CN205314155U - Condensate recovery system of recycling - Google Patents
Condensate recovery system of recycling Download PDFInfo
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- CN205314155U CN205314155U CN201620065960.0U CN201620065960U CN205314155U CN 205314155 U CN205314155 U CN 205314155U CN 201620065960 U CN201620065960 U CN 201620065960U CN 205314155 U CN205314155 U CN 205314155U
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- pump
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Abstract
Condensate recovery system of recycling, including the water storage tank, fire -water pond, the condensation water tank, first force (forcing) pump, water main and switch board, the water storage tank of water storage tank goes out the first force (forcing) pump of water piping connection, high -rise delivery pipe is connected to the delivery port of first force (forcing) pump, fire -water pond's fire -water pond goes out the first force (forcing) pump of water piping connection, the outlet of heat exchanger is connected to the water inlet of condensation water tank, fire -water pond is connected to the other end of fire water tank inlet tube, set up second force (forcing) pump and check valve on the condensation outlet pipe of water tank, pass through communicating pipe between low layer delivery pipe and the high -rise delivery pipe. The utility model discloses the comdenstion water that effectively heating process produced carries out the reutilization to the resource, reduces extravagantly. When municipality water pipe net is cut off the water, through condensation water tank and fire -water pond in water supply, in summer during 1 -4 building water supply shortage, also can effectively supply water.
Description
Technical field
This utility model relates to and belongs to for water supply system field, is exactly a kind of condensing hot air furnace reutilization system.
Background technology
At present, in North City, winter heating adopts steam heating, and steam directly discharges after using, and causes the loss of steam condensate (SC), causes energy waste.
Utility model content
For solving the problems referred to above, the purpose of this utility model is to provide condensing hot air furnace reutilization system.
This utility model for achieving the above object, is achieved through the following technical solutions:
Condensing hot air furnace reutilization system, including water tank, fire cistern, condensation water tank, first force (forcing) pump, water main and switch board, water main connects water tank feed pipe one end, one end of low layer feed pipe and fireproof water tube, the other end of water tank feed pipe connects water tank, the other end of fireproof water tube connects fire cistern, the water tank outlet pipe of water tank connects the first force (forcing) pump, the outlet of the first force (forcing) pump connects high-floor feedwater pipe, the fire cistern outlet pipe of fire cistern connects the first force (forcing) pump, the water inlet of condensation water tank connects the discharge outlet of heat exchanger, the condensation water tank outlet pipe of condensation water tank connects one end of condensation water tank direct-furnish pipe and one end of fire water box water inlet pipe respectively, the other end of condensation water tank direct-furnish pipe is incorporated to water tank outlet pipe, the other end of fire water box water inlet pipe connects fire cistern, condensation water tank outlet pipe arranges the second force (forcing) pump and check valve, communicating pipe is passed through between low layer feed pipe and high-floor feedwater pipe, water tank feed pipe arranges the 3rd electromagnetic valve, fire cistern outlet pipe arranges the 4th electromagnetic valve, low layer feed pipe arranges the first electromagnetic valve, communicating pipe arranges the second electromagnetic valve, switch board connection the first electromagnetic valve, the second electromagnetic valve, the 3rd electromagnetic valve, the 4th electromagnetic valve, the second force (forcing) pump.
For realizing the purpose of this utility model further, it is also possible to by the following technical solutions: arrange level sensor in described condensation water tank. Arranging electronic flowmeter on described water main, the outfan of electronic flowmeter connects switch board.Arranging altitude valve on described fireproof water tube, the water level detecting end of altitude valve is positioned at fire cistern. Described fire water box water inlet pipe arranges pressure limiting valve. The first described force (forcing) pump and the second force (forcing) pump are frequency conversion force (forcing) pump.
The utility model has the advantage of: this utility model can effectively heat the condensed water that process produces, and resource carries out secondary utilization, reduces waste. When city water pipe net is cut off the water, by condensation water tank and fire cistern supplying water, when 1-4 in summer building insufficient water, it is also possible to effectively supply water. This utility model also has advantage compact, cheap for manufacturing cost and easy to use simple for structure.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model.
