CN205316698U - Photoelectricity drinking water purifies magnetization boiling water system - Google Patents

Abstract

The utility model discloses a photoelectricity drinking water purifies magnetization boiling water system relates to solar collector technical field. Including solar collector, heat -retaining water container, electromagnetic heating water container and thermal -arrest water tank. Solar collector pass through circulating line inlet tube and circulating line outlet pipe with the heat -retaining water container be linked together, be equipped with heat transfer water container in the heat -retaining water container, be equipped with on the heat -retaining water container with the cold water inlet pipe that heat transfer water container is linked together, still be equipped with on the heat -retaining water container one end with the heat transfer water container be linked together, the other end with the first connecting pipe that electromagnetic heating water container is linked together, the last secondary cooling water that is equipped with of electromagnetic heating water container advances pipe and second connecting pipe, pass through between electromagnetic heating water container and the thermal -arrest water tank the second connecting pipe is linked together. It is short that the system has the time of heating up water, and photoelectricity is complementary, and the energy saving has disinfection of disinfecting and magnetization and convenient to use's characteristics.

Description

Photoelectricity drink water purifying magnetization boiling system

Technical field

This utility model relates to solar thermal collector technical field, particularly relates to a kind of photoelectricity drink water purifying magnetization boiling system.

Background technology

Solar water heater conventional at present only has most basic heat absorption to be incubated disposable appearance water function, and does not have deposit heat energy and discharge the function of many waste heat energies, it addition, existing solar water heater is also without water being warming up to boiled water and keeping the function of boiled water.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of photoelectricity drink water purifying magnetization boiling system, and it is short that described system has the time of heating up water, light-electricity complementary, saves the energy, has sterilizing and magnetization and feature easy to use.

For solving above-mentioned technical problem, technical solution adopted in the utility model is: a kind of photoelectricity drink water purifying magnetization boiling system, it is characterized in that: include solar thermal collector, water storage gallbladder, Electromagnetic Heating water gallbladder and heat collection water tank, described solar thermal collector is connected with described water storage gallbladder with circulating line outlet pipe by circulating line water inlet pipe, it is provided with heat-exchanging water gallbladder in described water storage gallbladder, described water storage gallbladder is provided with the first cold water inlet pipe being connected with described heat-exchanging water gallbladder, described water storage gallbladder is additionally provided with one end be connected with described heat-exchanging water gallbladder, the first connecting tube that the other end is connected with described Electromagnetic Heating water gallbladder, described first connecting tube is provided with the first water pump, it is provided with electromagnetic heater in described Electromagnetic Heating water gallbladder, described Electromagnetic Heating water gallbladder is provided with the second cold water inlet pipe and the second connecting tube, it is connected by described second connecting tube between described Electromagnetic Heating water gallbladder and heat collection water tank, described second connecting tube is provided with the second water pump, described heat collection water tank is provided with outlet.

Further technical scheme is in that: described solar thermal collector includes the first U-shaped red copper bend pipe and some groups of the second U-shaped red copper bend pipes, the two ends of described second U-shaped red copper bend pipe are connected with two tube walls of the first U-shaped red copper bend pipe respectively, the two ends of the first U-shaped red copper bend pipe are water inlet end and water side, it is connected with circulating line water inlet pipe and circulating line outlet pipe respectively, the diameter of described first U-shaped red copper bend pipe is more than the diameter of the second U-shaped red copper bend pipe, the arranged outside of described second U-shaped red copper bend pipe has solar vacuum glass tube, it is provided with aluminium radiator fin between described glass tubing and the second U-shaped red copper bend pipe.

Further technical scheme is in that: the diameter of described first U-shaped red copper bend pipe is 16mm-20mm, and the diameter of the second U-shaped red copper bend pipe is 8mm-10mm.

Further technical scheme is in that: the top of described water storage gallbladder is provided with the first water level probe, and described first water level probe is connected with the signal input part of master controller in described system, for sensing the height of water level in water storage gallbladder.

Further technical scheme is in that: described water storage gallbladder is provided with the downtake pipe and blow-off pipe that are connected with described heat-exchanging water gallbladder.

Further technical scheme is in that: described Electromagnetic Heating water gallbladder is provided with coupled logical second exhaust pipe, the second water level probe and temperature sensor, described second water level probe is connected with the signal input part of master controller in described system, for the height of water level in inductive electromagnetic heating water bladder, described temperature sensor is connected with the signal input part of described master controller, for the water temperature in inductive electromagnetic heating water bladder.

Further technical scheme is in that: described electromagnetic heater is fixed in described Electromagnetic Heating water gallbladder by ring flange.

