CN202248085U - Intelligent efficient energy-saving water supply system - Google Patents
Intelligent efficient energy-saving water supply system Download PDFInfo
- Publication number
- CN202248085U CN202248085U CN2011203272762U CN201120327276U CN202248085U CN 202248085 U CN202248085 U CN 202248085U CN 2011203272762 U CN2011203272762 U CN 2011203272762U CN 201120327276 U CN201120327276 U CN 201120327276U CN 202248085 U CN202248085 U CN 202248085U
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- water
- pipeline
- inlet pipeline
- water inlet
- steady flow
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A20/00—Water conservation; Efficient water supply; Efficient water use
Abstract
The utility model provides an intelligent efficient energy-saving water supply system, which comprises a main water inlet pipeline, a pressure sensor arranged on the main water inlet pipeline, a first water inlet pipeline, a second water inlet pipeline, a steady flow compensator, a water pump unit, a water outlet pipeline and an intelligent control system. One end of the first water inlet pipeline is connected to the main water inlet pipeline, the other end of the first water inlet pipeline is connected to the steady flow compensator, and an electromagnetic valve and a negative pressure gauge are sequentially arranged on the first water inlet pipeline; one end of the second water inlet pipeline is connected to the main water inlet pipeline, the other end of the second water inlet pipeline is connected to the steady flow compensator, and a water inlet valve of a water tank, the full-closed water tank and a pressurization transmitter are sequentially arranged on the second water inlet pipeline; one end of the water pump unit is connected to the steady flow compensator, and the other end of the water pump unit is connected to the water outlet pipeline; and the intelligent control system is electrically connected with the pressure sensor, the electromagnetic valve, the negative pressure gauge, the water pump unit and the pressurization transmitter respectively. Through the system, the water in the water storage tank is in a fresh state in real time; and proper water pumps are automatically selected according to the water flow, so that energy conservation and emission reduction are realized, and the service lives of the water pumps are prolonged.
Description
Technical field
The utility model relates to a kind of secondary water supply system, relates in particular to the energy-conservation water supply system of a kind of intelligent and high-efficiency.
Background technology
Non-negative pressure water supply in the market is on frequency conversion feedwater basis, to develop and next energy-saving and environmental protection water supply facilities.No-negative-pressure water supply equipment has been cancelled reservoir, makes full use of municipal ductwork pressure, reaches energy-saving effect, in case but municipal ductwork pressure is not enough or when cutting off the water, the too small even anhydrous available situation of current will correspondingly appear in user's water.Add storage tank in order to emergent like other, the water in the storage tank again can be for a long time need not and become stagnant water, can not play emergencing action.
Existing no-negative-pressure water supply equipment can not guarantee that water pump all is in the work of efficient district when being with pressure condition and not being with pressure condition, and when water pump departed from the work of efficient district, it was more unfavorable energy-conservation application life not only to influence water pump.
The utility model content
The purpose of the utility model is, provides a kind of intelligent and high-efficiency energy-conservation water supply system, and it makes the water storage in the Emergent water tank be in flow regime in real time, thereby has guaranteed water quality.
Another purpose of the utility model is, provides a kind of intelligent and high-efficiency energy-conservation water supply system, realizes pressure, flow Synchronization Control, selects suitable water pump automatically according to flow, thereby when reaching effects of energy saving and emission reduction, prolongs the application life of water pump.
For realizing above-mentioned purpose; The utility model provides a kind of intelligent and high-efficiency energy-conservation water supply system, and it comprises: pressure sensor, one first inlet pipeline, one second inlet pipeline, a steady flow compensator, a water pump group, an outlet pipeline and the intelligence control system on this water inlet manifold road is located on a water inlet manifold road;
Said first inlet pipeline, one end is connected in an end on this water inlet manifold road, and the other end is connected in steady flow compensator, is that prime direction is provided with an electromagnetic valve, a vacuum table, an and inlet valve on it successively with this first inlet pipeline, one end;
Said second inlet pipeline, one end is connected in an end on this water inlet manifold road; The other end is connected in steady flow compensator; With this second inlet pipeline, one end is that prime direction is provided with a tank intake valve of water, a full sealed cistern water, an and supercharging transmitter on it successively, and this full sealed cistern water inside is provided with a level sensor and a self-cleaning syringe;
Said water pump group one end is connected in this steady flow compensator, and the other end is connected in this outlet pipeline;
Said intelligence control system is electrically connected at said pressure sensor, electromagnetic valve, vacuum table, supercharging transmitter, water pump group and level sensor respectively.
The said water inlet manifold road other end is used to connect municipal network water supply, is that prime direction is provided with a valve, a strainer and a backflow preventer on it successively with this water inlet manifold road other end.
Said steady flow compensator is provided with a level detector, and this level detector is electrically connected at this intelligence control system.
Be provided with a pressure sensor between said steady flow compensator and the said water pump group, this pressure sensor is electrically connected at this intelligence control system.