Accompanying drawing labelling: 1 water tank 2 fire cistern 3 condensation water tank 4 water main 5 first force (forcing) pump 6 water tank outlet pipe 7 high-floor feedwater pipe 8 fire cistern outlet pipe 9 heat exchanger 10 condensation water tank outlet pipe 11 condensation water tank direct-furnish pipe 12 fire water box water inlet pipe 13 second force (forcing) pump 14 check valve 15 water tank feed pipe 16 low layer feed pipe 18 switch board 19 communicating pipe 20 first electromagnetic valve 21 second electromagnetic valve 22 electronic flowmeter 23 the 3rd electromagnetic valve 24 the 4th electromagnetic valve 25 pressure limiting valve 26 level sensor 27 altitude valve.
Detailed description of the invention
Condensing hot air furnace reutilization system, as shown in Figure 1, including water tank 1, fire cistern 2, condensation water tank 3, first force (forcing) pump 5, water main 4 and switch board 18, water main 4 connects water tank feed pipe 15 one end, one end of low layer feed pipe 16 and fireproof water tube 17, the other end of water tank feed pipe 15 connects water tank 1, the other end of fireproof water tube 17 connects fire cistern 2, the water tank outlet pipe 6 of water tank 1 connects the first force (forcing) pump 5, the outlet of the first force (forcing) pump 5 connects high-floor feedwater pipe 7, the fire cistern outlet pipe 8 of fire cistern 2 connects the first force (forcing) pump 5, the water inlet of condensation water tank 3 connects the discharge outlet of heat exchanger 9, the condensation water tank outlet pipe 10 of condensation water tank 3 connects one end of condensation water tank direct-furnish pipe 11 and one end of fire water box water inlet pipe 12 respectively, the other end of condensation water tank direct-furnish pipe 11 is incorporated to water tank outlet pipe 6, the other end of fire water box water inlet pipe 12 connects fire cistern 2, condensation water tank outlet pipe 10 arranges the second force (forcing) pump 13 and check valve 14, check valve 14 is it can be avoided that water refluxes, by communicating pipe 19 between low layer feed pipe 16 and high-floor feedwater pipe 7, water tank feed pipe 15 arranges the 3rd electromagnetic valve 23, fire cistern outlet pipe 8 arranges the 4th electromagnetic valve 24, low layer feed pipe 16 arranges the first electromagnetic valve 20, communicating pipe 19 arranges the second electromagnetic valve 21, switch board 18 connection the first electromagnetic valve the 20, second electromagnetic valve the 21, the 3rd electromagnetic valve the 23, the 4th electromagnetic valve the 24, second force (forcing) pump 13. first force (forcing) pump 5 and the second force (forcing) pump 13 are frequency conversion force (forcing) pump.
Utility model works process is:
1, tap water pipe network normal water supply: directly supplied water to low layer feed pipe 16 to low layer user (1-4 building) by water main 4, water main 4 is supplied water to water tank 1 by water tank feed pipe 15, water tank 1 is supplied water to the first force (forcing) pump 5 by water tank outlet pipe 6, and the first force (forcing) pump 5 is supplied water to high-level user (5-9 building) by high-floor feedwater pipe 7. Meanwhile, water main 4 supplies water to fireproof water tube 17, and fireproof water tube 17 supplies water to fire cistern 2 and carries out water storage.
2, fire cistern supplies water: when occurring cutting off the water, and fire cistern 2 is supplied water to the first force (forcing) pump 5 by fire cistern outlet pipe 8, and the first force (forcing) pump 5 supplies water to high-level user (5-9 building) by high-floor feedwater pipe 7;High-floor feedwater pipe 7 is given by communicating pipe 19 and is supplied water to low layer feed pipe 16 to low layer user (1-4 building).
