CN209702335U - Powered by wind energy sea-water purifying device - Google Patents

Abstract

The utility model provides a kind of powered by wind energy sea-water purifying device, including vacuum system, heat pump system, electric-control system and wind power generation system, vacuum system includes jet stream water pump, ejector, hot-water cylinder, cold water tank and swap tank, heat pump system includes the second heat exchanger of compressor, the heat exchanger of hot-water cylinder, additional cooler, the First Heat Exchanger of swap tank, orifice union, the heat exchanger of cold water tank and swap tank, electric-control system includes that automatically controlled mainboard and display screen, automatically controlled mainboard are connect by power supply with wind-driven generator.The utility model uses from cooling water jet mode and obtains higher vacuum degree, guarantee that the water in swap tank boils at a lower temperature, and then drinking pure is produced in the form of negative pressure, significantly save energy consumption, take full advantage of the evaporation ends of heat pump system and the energy of condensation end, both it had allowed water energy constantly boiling simultaneously vapor to be cooled down to form drinking pure, and using solar power generation, has further decreased energy consumption.

Description

Powered by wind energy sea-water purifying device

Technical field

The utility model relates to seawater cleaning more particularly to a kind of powered by wind energy sea-water purifying devices.

Background technique

China ocean area is big, and mostly but slowly, wherein water shortage short of electricity is most important influence factor, if can solve for exploitation on island The certainly problem of the water on island and electricity, then the development and utilization speed on island will be greatly speeded up.

The evaporative condenser mode of pure physical change is by simple, the efficiently method, but traditional distilled water of seawater cleaning Generator generally carries out in normal pressure or high pressure, using electric heater by water heating and gasifying, is then cooled into vapor Distilled water.The electricity of electric heater consumption is big, and cooling high-temperature vapor also needs to consume a large amount of electric energy, in inherently short of electricity It can not be widely used to promote on island.

Utility model content

The purpose of the utility model is to overcome the defects of the prior art, provide a kind of powered by wind energy seawater cleaning dress It sets.

The utility model is realized in this way:

The utility model embodiment provides a kind of powered by wind energy sea-water purifying device, including vacuum system, heat pump system, electricity Control system and wind power generation system, the vacuum system include jet stream water pump, ejector, hot-water cylinder, cold water tank and exchange Tank, the heat pump system include compressor, the heat exchanger of hot-water cylinder, additional cooler, the First Heat Exchanger of swap tank, throttling group Second heat exchanger of part, the heat exchanger of cold water tank and swap tank, the electric-control system include automatically controlled mainboard, display screen and Power supply, the wind power generation system include wind-driven generator, and the wind-driven generator passes through automatically controlled mainboard described in power electric connection, The exhaust outlet of the compressor, the heat exchanger tube of hot-water cylinder, the First Heat Exchanger of swap tank, cold water tank heat exchanger and swap tank The second heat exchanger and the gas returning port of compressor be sequentially communicated, and in the First Heat Exchanger of the swap tank and the cold water tank Heat exchanger between flow path on be provided with orifice union, the water inlet of the jet stream water pump passes through water pipe and the cold water tank The connection of lower part apopore, the water outlet of the jet stream water pump are connected to the inlet communication of the ejector, the outlet of the ejector It is connected to the lower part backwater hole of the cold water tank, and the bleeding point of the ejector is connected to the swap tank, the cold water tank setting There is cold water pipe and in being provided with cold valves on the cold water pipe, the hot-water cylinder is provided with hot-water cylinder and sets on the hot-water cylinder It is equipped with hot water valve, is respectively arranged with hot water temperature sensor and cold water temperature sensor in the hot-water cylinder and the cold water tank, The display screen, hot water temperature sensor, cold water temperature sensor, compressor and jet stream water pump are electrically connected to the electricity Control mainboard.

Further, water liquid level sensor is provided in Yu Suoshu cold water tank, the water liquid level sensor is located at institute It states the upper end of cold water tank and is electrically connected with the automatically controlled mainboard.

