CN200958798Y - Economical radiator - Google Patents
Economical radiator Download PDFInfo
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- CN200958798Y CN200958798Y CN 200620001180 CN200620001180U CN200958798Y CN 200958798 Y CN200958798 Y CN 200958798Y CN 200620001180 CN200620001180 CN 200620001180 CN 200620001180 U CN200620001180 U CN 200620001180U CN 200958798 Y CN200958798 Y CN 200958798Y
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Abstract
The utility model discloses an energy saving heating installation which belongs to the field of energy saving device. The heating installation combines the heat supply pipeline and the hot water supply pipeline of the central air conditioning system together, and shares a same refrigerating medium pump, refrigeration unit, circulating pump and heat exchanger. The refrigerating medium pump and the refrigeration unit are connected to the coil pipe of living room through valves, and then connected to the water supply pipeline network and the return water pipeline network respectively through a by pass duct. The two pipeline networks connect with the circulating pump and the heat exchanger to form a hot water supply circulation system. By combining the heating system and the central air conditioning heating system in a whole body, the heating system pipeline thus becomes an energy saving pipeline which can supply hot water and heat.
Description
Technical field
The utility model belongs to the energy saver scope, particularly a kind of energy-conservation heating installation.
Background technology
The hot-water supply system in existing hotel is only to provide hot water the toilet that hot water pipeline is connected on each guest room for it.And heating system generally is the central heating of central air-conditioning heating system or individualism, with hot-water supply system without any being connected.Two cover heating systems then need two cover firing equipments, and the two-way piping facility causes the waste of energy waste and material installation, and makes house fitting messy, influences living environment.
Summary of the invention
The purpose of this utility model provides a kind of energy-conservation heating installation, it is characterized in that: this heating installation merges the heat supplying pipeline and the hot water supply pipeline of central air conditioner system, comprises two modification schemes; First scheme of described transformation is that refrigerating medium pump 13 is connected with refrigeration unit 14 by valve 20, feed pipe 18 is connected to refrigeration unit 14, valve 22 branch water vat 15, divides water vat 15 to be connected through valve 24, feed pipe 18, valve 25 and room coil pipe 6, through valve 17, pipeline 5 shunt conduit 4 is installed simultaneously; A shunt of isocon 4 connects water return pipeline net 10, and another road is connected to the water supply line net 3 of hot-water supply system; Water return pipeline net 10 is connected with circulating pump 9 through return pipe 11, valve 19, and is connected with heat exchanger 1, and heat exchanger 1 is connected to water supply line net 3 through feed pipe 2, forms the heat supply circulatory system; The water return pipeline 7 of room coil pipe 6 is communicated with by the valve 26 and the cylinder 12 that catchments, and the cylinder 12 that catchments is linked refrigerating medium pump 13 by pipeline 27.At room coil pipe 6 and valve 26 by pipeline 8 and valve 19 UNICOMs; Refrigerant pump 13 connects heat exchanger 16 through valve 21, and heat exchanger 16 is received branch water vat 15 through valve 23.
The alternative plan of described transformation is that the valve 20 of leading up to of refrigerating medium pump 13 is connected with refrigeration unit 14, feed pipe 18 is connected refrigeration unit 14, valve 22, valve 25 and room coil pipe 6, the valve 17, pipeline 5 of leading up to of room coil pipe 6 installed shunt conduit 4, and shunt conduit 4 is connected with water supply line net 3, water return pipeline net 10 respectively again; Another route return pipe 7 tiebacks of room coil pipe 6 are to refrigerant pump 13; Connect valve 28 in return pipe 7 top sets again, be connected to the water return pipeline net 10 of hot-water supply system by heat supply return pipe 29, water return pipeline net 10 is connected through return pipe 11, circulating pump 9 and heat exchanger 1, heat exchanger 1 is connected to the water supply line net 3 of hot-water supply system through feed pipe 2, forms the heat supply circulatory system.
The beneficial effects of the utility model are: the utility model is the hot-water supply system to each guest room, transform with the pipeline of central air-conditioning heating system, heating system and central air-conditioning heating system are united two into one, thereby become a kind of energy heat supply water of energy savings, the heating system pipeline of heating.
Description of drawings
The first scheme pipe network schematic diagram of Fig. 1 for transforming;
The alternative plan pipe network schematic diagram of Fig. 2 for transforming.