Further technical scheme is in that: being provided with the 3rd water level probe in described heat collection water tank, described 3rd water level probe is connected with the signal input part of the master controller in described system, for sensing the water level information in described heat collection water tank.

Further technical scheme is in that: the first connecting tube of described first water feeding of water pump end is provided with multistage filter.

Further technical scheme is in that: described electromagnetic heater includes some heating rods, and described heating rod includes stainless steel tube, and one end of stainless steel tube is closed, the other end is open, top layer is wound with insulating electrical paper, and electrician's paper outer layer is fastened magnetic conduction bar, and magnetic conduction bar outer layer is wound around solenoid.

Adopt and have the beneficial effects that produced by technique scheme: described system meets the requirement that universities and colleges' drinking water consumption is big, peak value is high, the time is short. Light-electricity complementary, has maximally utilised the energy conservation characteristic of solar energy and electromagnetic induction heating, has saved mass energy, and discharge is zero, and economic efficacy highlights. Utilizing electromagnetic induction heating technology that water has carried out sterilizing and magnetization, sterilization rate has reached 99.99%, for the healthy reliable guarantee that provides of student, easy to use.

Accompanying drawing explanation

Fig. 1-2 is theory diagram of the present utility model;

Fig. 3 is the structural representation adding heat pipe in solar thermal collector;

Wherein: 1, solar thermal collector 2, water storage gallbladder 3, Electromagnetic Heating water gallbladder 4, heat collection water tank 5, heat-exchanging water gallbladder 6, circulating line water inlet pipe 7, circulating line outlet pipe 8, first cold water inlet pipe 9, first connecting tube 10, first water pump 11, electromagnetic heater 12, second cold water inlet pipe 13, second connecting tube 14, second water pump 15, outlet 16, first U-shaped red copper bend pipe 17, second U-shaped red copper bend pipe 18, first water level probe 19, master controller 20, downtake pipe 21, blow-off pipe 22, second exhaust pipe 23, second water level probe 24, temperature sensor 25, ring flange 26, 3rd water level probe 27, multistage filter.

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the present utility model, rather than whole embodiments. Based on the embodiment in this utility model, the every other embodiment that those of ordinary skill in the art obtain under not making creative work premise, broadly fall into the scope of this utility model protection.

Elaborate a lot of detail in the following description so that fully understanding this utility model, but this utility model can also adopt other to be different from alternate manner described here to be implemented, those skilled in the art can do similar popularization when without prejudice to this utility model intension, and therefore this utility model is not by the restriction of following public specific embodiment.

Overall, (after a connection in a and the Fig. 2 in Fig. 1, constitute the theory diagram of described system) as shown in Figure 1-2, the utility model discloses a kind of photoelectricity drink water purifying magnetization boiling system, including solar thermal collector 1, water storage gallbladder 2, Electromagnetic Heating water gallbladder 3 and heat collection water tank 4. Described solar thermal collector 1 is connected with described water storage gallbladder 2 with circulating line outlet pipe 7 by circulating line water inlet pipe 6. Preferably, as it is shown on figure 3, described solar thermal collector 1 includes the first U-shaped red copper bend pipe 16 and some groups of the second U-shaped red copper bend pipes 17, the two ends of described second U-shaped red copper bend pipe 17 are connected with two tube walls of the first U-shaped red copper bend pipe 16 respectively.

The two ends of the first U-shaped red copper bend pipe 16 are water inlet end and water side, are connected with circulating line water inlet pipe 6 and circulating line outlet pipe 7 respectively. The diameter of described first U-shaped red copper bend pipe 16 is more than the diameter of the second U-shaped red copper bend pipe 17, the arranged outside of described second U-shaped red copper bend pipe 17 has solar vacuum glass tube, it is provided with aluminium radiator fin between described glass tubing and the second U-shaped red copper bend pipe 17, so that solar heat is delivered in the water in U-tube, through circulation, hot water enters in water storage gallbladder and preserves. Preferably, in the present embodiment, the diameter of described first U-shaped red copper bend pipe 16 is 16mm-20mm, the diameter of the second U-shaped red copper bend pipe 17 is 8mm-10mm, the diameter of certain first U-shaped red copper bend pipe 16 and the second U-shaped red copper bend pipe 17 can also be other numerical value, and those skilled in the art can carry out accommodation according to actual needs.