Further, it is arranged on the flow path between the heat exchanger of Yu Suoshu hot-water cylinder and the First Heat Exchanger of the swap tank There is additional cooler, the additional cooler is electrically connected the automatically controlled mainboard.

Further, the lower part of the swap tank is communicated with water inlet pipe, inlet valve is provided on the water inlet pipe, and described Water inlet pipe is communicated with drainpipe on the flow path between the inlet valve and the swap tank, and draining is provided on the drainpipe Valve, the drain valve are electrically connected the automatically controlled mainboard with the inlet valve.

Further, active aqueous level sensor, the source aqueous level sensor electrical connection are also set up in the swap tank The automatically controlled mainboard.

Further, the second heat exchanger of the swap tank is located above the First Heat Exchanger of the swap tank, and described Source aqueous level sensor is located between the First Heat Exchanger of the swap tank and the second heat exchanger of the swap tank.

Further, the cold water tank is connected to the water inlet of the hot-water cylinder, and the water inlet of the hot-water cylinder is located at institute It states the lower part of hot-water cylinder and the cold water tank is higher than the hot-water cylinder, the import of the hot-water cylinder is located at the upper of the hot-water cylinder End.

Further, the heat exchanger of the hot-water cylinder is arranged close to the water inlet of the hot-water cylinder.

The utility model has the following beneficial effects:

(1) powered by wind energy sea-water purifying device carries wind power generation system, accumulating system, and no public electric wire net can also be single Solely work；

(2) directly direct purification after sea water by distillation, desalination are reached with evaporative condenser principle the standard of drinking pure；

(3) vacuum is obtained using from cooling water jet mode, the mode for avoiding tradition acquisition vacuum is influenced by vapor Its service life causes often to break down.Cooling water jet mode is carried, makes it possible to obtain higher vacuum degree, is guaranteed Water boils at a lower temperature；

(4) drinking pure, the low boiling point of water, to significantly save energy consumption are produced in the form of negative pressure；

(5) evaporation ends of heat pump system and the energy of condensation end are taken full advantage of, have both allowed water energy constantly boiling simultaneously water Steam cools down to form drinking pure, saves energy consumption.

(6) electric-control system is directly run using wind power generation, and has high integrated level and intelligence.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, it can also be obtained according to these attached drawings other attached drawings.

Fig. 1 is the structural schematic diagram of powered by wind energy sea-water purifying device provided by the embodiment of the utility model.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work All other embodiment obtained, fall within the protection scope of the utility model.

The design philosophy of powered by wind energy sea-water purifying device provided by the embodiment of the utility model is mainly: included wind energy hair Electric system enables it to work independently on the island of not commercial power supply；Secondly vacuum is obtained using water jet mode, allowed close The seawater being enclosed in container can boil at a lower temperature, then in conjunction with heat pump system, make full use of evaporator and condenser Energy, the water for heating sealing container makes its constantly boiling, also the steam of boiling is cooled down, while keeping into jet stream The temperature of the water of device is sufficiently low, can obtain higher vacuum degree, it is ensured that have lasting rough vacuum in sealing container；Finally arrange in pairs or groups There is special electric-control system, it can be directly using the electricity inside wind energy electricity or battery, alone in intelligent management device Whether the association components operation in portion.

