CN206890629U - A kind of safety energy-conserving environment protection heating system - Google Patents

Abstract

The utility model discloses a kind of safety energy-conserving environment protection heating system, including device of solar generating, wind electricity generating system, mains power supply, heater, first terminal heating plant and second terminal heating plant；Heater is connected with first terminal heating plant and second terminal heating plant, for first terminal heating plant or second terminal heating plant heat supply；Heater includes at least two heating components and connects the connecting tube of two neighboring heating component；Each heating component includes header units, the heat conductive rod being fixed in header units, the first electric heater, the second electric heater and the 3rd electric heater for being fixed on heat conductive rod bottom；First electric heater is electrically connected with device of solar generating, and the second electric heater is electrically connected with wind electricity generating system, and the 3rd electric heater is electrically connected with mains power supply.The safety energy-conserving environment protection heating system not only heats continuous but also energy-saving environmental protection safety.

Description

A kind of safety energy-conserving environment protection heating system

Technical field

It the utility model is related to heating technology field, more particularly to a kind of safety energy-conserving environment protection heating system.

Background technology

At present, by regional impact, the northern area of China winter temperature is very low, it is necessary to concentrate to resident's heat supply heating, existing Heat-supplying mode in technology is essentially heated by coal-burning boiler to water, is then used as medium by hot water, in resident family Terminal heating plant is heated.

But there is following defect in existing coal heating mode：

(1) cost is high, and fire coal is transporting, after burning the processing of cinder be all attached with higher extra cost；

(2) heating rate is low, and heat caused by fired coal combustion is largely lost in when heating water-borne, and required heating water is more；

(3) pollution is big, and the sulfide and substantial amounts of flue dust of fired coal combustion generation are big to the contaminative of atmospheric environment.

Utility model content

For overcome the deficiencies in the prior art, one of the purpose of this utility model is that providing a kind of safety energy-conserving environment protection takes Heating system, its continuous but also energy-saving environmental protection safety that not only heats.

One of the purpose of this utility model adopts the following technical scheme that realization：

A kind of safety energy-conserving environment protection heating system, including device of solar generating, wind electricity generating system, mains-supplied dress Put, heater, first terminal heating plant and second terminal heating plant；The heater and the first terminal heat supply Device connects with second terminal heating plant, for the first terminal heating plant or second terminal heating plant heat supply； The heater includes at least two heating components and connects the connecting tube of two neighboring heating component；Each heating component bag Include header units, the heat conductive rod being fixed in header units, the first electric heater for being fixed on heat conductive rod bottom, the second electrical heating Device and the 3rd electric heater；First electric heater is electrically connected with the device of solar generating, second electrical heating Device is electrically connected with the wind electricity generating system, and the 3rd electric heater is electrically connected with the mains power supply.

Further, the first terminal heating plant and second terminal heating plant are connected in parallel.

Further, in addition to heat collection water tank, the water side of the water intake end of the heat collection water tank and the heater connect Connect, and the water side of the heat collection water tank is connected with the water inlet end of the heater.

Further, temperature control is provided between the water side of the water intake end of the heat collection water tank and the heater Valve.

Further, the header units include water pipe, the upper three-way connection for being fixedly connected on water pipe upper end and fixed company It is connected on the lower three-way connection of water pipe lower end；Each be respectively provided with three connection ends on lower three-way connection, three connection ends be respectively into Water end (W.E.), water side, heat conductive rod fixing end, heat conductive rod are fixed in the heat conductive rod fixing end of lower three-way connection, and consolidated from heat conductive rod Fixed end is stretched out；Each three connection ends are equipped with upper three-way connection；Water pipe in two adjacent heating components be arranged in parallel, The water side of every water pipe is connected by connecting tube with the water inlet end of adjacent water pipe.

Further, fixture is arranged with the heat conductive rod, fixture outer wall is provided with external screw thread, fixture and lower three The heat conductive rod fixing end threaded connection of pass joint.