Condensed water supplies water: heat exchanger 9 is by the condensation water collection of steam heating to condensation water tank 3, the water of condensation water tank 3 is through the second force (forcing) pump 13 supercharging, being supplied water to water tank outlet pipe 6 by condensation water tank direct-furnish pipe 11, water tank outlet pipe 6 supplies water to high-level user (5-9 building) by the first force (forcing) pump 5 by high-floor feedwater pipe 7; High-floor feedwater pipe 7 is given by communicating pipe 19 and is supplied water to low layer feed pipe 16 to low layer user (1-4 building). Meanwhile, the water of condensation water tank 3, through the second force (forcing) pump 13 supercharging, is supplied water by fire water box water inlet pipe 12 and stores to fire cistern 2.
In described condensation water tank 3, level sensor 26 is set. When level sensor 26 senses that condensation water tank 3 water level is relatively low, control to close the second force (forcing) pump 13 and carry out the storage of cool solidifying water.
Arranging electronic flowmeter 22 on described water main 4, the outfan of electronic flowmeter 22 connects switch board 18. When electronic flowmeter 22 detects and cuts off the water, automatic startup fire cistern 2 supplies water or condensation water tank 3 supplies water.
Arranging altitude valve 27 on described fireproof water tube 17, the water level detecting end of altitude valve 27 is positioned at fire cistern 2. In order to avoid in fire cistern 2, water level is too high.
Described fire water box water inlet pipe 12 arranges pressure limiting valve 25. When user no longer uses water, namely tap water pipe network pressure increases, and when pressure is more than 3kg/cm2, condensed water directly feeds fire cistern 2.
The change of office building water supply network water supply direction: close the first electromagnetic valve 20, open the second electromagnetic valve the 21, the 4th electromagnetic valve 24, start the second force (forcing) pump 13, office building pipe network water supply, otherwise recover former office building pipe network water supply.
Solidifying Water Sproading: the condensed water that winter heating produces flows into condensation water tank 3(softening water tank), condensation water tank 3(softening water tank is detected by level sensor 26) water level, when water level rises to 0.8M, signal is passed to switch board 18 and is started the second force (forcing) pump 13 by level sensor 26, when water level is down to 0.3M, signal is passed to switch board 18 by level sensor 26, and the second force (forcing) pump 13 stops, height of water level controls arbitrarily to set, and is numerical monitor.
Automatic water supplement, altitude valve 27 is made up of moisturizing tank body, water compensating valve, air bleeding valve, ball float, before former office building pipe network water supply force (forcing) pump starts, open tap water to force (forcing) pump water inlet pipe water filling, force (forcing) pump water inlet pipe water filling fills, and when force (forcing) pump starts, water compensating valve is automatically switched off under negative pressure, when force (forcing) pump water inlet pipe hydropenia, automatic water supplement again, go round and begin again continuous operation.
Heat exchanger 9 arranges water separator, owing to condensate temperature is up to more than 60 degree, in order to improve sensor accuracy of detection further and extend sensor life-time, design adds and hydraulic pressure is changed air pressure, for medium, pressure is acted on sensor with air, make sensor and water and high temperature isolation.
This utility model also has the advantage that:
Solve winter heating condensing hot air furnace; City water pipe net is cut off the water; 1-4 in summer building insufficient water, three big problems. Gas and water separator makes sensor and water and high temperature isolation, solves sensor automatic temperature-adjusting and mends deficiency still, and extends sensor life-time. The automatic water-filling of force (forcing) pump water inlet pipe, moisturizing ensure that the continuously running of force (forcing) pump, be interrupted maintainability. Condensing hot air furnace automatically controls, and selects pressure to act on sensor first, and computer is connected compatibility with control chamber, it is achieved that continuous detecting, numerical monitor, arbitrarily sets and automatically controls.The ingenious change of water supply network, is down to investment the most end, and simple conversion is water supply network state before transformation.
The technical solution of the utility model is not restricted in the scope of embodiment described in the utility model. The technology contents of the not detailed description of this utility model is known technology.