Specifically, Fig. 1 is a kind of structural representation of powered by wind energy sea-water purifying device provided by the embodiment of the utility model Figure, including vacuum system, heat pump system, electric-control system and wind power generation system four are most of.Wherein vacuum system includes penetrating Flowing water pump 21, ejector 20, hot-water cylinder 11, cold water tank 17 and swap tank 2, the cold water tank 17 is interior to be contained heat exchanger 18, deposits Water temperature sensor 17-1, water liquid level sensor 16,17 lower part apopore of cold water tank by water pipe and jet stream water pump 21 into The water outlet of mouth connection, the jet stream water pump 21 is connect by water pipe with the import of ejector 20, the outlet of the ejector 20 It is connect by water pipe with the lower part backwater hole of cold water tank 17, the bleeding point of the ejector 20 passes through water pipe 14 and swap tank 2 Upper end connection, the swap tank 2 contains First Heat Exchanger 23, source aqueous level sensor 25, the second heat exchanger 3, wherein first changes Hot device 3 is heating tube, and the second heat exchanger 23 is steam cooling tube, and thus the source aqueous level sensor 25 in swap tank 2 should be located at Between First Heat Exchanger 3 and the second heat exchanger 23.Each heat exchanger in hot-water cylinder 11, cold water tank 17 and swap tank 2 is all made of Coil arrangement, heat transfer effect are relatively good.It is connected between hot-water cylinder 11 and cold water tank 2 by pipeline 13, cold water tank 2 is higher than hot-water cylinder 11, the water in cold water tank 17 is automatically replenished by pipeline 13 to hot-water cylinder 11, thus need to only be set in the inner top side of cold water tank 2 It is equipped with water liquid level sensor 16, without corresponding liquid level sensor, the water inlet position of hot-water cylinder 11 are arranged in hot-water cylinder 11 In the lower part of hot-water cylinder 11, in heat exchanger 10 close to the water inlet, and the hot-water cylinder of hot-water cylinder 11 is then connected to hot-water cylinder 11 upper end, when the water heating in hot-water cylinder 11, hot water can be risen to automatically at the liquid level of hot-water cylinder 11, in cold water tank 17 Cold water will not influence the water temperature at 11 liquid level of hot-water cylinder, thus hot water temperature sensor 11-1 should close to hot-water cylinder 11 liquid level it is attached Closely.

When jet stream water pump 21 works, water high pressure goes out to generate negative pressure by ejector 20 in 20 exhaust tube of ejector, from And make the pressure reduction of the swap tank 2 of sealing, when reaching 3000Pa to 6000Pa, the water in swap tank 2 is in room temperature Lower evaporation becomes vapor, and vapor is condensed into pure water after contacting with the second heat exchanger 23, pass sequentially through swap tank 2 on bring out Mouthful, the bleeding point of ejector 20 enter in cold water tank 17, when water liquid level sensor 16 meets condition, water process processed is complete At stopping water processed.

Wherein heat pump system includes compressor 7, the heat exchanger 10 of hot-water cylinder 11, additional cooler 6, in swap tank 2 One heat exchanger 3, orifice union 22, the heat exchanger 18 in cold water tank 17, the second heat exchanger 23 in swap tank 2 are in turn connected into heat Pumping system；7 exhaust outlet of compressor is connect with 10 import of heat exchanger of hot-water cylinder 11 by copper pipe 8, the hot-water cylinder 11 The outlet of heat exchanger 10 is connect with 6 import of additional cooler by copper pipe 9, the outlet of additional cooler 6 and the first of swap tank 2 3 import of heat exchanger is connected by copper pipe 4, and the outlet of First Heat Exchanger 3 of the swap tank 2 passes through copper pipe with 22 import of orifice union 26 connections, the outlet of orifice union 22 are connect with 18 import of water cooling coil by copper pipe 19, and the cold water tank 17 changes Second heat exchanger 23 of hot device 18 and swap tank 2 is connected in series, the second heat exchanger 23 and 7 return-air of compressor of the swap tank 2 Mouth is connected by copper pipe 24 and copper pipe 5.