Further, in addition to for electric heater to be fixed on to the fixing device of heat conductive rod bottom, the fixing device bag Include the first fixed block, the second fixed block, the first buffer stopper, the second buffer stopper；First buffer stopper encloses to be located at the second buffer stopper leads Heat conductive rod is fixedly clamped by the periphery of hot pin, the first fixed block with the second fixed block by the first buffer stopper with the second buffer stopper； First electric heater, the second electric heater and the 3rd electric heater are arranged between the first fixed block and the first buffer stopper, or/ And first electric heater, the second electric heater and the 3rd electric heater are arranged between the second fixed block and the second buffer stopper.

Further, first electric heater, the second electric heater and the 3rd electric heater include two heating tubes, For one of heating tube between first fixed block and first buffer stopper, another heating tube is located at described second Between fixed block and second buffer stopper.

Further, each terminal heating plant includes at least one radiator, and the radiator includes the second heat conduction Rod, radiating subassembly, integrated assembly and at least one second heating component, the radiating subassembly, which encloses, is located at second heat conductive rod On, second heating component and the second heat conductive rod are connected with the integrated assembly, and second heating component is fixed on institute State the second heat conductive rod bottom；Second heating component includes the second tee connector, is all provided with second tee connector Three connection ends are put, three connection ends are respectively water inlet end, water side, the second heat conductive rod fixing end, and the second heat conductive rod is fixed on In the heat conductive rod fixing end of second tee connector, and stretched out from heat conductive rod fixing end.

Further, the radiating subassembly includes the first radiating piece, the second radiating piece and the 3rd radiating piece, and described first dissipates Warmware includes the first fixed part and is in the first radiating part that angle is connected with first fixed part, and second radiating piece includes Second fixed part and the second radiating part being connected with second fixed part in angle, the 3rd radiating piece, which includes the 3rd, to be fixed Portion and the 3rd radiating part being connected with the 3rd fixed part in angle, first fixed part and second fixed part match Close the accommodating cavity for being formed and being used for fixing second heat conductive rod；3rd radiating piece detachably connects with first radiating piece Connect.

Compared with prior art, the beneficial effects of the utility model are：

(1) using wind electricity generating system, device of solar generating or mains power supply in heater water individually, Heated or be combined jointly simultaneously and heated, it is thus possible to select wherein one or more to water according to being actually needed Heated, without coal heating, reduce heating cost, and, energy-conserving and environment-protective pollution-free to air, and heat conductive rod heats Safety, heating is fast and combined maintaining is convenient.

(2) water as thermal medium, than market useful water make the heating system of thermal medium, water saving 90%.Dosage adds less Heat consumption can be small, and can recycle, and economizes on resources.

Brief description of the drawings

Fig. 1 is the schematic diagram for the safety energy-conserving environment protection heating system that the embodiment of the utility model one provides；

Fig. 2 is the schematic diagram of the heater of safety energy-conserving environment protection heating system in Fig. 1；

Fig. 3 is the partial schematic diagram of heater in Fig. 2, illustrated therein is heat conductive rod, electric heater and fixing device；

Fig. 4 is the schematic diagram of the radiator of safety energy-conserving environment protection heating system in Fig. 1；

Fig. 5 is the partial schematic diagram of radiator in Fig. 4, illustrated therein is the second heat conductive rod and radiating subassembly.

In figure：1st, device of solar generating；2nd, wind electricity generating system；3rd, mains power supply；4th, heater；41st, add Hot component；411st, header units；4111st, water pipe；4112nd, upper three-way connection；4113rd, lower three-way connection；412nd, heat conductive rod；413、 First electric heater；414th, the second electric heater；415th, the 3rd electric heater；417th, fixture；42nd, connecting tube；43rd, fixed dress Put；431st, the first fixed block；432nd, the second fixed block；433rd, the first buffer stopper；434th, the second buffer stopper；51st, first terminal supplies Thermal；52nd, second terminal heating plant；6th, radiator；61st, the second heat conductive rod；62nd, radiating subassembly；621st, the first radiating piece； 6211st, the first fixed part；6212nd, the first radiating part；622nd, the second radiating piece；6221st, the second fixed part；6222nd, the second radiating Portion；623rd, the 3rd radiating piece；6231st, the 3rd fixed part；6232nd, the 3rd radiating part；63rd, integrated assembly；64th, the second heating group Part；641st, the second tee connector；65th, filter assemblies；7th, heat collection water tank；81st, temperature control valve；82nd, first switch；83rd, Two switches；84th, the 3rd switch.