Said water pump group comprises first pipeline and one second pipeline of several parallel arranged, and every first pipeline is provided with water pump, and all water pumps of first pipeline have different flow respectively.
Said outlet pipeline one end is used to connect user's dry point; And with its other end is to be provided with a flow transmitter, a pressure sensor, and voltage stabilizing accumulator on this outlet pipeline of prime direction successively; Said flow transmitter, pressure sensor, and voltage stabilizing accumulator all are electrically connected at this intelligence control system.
The beneficial effect of the utility model: the energy-conservation water supply system of the intelligent and high-efficiency that the utility model provided; Make the water in the storage tank to be in real-time flow regime, thereby solved that the water storage in the Emergent water tank in the prior art can not upgrade for a long time and the problem that becomes stagnant water; And realized pressure, flow Synchronization Control, selected suitable water pump automatically, thereby when reaching effects of energy saving and emission reduction, prolonged the application life of water pump according to flow.
In order further to understand the characteristic and the technology contents of the utility model, see also following detailed description and accompanying drawing, yet accompanying drawing is only put forward into reference and explanation usefulness, is not to be used for the utility model is limited about the utility model.
Description of drawings
Below in conjunction with accompanying drawing, describe in detail through the specific embodiment the utility model, the technical scheme that makes the utility model and other beneficial effect is obvious.
In the accompanying drawing,
Fig. 1 is the energy-conservation water supply system structure of a utility model intelligent and high-efficiency schematic flow sheet.
The specific embodiment
For further setting forth technological means and the effect thereof that the utility model is taked, be described in detail below in conjunction with the preferred embodiment and the accompanying drawing thereof of the utility model.
See also Fig. 1; The energy-conservation water supply system of the utility model intelligent and high-efficiency, it comprises that a water inlet manifold road 100, is located at pressure sensor 104 on this water inlet manifold road 100, one first inlet pipeline 1, one second (ftercompction) inlet pipeline 2, a steady flow compensator 3, a water pump group 4, an outlet pipeline 5 and an intelligence control system 6;
Said first inlet pipeline, 1 one ends are connected in an end on this water inlet manifold road 100, and the other end is connected in steady flow compensator 3, are that prime direction is provided with an electromagnetic valve 11, a vacuum table 12, an and inlet valve 13 on it successively with these first inlet pipeline, 1 one ends;
Said second inlet pipeline, 2 one ends are connected in an end on this water inlet manifold road 100; The other end is connected in steady flow compensator 3; With these second inlet pipeline, 2 one ends is that prime direction is provided with a tank intake valve of water 21, a full sealed cistern water 22, an and supercharging transmitter 23 on it successively; This full sealed cistern water inner inlet mouth end is provided with a level sensor 221, and the bottom is provided with a self-cleaning syringe 222 and an outlet valve 223;
Said water pump group 4 one ends are connected in this steady flow compensator 3, and the other end is connected in this outlet pipeline 5;
Said intelligence control system 6 is electrically connected at pressure sensor 104, electromagnetic valve 11, vacuum table 12, supercharging transmitter 23 respectively, reaches level sensor 211.
Said water inlet manifold road 100, one ends are used to connect municipal network water supply (not shown), are that prime direction is provided with a valve 101, a strainer 102 and a backflow preventer 103 on it successively with these water inlet manifold road 100 1 ends.
Tap water gets into first inlet pipeline 1 and second water inlet pipe, second inlet pipeline 2 through municipal network water supply (not shown) via valve 101, strainer 102, backflow preventer 103 and pressure sensor 104; This pressure sensor 104 is sent to this intelligence control system 6 with the force value in this water inlet manifold road; When being on the setting pressure, this force value prescribes a time limit; Explain that municipal network water supply is in the normal water supply state, then the current in first inlet pipeline 1 via electromagnetic valve 11, vacuum table 12, and inlet valve 13 get into steady flow compensator 3; Current in second inlet pipeline 2 get in the full sealed cistern water 22 via tank intake valve of water 21, from the delivery port of full sealed cistern water 22, through flowing into steady flow compensator 3 after 23 pressure regulation of supercharging transmitter, get into outlet pipeline 5 through water pump group 4 more again, supply the user to use; When this force value is very little, explain then that municipal network water supply is in to cut off the water or the state of insufficient water, then, intelligence control system 6 is closed the electromagnetic valve 11 in first inlet pipeline 1, at this moment, uses the store water in the full sealed cistern water 22 to supply water as the user.Said supercharging transmitter 23; Adopt the turbocharging principle; Its output pressure of real-time regulated; Make its with first inlet pipeline 1 in pressure balanced mutually, thereby make the water in second inlet pipeline 2 be in real-time flow regime, thereby solved in the prior art that water storage in the storage tank can not be changed for a long time and the problem that becomes stagnant water.
Said steady flow compensator 3, its top are provided with a level detector 31, and this level detector 31 is electrically connected at this intelligence control system 6; Its bottom is provided with an outlet valve 32.
Be provided with a pressure sensor 34 between said steady flow compensator 3 and the said water pump group 4, this pressure sensor 34 is electrically connected at this intelligence control system 32.