When work, the high pressure gaseous refrigerant that compressor 7 is discharged is handed over by the heat exchanger 10 and water of hot-water cylinder 11 Heat exchange amount heats the water of 11 the inside of hot-water cylinder, while by the First Heat Exchanger 3 and water coke slurry heat of swap tank 2, friendship The water heating of 2 the inside of tank is changed, the gaseous coolant of high temperature and pressure becomes the liquid refrigerants of high temperature and pressure, the liquid refrigerants of high temperature and pressure After orifice union 22, become the liquid refrigerants of low-temp low-pressure, into cold water tank 17 heat exchanger 18 and swap tank 2 second Heat exchanger 23 and the steam of 2 the inside of water and swap tank of 17 the inside of cold water tank exchange heat, and the water 17 the inside of cold water tank is cooling, The steam of 2 the inside of swap tank is cooled down simultaneously and becomes water droplet, the liquid refrigerants of low-temp low-pressure becomes low-temp low-pressure at this time Gas coolant returns to 7 gas returning port of compressor, becomes high pressure gaseous refrigerant again after the compression of compressor 7, completes primary heat Pump circulation.It repeats in this way, the lasting water heating 11 the inside of hot-water cylinder becomes the drinking pure of heat, the water of 2 the inside of swap tank Heating maintain boiling, the water of the inside of water storage tank 17 it is cooling become cold drinking pure, the steam of 2 the inside of swap tank is continued it is cold But get off and become water droplet.

Wherein electric-control system includes automatically controlled mainboard 28, display screen 29, additional cooler temperature sensor 6-1, cold water temperature Degree sensor 17-1, hot water temperature sensor 11-1, water liquid level sensor 16, source aqueous level sensor 25 pass through electric wire respectively Composition electric-control system is connect with automatically controlled mainboard 28, certain electric-control system should also include power supply 30, and wind power generation system is mainly Being includes wind-driven generator 31, and automatically controlled mainboard 28 connects wind-driven generator 31 by power supply 30, and power supply 30 uses battery, wind energy Generator 31 works to power source charges, then is powered by power supply 30 to automatically controlled mainboard 28 and other electrical components, certain power supply 30 It can also connect with municipal power grid, when wind-driven generator 31 cannot generate electricity because of weather reason, then can be supplied using municipal power grid Electricity；The additional cooler temperature sensor 6-1 is placed in additional cooler 6 close to exit；The water temperature sensor 17-1 is placed in 17 middle part of cold water tank, and the hot water temperature sensor 11-1 is placed in 11 top of hot-water cylinder；The water liquid level Sensor 16 is placed in 17 top of cold water tank；The source aqueous level sensor 25 is placed in 2 middle part of swap tank.For automatically controlled master Plate 28 primarily serves control and supervisory function bit, specifically controls corresponding component according to the result of monitoring and works, for example control is penetrated Flowing water pump 21, compressor 7, additional cooler 6, hot water valve 12, cold valves 15, inlet valve 1 and drain valve 27 work, by cold Water temperature sensor 17-1, hot water temperature sensor 11-1, water liquid level sensor 16 and source aqueous level sensor 25 detect Corresponding temperature and water level information, and the information is shown on display screen 29.

Automatically controlled mainboard 28, which detects, starts water processed when water liquid level sensor 16 is unsatisfactory for condition, vacuum system and heat pump system System starts to work and carries out water processed, until water liquid level sensor 16 meets condition, stops water processed at this time.

During water processed, tap water is entered inside swap tank by inlet valve 1 first, until source aqueous level sensor 25 Meet condition, then close inlet valve 1, stops water inlet；Boiling, cooling persistently occur in swap tank 2, causes liquid level to decline, at this time Source aqueous level sensor 25 is unsatisfactory for condition, then opens inlet valve 1, starts to intake, until source aqueous level sensor 25 meets item Part then closes inlet valve 1, stops water inlet, repeats in this way.

When water temperature sensor 17-1 is unsatisfactory for condition, heat pump system operation, until water temperature sensor 17-1 Reach condition, then stops working.

When hot water temperature sensor 11-1 is unsatisfactory for condition, heat pump system operation, until hot water temperature sensor 11-1 Reach condition, then stops working.

When additional cooler temperature sensor 6-1 reaches condition, then additional cooler 6 is run, and is otherwise stopped, to reach The target of adjusting heat pump system pressure, allows the more reliable operation of heat pump system.

After automatically controlled mainboard 28 calculates the condition that accumulated running time reaches certain, inlet valve 1 is closed, opens drain valve 27, waste water is exhausted, guarantees the cleannes of 2 the inside of swap tank.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this Within the spirit and principle of utility model, any modification, equivalent replacement, improvement and so on should be included in the utility model Protection scope within.