Embodiment

Below, with reference to accompanying drawing and embodiment, the utility model is described further, it is necessary to explanation is, On the premise of not colliding, it can be formed in any combination between various embodiments described below or between each technical characteristic new Embodiment.

As Figure 1-Figure 5, the utility model embodiment provides a kind of safety energy-conserving environment protection heating system, including solar energy TRT 1, wind electricity generating system 2, mains power supply 3, heater 4, first terminal heating plant 51 and second terminal Heating plant 52；Heater 4 is connected with first terminal heating plant 51 and second terminal heating plant 52, for whole to first Hold heating plant 51 or the heat supply of second terminal heating plant 52；Heater 4 includes at least two heating components 41 and connection phase The connecting tube 42 of adjacent two heating components 41；Each heating component 41 includes header units 411, is fixed in header units 411 Heat conductive rod 412, the first electric heater 413, the second electric heater 414 and the 3rd electrical heating that are fixed on the bottom of heat conductive rod 412 Device 415；First electric heater 413 is electrically connected with device of solar generating 1, the second electric heater 414 and wind electricity generating system 2 It is electrically connected with, the 3rd electric heater 415 is electrically connected with mains power supply 3.

Above-described embodiment is due to using wind electricity generating system 2, device of solar generating 1 or mains power supply 3 to heating Water in device 4, which is individually heated or is combined, to be heated, it is thus possible to according to be actually needed selection one of them or Multiple that water is heated, heating water reduces heating cost less without coal heating, and, energy-saving ring pollution-free to air Protect, and heat conductive rod heating is safe, heating is fast and combined maintaining is convenient.In addition, the water as thermal medium, dosage is few and can follow Ring uses, and economizes on resources.

Further, first terminal heating plant 51 and second terminal heating plant 52 are connected in parallel.

Further, the safety energy-conserving environment protection heating system also includes heat collection water tank 7, and the water intake end of heat collection water tank 7 is with adding The water side connection of thermal 4, and the water side of heat collection water tank 7 is connected with the water inlet end of heater 4.

Further, temperature control valve 81 is provided between the water side of the water intake end of heat collection water tank 7 and heater 4.

Fig. 2 and Fig. 3 are refer to, further, header units 411 include water pipe 4111, are fixedly connected on water pipe 4111 The upper three-way connection 4112 at end and the lower three-way connection 4113 for being fixedly connected on the lower end of water pipe 4111；Each lower three-way connection 4113 On be respectively provided with three connection ends, three connection ends are respectively water inlet end, water side, heat conductive rod fixing end, and heat conductive rod 412 is fixed on In the heat conductive rod fixing end of lower three-way connection 4113, and stretched out from heat conductive rod fixing end；Each it is all provided with upper three-way connection 4112 There are three connection ends；Water pipe 4111 in two adjacent heating components 41 be arranged in parallel, and the water side of every water pipe 4111 leads to The water inlet end that connecting tube 42 is crossed with adjacent water pipe 4111 is connected.

Further, fixture 417 is arranged with heat conductive rod 412, the outer wall of fixture 417 is provided with external screw thread, fixture 417 are threadedly coupled with the heat conductive rod fixing end of lower three-way connection 4113.

Further, the safety energy-conserving environment protection heating system also includes being used to electric heater being fixed on the bottom of heat conductive rod 412 The fixing device 43 in portion, the fixing device 43 include the first fixed block 431, the second fixed block 432, the first buffer stopper 433, second Buffer stopper 434；First buffer stopper 433 and the second buffer stopper 434 enclose the lower end periphery for being located at heat conductive rod 412, the first fixed block 431 Heat conductive rod 412 is fixedly clamped with the second buffer stopper 434 by the first buffer stopper 433 with the second fixed block 432；First electrical heating Device 413, the second electric heater 414 and the 3rd electric heater 415 be arranged at the first fixed block 431 and the first buffer stopper 433 it Between, or/and the first electric heater 413, the second electric heater 414 and the 3rd electric heater 415 be arranged at the second fixed block 432 Between the second buffer stopper 434.Specifically, the first fixed block 431 is connected with the second fixed block 432 by fixtures such as screws, On the one hand above-mentioned buffer stopper prevents from directly contacting between electric heater and heat conductive rod, play buffering, on the other hand, buffer stopper Also there is certain heat conductivility, the heat energy of electric heater can be passed to heat conductive rod.Above-described embodiment is added using heat conductive rod 412 Heat, device of solar generating 1, wind electricity generating system 2, mains power supply 3 are heated to buffer stopper by electric heater, buffered The heat of block goes out thermal energy conduction by heat conductive rod 412 to carry out water indirectly heat, electricity separation, securely and reliably.