Being provided with heat-exchanging water gallbladder 5 in described water storage gallbladder 2, described water storage gallbladder 2 is provided with the first cold water inlet pipe 8, downtake pipe 20 and the blow-off pipe 21 that are connected with described heat-exchanging water gallbladder 5. The top of described water storage gallbladder 2 is provided with the first water level probe 18, and described first water level probe 18 is connected with the signal input part of master controller 19 in described system, for sensing the height of water level in water storage gallbladder 2. Being additionally provided with one end on described water storage gallbladder 2 to be connected with described heat-exchanging water gallbladder 5, the first connecting tube 9 that the other end is connected with described Electromagnetic Heating water gallbladder 3, described first connecting tube 9 is provided with the first water pump 10. Preferably, the first connecting tube 9 of described first water pump 10 water inlet end is provided with multistage filter 27.

Being provided with electromagnetic heater 11 in described Electromagnetic Heating water gallbladder 3, described electromagnetic heater 11 is fixed in described Electromagnetic Heating water gallbladder 3 by ring flange 25. Preferably in the present embodiment, described electromagnetic heater 11 includes some heating rods, described heating rod includes stainless steel tube, one end of stainless steel tube is closed, the other end is open, top layer is wound with insulating electrical paper, electrician's paper outer layer is fastened magnetic conduction bar, magnetic conduction bar outer layer is wound around solenoid, utilizes contacting of its open port and water, makes heat be delivered in water, to reduce the heat impact for solenoid, increasing heat exchange efficiency, stainless steel is corrosion-resistant, pressure, and will not be sensed by solenoid.

Described Electromagnetic Heating water gallbladder 3 is provided with the second cold water inlet pipe 12 and the second connecting tube 13, it is connected by described second connecting tube 13 between described Electromagnetic Heating water gallbladder 3 and heat collection water tank 4, described second connecting tube 13 is provided with the second water pump 14, and described heat collection water tank 4 is provided with outlet 15.Described Electromagnetic Heating water gallbladder 3 is provided with coupled logical second exhaust pipe the 22, second water level probe 23 and temperature sensor 24, described second water level probe 23 is connected with the signal input part of master controller 19 in described system, for the height of water level in inductive electromagnetic heating water bladder 3, described temperature sensor 24 is connected with the signal input part of described master controller 19, for the water temperature in inductive electromagnetic heating water bladder 3.

Being provided with the 3rd water level probe 26 in described heat collection water tank 4, described 3rd water level probe 26 is connected with the signal input part of the master controller 19 in described system, for sensing the water level information in described heat collection water tank 4.

Solar thermal collector absorbs solar energy and the water in water storage gallbladder is carried out enclosed circulation heating, is an independent heating circulation system, does not exchange with the water in heat-exchanging water gallbladder. It is provided with a rustless steel heat-exchanging water gallbladder in water storage gallbladder, is dipped in the high-temperature water in water storage gallbladder, passes into tap water, carry out heat exchange with the water in water storage gallbladder, and connect with Electromagnetic Heating water gallbladder, heat collection water tank, be also an independent blood circulation. After high-temperature water and water at low temperature heat exchange balance, being delivered to Electromagnetic Heating water gallbladder through multistage filter by the first water pump, the electromagnetic heater being arranged in Electromagnetic Heating water gallbladder it is compensated heating, electromagnetic heater is by main controller controls.

Being provided with temperature temperature detector, water level probe and electromagnetic valve in Electromagnetic Heating water gallbladder, water gallbladder is outside equipped with the second water pump. When water temperature reaches 100 degrees Celsius and water level peaks, electromagnetic heater stops heating, and the second water pump quits work, otherwise then starts work. Hot water is delivered to heat collection water tank and is stored for future use by external water pump. So circulation, it is ensured that heat collection water tank has the hot water supply of abundance. While heating, electromagnetic heater utilizes high frequency that the water needing heating is carried out continuous print sterilization, scale removal and magnetization operation, and therefore water quality is changed completely.

Being again provided with water level probe in heat collection water tank, when peaking, water pump stops supplying water. When minimum point, starting mode of pump is intake, and so moves in circles. Heat collection water tank is connected with water end (W.E.), it is possible to ensure there is boiled water at any time, it is also possible to average when adapting to collective's water in the short time uses water peak value.

Described system meets the requirement that universities and colleges' drinking water consumption is big, peak value is high, the time is short. Light-electricity complementary, has maximally utilised the energy conservation characteristic of solar energy and electromagnetic induction heating, has saved mass energy, and discharge is zero, and economic efficacy highlights. Utilizing electromagnetic induction heating technology that water has carried out sterilizing and magnetization, sterilization rate has reached 99.99%, for the healthy reliable guarantee that provides of student, easy to use.