Claims (6)
1. condensing hot air furnace reutilization system, it is characterized in that: include water tank (1), fire cistern (2), condensation water tank (3), first force (forcing) pump (5), water main (4) and switch board (18), water main (4) connects water tank feed pipe (15) one end, one end of low layer feed pipe (16) and fireproof water tube (17), the other end of water tank feed pipe (15) connects water tank (1), the other end of fireproof water tube (17) connects fire cistern (2), the water tank outlet pipe (6) of water tank (1) connects the first force (forcing) pump (5), the outlet of the first force (forcing) pump (5) connects high-floor feedwater pipe (7), the fire cistern outlet pipe (8) of fire cistern (2) connects the first force (forcing) pump (5), the water inlet of condensation water tank (3) connects the discharge outlet of heat exchanger (9), the condensation water tank outlet pipe (10) of condensation water tank (3) connects one end of condensation water tank direct-furnish pipe (11) and one end of fire water box water inlet pipe (12) respectively, the other end of condensation water tank direct-furnish pipe (11) is incorporated to water tank outlet pipe (6), the other end of fire water box water inlet pipe (12) connects fire cistern (2), condensation water tank outlet pipe (10) arranges the second force (forcing) pump (13) and check valve (14), by communicating pipe (19) between low layer feed pipe (16) and high-floor feedwater pipe (7), water tank feed pipe (15) arranges the 3rd electromagnetic valve (23), fire cistern outlet pipe (8) arranges the 4th electromagnetic valve (24), low layer feed pipe (16) arranges the first electromagnetic valve (20), communicating pipe (19) arranges the second electromagnetic valve (21), switch board (18) connection the first electromagnetic valve (20), the second electromagnetic valve (21), the 3rd electromagnetic valve (23), the 4th electromagnetic valve (24), the second force (forcing) pump (13).
2. condensing hot air furnace reutilization system according to claim 1, it is characterised in that: in described condensation water tank (3), level sensor (26) is set.
3. condensing hot air furnace reutilization system according to claim 1, it is characterised in that: arranging electronic flowmeter (22) on described water main (4), the outfan of electronic flowmeter (22) connects switch board (18).
4. condensing hot air furnace reutilization system according to claim 1, it is characterised in that: arranging altitude valve (27) on described fireproof water tube (17), the water level detecting end of altitude valve (27) is positioned at fire cistern (2).
5. condensing hot air furnace reutilization system according to claim 1, it is characterised in that: described fire water box water inlet pipe (12) arranges pressure limiting valve (25).
6. condensing hot air furnace reutilization system according to claim 1, it is characterised in that: described the first force (forcing) pump (5) and the second force (forcing) pump (13) are frequency conversion force (forcing) pump.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201620065960.0U CN205314155U (en) | 2016-01-25 | 2016-01-25 | Condensate recovery system of recycling |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201620065960.0U CN205314155U (en) | 2016-01-25 | 2016-01-25 | Condensate recovery system of recycling |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN205314155U true CN205314155U (en) | 2016-06-15 |
Family
ID=56206595
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201620065960.0U Expired - Fee Related CN205314155U (en) | 2016-01-25 | 2016-01-25 | Condensate recovery system of recycling |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN205314155U (en) |
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106522305A (en) * | 2016-12-07 | 2017-03-22 | 斯乔麦科技(深圳)有限公司 | System for recycling condensate water, cooling water and waste water heat energy |
| CN112343130A (en) * | 2020-10-17 | 2021-02-09 | 毛金霞 | Automatic water supply device for fire fighting of high-rise building |
| CN112359916A (en) * | 2020-11-11 | 2021-02-12 | 安徽好诚供水工程有限公司 | Anti floating fire control pump station of area pressure |
-
2016
- 2016-01-25 CN CN201620065960.0U patent/CN205314155U/en not_active Expired - Fee Related
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106522305A (en) * | 2016-12-07 | 2017-03-22 | 斯乔麦科技(深圳)有限公司 | System for recycling condensate water, cooling water and waste water heat energy |
| CN112343130A (en) * | 2020-10-17 | 2021-02-09 | 毛金霞 | Automatic water supply device for fire fighting of high-rise building |
| CN112359916A (en) * | 2020-11-11 | 2021-02-12 | 安徽好诚供水工程有限公司 | Anti floating fire control pump station of area pressure |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160615 Termination date: 20220125 |
|
| CF01 | Termination of patent right due to non-payment of annual fee |