Claims (9)

1. a kind of powered by wind energy sea-water purifying device, it is characterised in that: including vacuum system, heat pump system, electric-control system and Wind power generation system, the vacuum system include jet stream water pump, ejector, hot-water cylinder, cold water tank and swap tank, the heat pump System includes compressor, the heat exchanger of hot-water cylinder, additional cooler, the First Heat Exchanger of swap tank, orifice union, cold water tank Second heat exchanger of heat exchanger and swap tank, the electric-control system include automatically controlled mainboard, display screen and power supply, the wind Energy electricity generation system includes wind-driven generator, and the wind-driven generator passes through automatically controlled mainboard described in power electric connection, the compressor Exhaust outlet, the heat exchanger tube of hot-water cylinder, the First Heat Exchanger of swap tank, the heat exchanger of cold water tank and swap tank the second heat exchange The gas returning port of device and compressor is sequentially communicated, and in the heat exchanger of the First Heat Exchanger of the swap tank and the cold water tank it Between flow path on be provided with orifice union, the water inlet of the jet stream water pump passes through the lower part apopore of water pipe and the cold water tank Connection, the water outlet of the jet stream water pump are connected to the inlet communication of the ejector, cold described in the outlet of the ejector The lower part backwater hole of water pot, and the bleeding point of the ejector is connected to the swap tank, the cold water tank be provided with cold water pipe and In being provided with cold valves on the cold water pipe, the hot-water cylinder is provided with hot-water cylinder and in being provided with hot water on the hot-water cylinder Hot water temperature sensor and cold water temperature sensor, the display are respectively arranged in valve, the hot-water cylinder and the cold water tank Screen, hot water temperature sensor, cold water temperature sensor, compressor and jet stream water pump are electrically connected to the automatically controlled mainboard.

2. powered by wind energy sea-water purifying device as described in claim 1, it is characterised in that: be provided with and deposit in Yu Suoshu cold water tank Aqueous level sensor, the water liquid level sensor are located at the upper end of the cold water tank and are electrically connected with the automatically controlled mainboard.

3. powered by wind energy sea-water purifying device as described in claim 1, it is characterised in that: the heat exchanger of Yu Suoshu hot-water cylinder with Additional cooler is provided on flow path between the First Heat Exchanger of the swap tank, the additional cooler is electrically connected the electricity Control mainboard.

4. powered by wind energy sea-water purifying device as described in claim 1, it is characterised in that: the hot water valve and the cold valves It is electrically connected to the automatically controlled mainboard.

5. powered by wind energy sea-water purifying device as described in claim 1, it is characterised in that: the lower part of the swap tank is communicated with Water inlet pipe is provided with inlet valve, and stream of the water inlet pipe between the inlet valve and the swap tank on the water inlet pipe Road is communicated with drainpipe, and drain valve is provided on the drainpipe, described in the drain valve is electrically connected with the inlet valve Automatically controlled mainboard.

6. powered by wind energy sea-water purifying device as described in claim 1, it is characterised in that: also set up in the swap tank active Aqueous level sensor, the source aqueous level sensor are electrically connected the automatically controlled mainboard.

7. powered by wind energy sea-water purifying device as claimed in claim 6, it is characterised in that: the second heat exchanger of the swap tank Above the First Heat Exchanger of the swap tank, and the source aqueous level sensor is located at the First Heat Exchanger of the swap tank Between the second heat exchanger of the swap tank.

8. powered by wind energy sea-water purifying device as described in claim 1, it is characterised in that: the cold water tank and the hot-water cylinder Water inlet connection, the water inlet of the hot-water cylinder is located at the lower part of the hot-water cylinder and the cold water tank higher than the hot water Tank, the import of the hot-water cylinder are located at the upper end of the hot-water cylinder.

9. powered by wind energy sea-water purifying device as claimed in claim 8, it is characterised in that: the heat exchanger of the hot-water cylinder is close The water inlet of the hot-water cylinder is arranged.