Claims (10)

1. a photoelectricity drink water purifying magnetization boiling system, it is characterized in that: include solar thermal collector (1), water storage gallbladder (2), Electromagnetic Heating water gallbladder (3) and heat collection water tank (4), described solar thermal collector (1) is connected with described water storage gallbladder (2) with circulating line outlet pipe (7) by circulating line water inlet pipe (6), it is provided with heat-exchanging water gallbladder (5) in described water storage gallbladder (2), described water storage gallbladder (2) is provided with the first cold water inlet pipe (8) being connected with described heat-exchanging water gallbladder (5), described water storage gallbladder (2) is additionally provided with one end be connected with described heat-exchanging water gallbladder (5), the first connecting tube (9) that the other end is connected with described Electromagnetic Heating water gallbladder (3), described first connecting tube (9) is provided with the first water pump (10), it is provided with electromagnetic heater (11) in described Electromagnetic Heating water gallbladder (3), described Electromagnetic Heating water gallbladder (3) is provided with the second cold water inlet pipe (12) and the second connecting tube (13), it is connected by described second connecting tube (13) between described Electromagnetic Heating water gallbladder (3) and heat collection water tank (4), described second connecting tube (13) is provided with the second water pump (14), described heat collection water tank (4) is provided with outlet (15).

2. photoelectricity drink water purifying magnetization boiling system as claimed in claim 1, it is characterized in that: described solar thermal collector (1) includes the first U-shaped red copper bend pipe (16) and some groups of the second U-shaped red copper bend pipes (17), the two ends of described second U-shaped red copper bend pipe (17) are connected with two tube walls of the first U-shaped red copper bend pipe (16) respectively, the two ends of the first U-shaped red copper bend pipe (16) are water inlet end and water side, it is connected with circulating line water inlet pipe (6) and circulating line outlet pipe (7) respectively, the diameter of described first U-shaped red copper bend pipe (16) is more than the diameter of the second U-shaped red copper bend pipe (17), the arranged outside of described second U-shaped red copper bend pipe (17) has solar vacuum glass tube, it is provided with aluminium radiator fin between described glass tubing and the second U-shaped red copper bend pipe (17).

3. photoelectricity drink water purifying magnetization boiling system as claimed in claim 2, it is characterised in that: the diameter of described first U-shaped red copper bend pipe (16) is 16mm-20mm, and the diameter of the second U-shaped red copper bend pipe (17) is 8mm-10mm.

4. photoelectricity drink water purifying magnetization boiling system as claimed in claim 1, it is characterized in that: the top of described water storage gallbladder (2) is provided with the first water level probe (18), described first water level probe (18) is connected with the signal input part of master controller (19) in described system, is used for sensing the height of water level in water storage gallbladder (2).

5. photoelectricity drink water purifying magnetization boiling system as claimed in claim 1, it is characterised in that: described water storage gallbladder (2) is provided with the downtake pipe (20) and blow-off pipe (21) that are connected with described heat-exchanging water gallbladder.

6. photoelectricity drink water purifying magnetization boiling system as claimed in claim 1, it is characterized in that: described Electromagnetic Heating water gallbladder (3) is provided with coupled logical second exhaust pipe (22), second water level probe (23) and temperature sensor (24), described second water level probe (23) is connected with the signal input part of master controller (19) in described system, for the height of water level in inductive electromagnetic heating water bladder (3), described temperature sensor (24) is connected with the signal input part of described master controller (19), for the water temperature in inductive electromagnetic heating water bladder (3).

7. photoelectricity drink water purifying magnetization boiling system as claimed in claim 1, it is characterised in that: described electromagnetic heater (11) is fixed in described Electromagnetic Heating water gallbladder (3) by ring flange (25).

8. photoelectricity drink water purifying magnetization boiling system as claimed in claim 1, it is characterized in that: in described heat collection water tank (4), be provided with the 3rd water level probe (26), described 3rd water level probe (26) is connected with the signal input part of the master controller (19) in described system, is used for sensing the water level information in described heat collection water tank (4).

9. photoelectricity drink water purifying magnetization boiling system as claimed in claim 1, it is characterised in that: first connecting tube (9) of described first water pump (10) water inlet end is provided with multistage filter (27).

10. photoelectricity drink water purifying magnetization boiling system as claimed in claim 1, it is characterized in that: described electromagnetic heater (11) includes some heating rods, described heating rod includes stainless steel tube, one end of stainless steel tube is closed, the other end is open, top layer is wound with insulating electrical paper, and electrician's paper outer layer is fastened magnetic conduction bar, and magnetic conduction bar outer layer is wound around solenoid.