The utility model provides a kind of energy-conservation heating installation.This heating installation merges the heat supplying pipeline and the hot water supply pipeline of central air conditioner system, comprises the first scheme pipe network schematic diagram shown in Figure 1 and two modification schemes of alternative plan pipe network schematic diagram shown in Figure 2;
In the first scheme pipe network schematic diagram shown in Figure 1, refrigerating medium pump 13 is connected with refrigeration unit 14 by valve 20, feed pipe 18 is connected to refrigeration unit 14, valve 22 branch water vat 15, divides water vat 15 to be connected through valve 24, feed pipe 18, valve 25 and room coil pipe 6, through valve 17, pipeline 5 shunt conduit 4 is installed simultaneously; A shunt of isocon 4 connects water return pipeline net 10, and another road is connected to the water supply line net 3 of hot-water supply system; Water return pipeline net 10 is connected with circulating pump 9 through return pipe 11, valve 19, and is connected with heat exchanger 1, and heat exchanger 1 is connected to water supply line net 3 through feed pipe 2, forms the heat supply circulatory system; The water return pipeline 7 of room coil pipe 6 is communicated with by the valve 26 and the cylinder 12 that catchments, and the cylinder 12 that catchments is linked refrigerating medium pump 13 by pipeline 27.At room coil pipe 6 and valve 26 by pipeline 8 and valve 19 UNICOMs; Refrigerant pump 13 connects heat exchanger 16 through valve 21, and heat exchanger 16 is received branch water vat 15 through valve 23.
In alternative plan pipe network schematic diagram shown in Figure 2, the valve 20 of leading up to of refrigerating medium pump 13 is connected with refrigeration unit 14, feed pipe 18 is connected refrigeration unit 14, valve 22, valve 25 and room coil pipe 6, the valve 17, pipeline 5 of leading up to of room coil pipe 6 installed shunt conduit 4, and shunt conduit 4 is connected with water supply line net 3, water return pipeline net 10 respectively again; Another route return pipe 7 tiebacks of room coil pipe 6 are to refrigerant pump 13; Connect valve 28 in return pipe 7 top sets again, be connected to the water return pipeline net 10 of hot-water supply system by heat supply return pipe 29, water return pipeline net 10 is connected through return pipe 11, circulating pump 9 and heat exchanger 1, heat exchanger 1 is connected to the water supply line net 3 of hot-water supply system through feed pipe 2, forms the heat supply circulatory system.
Operation principle of the present utility model is: in the first scheme pipe network schematic diagram shown in Figure 1, during heat supply in winter, valve-off 25 and valve 26 are opened valve 17 and valve 19.Hot water from heat exchanger 1 through feed pipe 2 to water supply line net 3.Water supply line net 3 is provided with a plurality of isocons, and each isocon is all through between the bottom and top layer in whole hotel.And the hot-water line in each guest room is directly to receive on the isocon, and the hot water in the guest room is directly drawn in isocon.Hot water in the water supply line net 3 enters isocon 4, hot water part in the isocon 4 is diverted to pipeline 5 enters the guest room through valve 17 room coil pipe 6, by room coil pipe 6 from the return pipe 7 of central air conditioner system through pipeline 8, valve 19 enters heat exchanger 1 with circulating pump 9, forms circulation.In this process during the room coil pipe 6 of hot water by the guest room, room coil pipe 6 is blown into the guest room with hot blast, thereby plays the effect of central air-conditioning heating.
During summer cooling, valve-off 17,19,21 and valve 23 are opened valve 20,22,24,25 and valve 26.Water enters refrigeration unit 14 from refrigerant pump 13 through valve 20, cold water in the refrigeration unit 14 enters branch water vat 15 through valve 22, enter the room coil pipe 6 in guest room through valve 25 by the feed pipe 18 of central air conditioner system, then enter the cylinder 12 that catchments from the return pipe 7 of central air conditioner system through valve 26 through room coil pipe 6, get back to refrigerant pump 13 by pipeline 27 at last, form circulation.In this process during the room coil pipe 6 of cold water by the guest room, room coil pipe 6 is blown into the guest room with cold air, thereby plays the effect of central air-conditioning cooling.And during heat supply water, hot water from heat exchanger 1 through feed pipe 2 to water supply line net 3, through isocon 4, the water return pipeline net 10 of hot-water supply system, the return pipe 11 and the circulating pump 9 of hot-water supply system enter heat exchanger 1, form hot water supply circulation system.
In alternative plan pipe network schematic diagram shown in Figure 2, during heat supply in winter, valve-off 25 is opened valve 17 and valve 28.Hot water from heat exchanger 1 through feed pipe 2 to water supply line net 3.Hot water in the water supply line net 3 enters isocon 4, hot water part in the isocon 4 is diverted to pipeline 5 enters the guest room through valve 17 fan coil 6, enter the water return pipeline net 10 of hot-water supply system through valve 28 from heat supply return pipe 29 by fan coil 6, then the return pipe 11 through hot-water supply system enters heat exchanger 1 with circulating pump 9, forms circulation.In this process during the fan coil 6 of hot water by the guest room, fan coil 6 is blown into the guest room with hot blast, thereby plays the effect of central air-conditioning heating.Another part hot water in the isocon 4 then passes through the water return pipeline net 10 of hot-water supply system, and the return pipe 11 and the circulating pump 9 of hot-water supply system enter heat exchanger 1, form the heat supply circulatory system.