Said water pump group 4, by second pipeline that is provided with an air pressure tank 41 and several first pipelines that respectively is provided with a water pump 42,43,44 are parallel connects to form, the flow of water pump 42,43,44 increases successively.
Said outlet pipeline 5, one of which end are used to connect user's dry point (not shown), are that prime direction is provided with a flow transmitter 51, a pressure sensor 52, and voltage stabilizing accumulator 53 on it successively with the link with water pump group 4.
Said flow transmitter 51, pressure sensor 52, and voltage stabilizing accumulator 53 all are electrically connected at this intelligence control system 6.
The above; For the person of ordinary skill of the art; Can make other various corresponding changes and distortion according to the technical scheme and the technical conceive of the utility model, and all these changes and distortion all should belong to the protection domain of the utility model claim.
Claims (6)
1. energy-conservation water supply system of intelligent and high-efficiency; It is characterized in that, comprising: pressure sensor, one first inlet pipeline, one second inlet pipeline, a steady flow compensator, a water pump group, an outlet pipeline and the intelligence control system on this water inlet manifold road is located on a water inlet manifold road;
Said first inlet pipeline, one end is connected in an end on this water inlet manifold road, and the other end is connected in steady flow compensator, is that prime direction is provided with an electromagnetic valve, a vacuum table, an and inlet valve on it successively with this first inlet pipeline, one end;
Said second inlet pipeline, one end is connected in an end on this water inlet manifold road; The other end is connected in steady flow compensator; With this second inlet pipeline, one end is that prime direction is provided with a tank intake valve of water, a full sealed cistern water, an and supercharging transmitter on it successively, and this full sealed cistern water inside is provided with a level sensor and a self-cleaning syringe;
Said water pump group one end is connected in this steady flow compensator, and the other end is connected in this outlet pipeline;
Said intelligence control system is electrically connected at said pressure sensor, electromagnetic valve, vacuum table, supercharging transmitter, water pump group and level sensor respectively.
2. the energy-conservation water supply system of intelligent and high-efficiency as claimed in claim 1; It is characterized in that; The said water inlet manifold road other end is used to connect municipal network water supply, is that prime direction is provided with a valve, a strainer and a backflow preventer on it successively with this water inlet manifold road other end.
3. the energy-conservation water supply system of intelligent and high-efficiency as claimed in claim 1 is characterized in that said steady flow compensator is provided with a level detector, and this level detector is electrically connected at this intelligence control system.
4. the energy-conservation water supply system of intelligent and high-efficiency as claimed in claim 1 is characterized in that, is provided with a pressure sensor between said steady flow compensator and the said water pump group, and this pressure sensor is electrically connected at this intelligence control system.
5. the energy-conservation water supply system of intelligent and high-efficiency as claimed in claim 1 is characterized in that, said water pump group comprises first pipeline and one second pipeline of several parallel arranged, and every first pipeline is provided with water pump, and all water pumps of first pipeline have different flow respectively.
6. the energy-conservation water supply system of intelligent and high-efficiency as claimed in claim 1; It is characterized in that; Said outlet pipeline one end is used to connect user's dry point; And with its other end is to be provided with a flow transmitter, a pressure sensor, and voltage stabilizing accumulator on this outlet pipeline of prime direction successively, and said flow transmitter, pressure sensor, and voltage stabilizing accumulator all are electrically connected at this intelligence control system.
Priority Applications (1)
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CN2011203272762U CN202248085U (en) | 2011-09-01 | 2011-09-01 | Intelligent efficient energy-saving water supply system |
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CN2011203272762U CN202248085U (en) | 2011-09-01 | 2011-09-01 | Intelligent efficient energy-saving water supply system |
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CN202248085U true CN202248085U (en) | 2012-05-30 |
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CN2011203272762U Expired - Lifetime CN202248085U (en) | 2011-09-01 | 2011-09-01 | Intelligent efficient energy-saving water supply system |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106677279A (en) * | 2016-12-12 | 2017-05-17 | 新开利(上海)水务有限公司 | Pipe network pressure-superposed water supply equipment |
CN111287258A (en) * | 2020-02-12 | 2020-06-16 | 长沙扬翔饲料有限责任公司 | Fire hydrant pressure-stabilizing water supply system and process |
-
2011
- 2011-09-01 CN CN2011203272762U patent/CN202248085U/en not_active Expired - Lifetime
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106677279A (en) * | 2016-12-12 | 2017-05-17 | 新开利(上海)水务有限公司 | Pipe network pressure-superposed water supply equipment |
CN106677279B (en) * | 2016-12-12 | 2019-07-19 | 新开利(上海)水务有限公司 | Pipe network Pressure-superposed water supply equipment |
CN111287258A (en) * | 2020-02-12 | 2020-06-16 | 长沙扬翔饲料有限责任公司 | Fire hydrant pressure-stabilizing water supply system and process |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CX01 | Expiry of patent term |
Granted publication date: 20120530 |
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CX01 | Expiry of patent term |