiliary power source (14) is connected by the control unit (13) with the auxiliary pump (3) installed in the bypass line (28) of the main pump (2).

5. 发明专利

CZ20002032A3 Heating equipment 未知
公开(公告)号：CZ20002032A3
公开(公告)日：2002-02-13
申请号：CZ20002032
申请日：2000-06-01
申请人： BENES JINDRICH , BENES MARTIN
发明人： BENES JINDRICH , BENES MARTIN
IPC分类号： F24D12/02 , F24D19/10 , F24S20/00 , F24S40/00 , F24S90/00 , F24V30/00
摘要： The heating apparatus consists of a main heat source (21) and a solar collector unit (1), consisting of at least one collector. The solar collector unit (1) is connected to a control unit (13), which is connected to the first temperature sensor (36) of the heated area air temperature. The main heat source (21) is connected to the second temperature sensor (22) of the heated area air temperature. The temperature (T1) set on the first sensor (36) is higher than the temperature (T2) set on the second sensor (22). The control unit (13) is connected with two three-way valves (15, 19). The first three-way valve (15) connects the output line (27) of the solar collector unit (1), the connecting line (35) to the return line (30) from the heating elements and the feed line (31) to the secondary heat appliance. The second three-way valve (19) placed on the return line (30) from the heating element (23) connects the feed line (26) of the solar collector unit (1). The connecting line (35) furnished by a check valve (20) exits into the return line (30) between the second three-way valve (19) and the main heat source (21). The control unit (13) is connected to an auxiliary power source (14) consisting of a photovoltaic cell. The auxiliary power source (14) is connected by the control unit (13) with the auxiliary pump (3) installed in the bypass line (28) of the main pump (2).

6. 发明专利

CA2247548A1 A HIGH-SPEED ASYNCHRONOUS DECOMPRESSION CIRCUIT FOR VARIABLE-LENGTH-CODED DATA 未知
公开(公告)号：CA2247548A1
公开(公告)日：2000-03-15
申请号：CA2247548
申请日：1998-09-15
申请人： WOLFE ANDREW , NOWICK STEVEN M , BENES MARTIN
发明人： WOLFE ANDREW , NOWICK STEVEN M , BENES MARTIN
IPC分类号： G06T9/00 , H03M7/40 , H04N19/61 , H04L1/22
摘要： There is provided an architecture and implementation of a high-speed decompression engine for variable-length-coded data, such as Huffman-coded data. The engine is particularly targeted to processors where embedded programs are stored in compressed form and decompressed at runtime during instruction cache refill. The decompression engine uses a unique asynchronous variable decompression rate architecture to process variable-length-coded instructions. The resulting circuit is significantly smaller than comparable synchronous decoders, yet has a higher throughput rate than almost all existing designs.

7. 发明专利

CZ294250B6 Heating system 未知
公开(公告)号：CZ294250B6
公开(公告)日：2004-11-10
申请号：CZ20002032
申请日：2000-06-01
申请人： BENES JINDRICH , BENES MARTIN
发明人： BENES JINDRICH , BENES MARTIN
IPC分类号： F24D12/02 , F24D19/10 , F24S20/00 , F24S40/00 , F24S90/00 , F24V30/00 , F24J2/42 , F24J3/08
摘要： In the present invention, there is disclosed a heating system having a main heat source (21) and a solar collector unit (1) formed by at least one collector. Said solar collector unit (1) has a control unit (13) being connected to a first temperature sensor (36) of the room to be heated. The main heat source (21) is provided with a second temperature sensor (22) of the room to be heated. Temperature (T1) set at the first temperature sensor (36) is higher than temperature (T2) set at the other temperature sensor (22). The control unit (13) is connected with two three-way valves (15, 19), whereby the first three-way valve (15) is connected to an outlet piping (27) of the solar collector unit (1), a connecting piping (35) of heating elements (23) return piping (30) and a supply piping (31) to an auxiliary heat consumer, while the other three-way valve (19) being introduced into the return piping (30) of the heating elements (23) is connected to a supply piping (26) of said solar collector unit (1). The connecting piping (35) with a check valve (20) arranged therein leads out in the return piping (30) between the second three-way valve (19) and the main heat source (21). The control unit (13) is provided with a backup power supply source (14) in the form of a photovoltaic cell. Said backup power supply source (14) is connected through the control unit (13) to a backup pump (3) being introduced ion a bypass piping (28) of a main pump (2).

8. 发明专利

DE60136102D1 未知
公开(公告)号：DE60136102D1
公开(公告)日：2008-11-20
申请号：DE60136102
申请日：2001-05-24
申请人： BENES JINDRICH , BENES MARTIN
发明人： BENES JINDRICH , BENES MARTIN
IPC分类号： F24D12/02 , F24D19/10 , F24S20/00 , F24S40/00 , F24S90/00 , F24V30/00
摘要： The heating apparatus consists of a main heat source (21) and a solar collector unit (1), consisting of at least one collector. The solar collector unit (1) is connected to a control unit (13), which is connected to the first temperature sensor (36) of the heated area air temperature. The main heat source (21) is connected to the second temperature sensor (22) of the heated area air temperature. The temperature (T1) set on the first sensor (36) is higher than the temperature (T2) set on the second sensor (22). The control unit (13) is connected with two three-way valves (15, 19). The first three-way valve (15) connects the output line (27) of the solar collector unit (1), the connecting line (35) to the return line (30) from the heating elements and the feed line (31) to the secondary heat appliance. The second three-way valve (19) placed on the return line (30) from the heating element (23) connects the feed line (26) of the solar collector unit (1). The connecting line (35) furnished by a check valve (20) exits into the return line (30) between the second three-way valve (19) and the main heat source (21). The control unit (13) is connected to an auxiliary power source (14) consisting of a photovoltaic cell. The auxiliary power source (14) is connected by the control unit (13) with the auxiliary pump (3) installed in the bypass line (28) of the main pump (2).

9. 发明专利

AU5817901A Heating apparatus 未知
公开(公告)号：AU5817901A
公开(公告)日：2001-12-11
申请号：AU5817901
申请日：2001-05-24
申请人： BENES JINDRICH , BENES MARTIN
发明人： BENES JINDRICH , BENES MARTIN
IPC分类号： F24D12/02 , F24D19/10 , F24S20/00 , F24S40/00 , F24S90/00 , F24V30/00
摘要： The heating apparatus consists of a main heat source (21) and a solar collector unit (1), consisting of at least one collector. The solar collector unit (1) is connected to a control unit (13), which is connected to the first temperature sensor (36) of the heated area air temperature. The main heat source (21) is connected to the second temperature sensor (22) of the heated area air temperature. The temperature (T1) set on the first sensor (36) is higher than the temperature (T2) set on the second sensor (22). The control unit (13) is connected with two three-way valves (15, 19). The first three-way valve (15) connects the output line (27) of the solar collector unit (1), the connecting line (35) to the return line (30) from the heating elements and the feed line (31) to the secondary heat appliance. The second three-way valve (19) placed on the return line (30) from the heating element (23) connects the feed line (26) of the solar collector unit (1). The connecting line (35) furnished by a check valve (20) exits into the return line (30) between the second three-way valve (19) and the main heat source (21). The control unit (13) is connected to an auxiliary power source (14) consisting of a photovoltaic cell. The auxiliary power source (14) is connected by the control unit (13) with the auxiliary pump (3) installed in the bypass line (28) of the main pump (2).

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