During summer cooling gas, valve-off 17,28 is opened valve 20,22,25.Water enters refrigeration unit 14 from refrigerant pump 13 through valve 20, cold water in the refrigeration unit 14 enters central air conditioner system through valve 22 feed pipe 18 enters the fan coil 6 in guest room through valve 25, get back to refrigerant pump 13 by fan coil 6 from the return pipe 7 of central air conditioner system, form circulation.In this process during the fan coil 6 of cold water by the guest room, fan coil 6 is blown into the guest room with cold air, thereby plays the effect of central air-conditioning cooling.During heat supply water, hot water from heat exchanger 1 through feed pipe 2 to water supply line net 3, through isocon 4, the water return pipeline net 10 of hot-water supply system, the return pipe 11 of hot-water supply system enters heat exchanger 1 with circulating pump 9, forms hot water supply circulation system.
Claims (2)
1. energy-conservation heating installation, it is characterized in that: this heating installation merges the heat supplying pipeline and the hot water supply pipeline of central air conditioner system, described first scheme is that refrigerating medium pump (13) is connected with refrigeration unit (14) by valve (20), feed pipe (18) is connected to refrigeration unit (14), valve (22) branch water vat (15), divides water vat (15) to be connected through valve (24), feed pipe (18), valve (25) and room coil pipe (6), through valve (17), pipeline (5) shunt conduit (4) is installed simultaneously; A shunt of isocon (4) connects water return pipeline net (10), and another road is connected to the water supply line net (3) of hot-water supply system; Water return pipeline net (10) is connected with circulating pump (9) through return pipe (11), valve (19), and is connected with heat exchanger (1), and heat exchanger (1) is connected to water supply line net (3) through feed pipe (2), forms the heat supply circulatory system; The water return pipeline (7) of room coil pipe (6) is communicated with by valve (26) and the cylinder that catchments (12), and the cylinder that catchments (12) is linked refrigerating medium pump (13) by pipeline (27); At room coil pipe (6) and valve (26) by pipeline (8) and valve (19) UNICOM; Refrigerant pump (13) connects heat exchanger (16) through valve (21), and heat exchanger (16) is received branch water vat (15) through valve (23).
2, according to the described energy-conservation heating installation of claim 1, it is characterized in that: the valve (20) of leading up at the refrigerating medium pump (13) of described first scheme is connected with refrigeration unit (14), feed pipe (18) is connected refrigeration unit (14), valve (22), valve (25) and room coil pipe (6), the lead up to valve (17), pipeline (5) of room coil pipe (6) are installed shunt conduit (4), after the shunt conduit (4), be connected with water supply line net (3), water return pipeline net (10) respectively again; Another route return pipe (7) tieback of room coil pipe (6) is to refrigerant pump (13); Connect valve (28) in return pipe (7) top set again, be connected to the water return pipeline net (10) of hot-water supply system by heat supply return pipe (29), water return pipeline net (10) is connected through return pipe (11), circulating pump (9) and heat exchanger (1), heat exchanger (1) is connected to water supply line net (3) through feed pipe (2), forms the heat supply circulatory system.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 200620001180 CN200958798Y (en) | 2006-01-18 | 2006-01-18 | Economical radiator |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 200620001180 CN200958798Y (en) | 2006-01-18 | 2006-01-18 | Economical radiator |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN200958798Y true CN200958798Y (en) | 2007-10-10 |
Family
ID=38785680
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN 200620001180 Expired - Fee Related CN200958798Y (en) | 2006-01-18 | 2006-01-18 | Economical radiator |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN200958798Y (en) |
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102494374A (en) * | 2011-11-25 | 2012-06-13 | 上海理工大学 | Energy-saving air-conditioning system |
| CN106595124A (en) * | 2016-12-30 | 2017-04-26 | 何宗衡 | Cooling and heating equal pipeline device for high-rise building, air conditioner for building and use method of air conditioner for building |
| CN111594902A (en) * | 2020-06-02 | 2020-08-28 | 宁波奥克斯电气股份有限公司 | Anti-freezing method and floor heating system |
-
2006
- 2006-01-18 CN CN 200620001180 patent/CN200958798Y/en not_active Expired - Fee Related
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102494374A (en) * | 2011-11-25 | 2012-06-13 | 上海理工大学 | Energy-saving air-conditioning system |
| CN106595124A (en) * | 2016-12-30 | 2017-04-26 | 何宗衡 | Cooling and heating equal pipeline device for high-rise building, air conditioner for building and use method of air conditioner for building |
| CN111594902A (en) * | 2020-06-02 | 2020-08-28 | 宁波奥克斯电气股份有限公司 | Anti-freezing method and floor heating system |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| C17 | Cessation of patent right | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20071010 Termination date: 20100219 |