Further, the first electric heater 413, the second electric heater 414 and the 3rd electric heater 415 add including two Heat pipe, for one of heating tube between the first fixed block 431 and the first buffer stopper 433, another heating tube is located at second Between the buffer stopper 434 of fixed block 432 and second.Buffer stopper is blocked in each heat conductive rod lower end, and each buffer stopper is equipped with 6 heating Pipe, two of which are electrically connected with device of solar generating 1, and two are electrically connected with wind electricity generating system 2, and two supply with civil power Electric installation 3 is electrically connected with, and multigroup heater is higher than the reliability of traditional single heating, is several times of tradition.In the present embodiment, Preferably, heating tube is ceramic heating pipe.

Fig. 3-Fig. 5 is refer to, further, each terminal heating plant includes at least one radiator 6, radiator 6 Including the second heat conductive rod 61, radiating subassembly 62, integrated assembly 63 and at least one second heating component 64, radiating subassembly 62, which encloses, to be set On the second heat conductive rod 61, the second heating component 64 and the second heat conductive rod 61 are connected with integrated assembly 63, the second heating component 64 are fixed on the bottom of the second heat conductive rod 61；Second heating component 64 includes the second tee connector 641, the second tee connector It is respectively provided with three connection ends on 641, three connection ends are respectively water inlet end, water side, the second heat conductive rod fixing end, the second heat conduction Rod 61 is fixed in the heat conductive rod fixing end of the second tee connector 641, and is stretched out from heat conductive rod fixing end.The integrated assembly 63 On be additionally provided with filter assemblies 65 for purifying air, filter assemblies 65 are located at the lower section of the second tee connector 641, radiating group Part 6 strengthens indoor air convection in working, and the filter assemblies 65 can filter the hazardous materials such as dust PM2 methanol.It is new in this practicality In type embodiment, filter assemblies 65 are honeycomb ceramic filter core.Integrated assembly 63 includes multiple skeletons, and multiple skeletons detachably connect Connect, when needing to change or cleaning filter assemblies 65, any one end of 63 liang of head end covers of integrated assembly is opened, (end cap is not marked Show and describe) can be to filtering65 are changed or are cleaned.

Further, radiating subassembly 62 includes the first radiating piece 621, the second radiating piece 622 and the 3rd radiating piece 623, the One radiating piece 621 includes the first fixed part 6211 and is in the first radiating part 6212 that angle is connected with the first fixed part 6211, the Two radiating pieces 622 include the second fixed part 6221 and are in the second radiating part 6222 that angle is connected with the second fixed part 6221, the Three radiating pieces 623 include the 3rd fixed part 6231 and are in the 3rd radiating part 6232 that angle is connected with the 3rd fixed part 6231, the One fixed part 6211 and the second fixed part 6221 are engaged the accommodating cavity to be formed for fixing the second heat conductive rod 61；3rd radiating piece 623 are detachably connected with the first radiating piece 621.

Above-described embodiment is heated by hot water to the second heat conductive rod 61, and heat energy is passed through radiating piece by the second heat conductive rod 61 Conduct to being heated in the range of certain space, it is safe and practical.

Superconductive liquid refrigerant is sealed with it should be understood that being vacuumized in the heat conductive rod 61 of heat conductive rod 412 and second, the refrigerant It is that heat becomes gas, heat release to the cold becomes the material of liquid again.When the inside of 412 and second heat conductive rod of heat conductive rod 61 is in vacuum state When, the liquid-gas phase transition heat transmission resistance very little of refrigerant, therefore heat is easily evaporated and seethed with excitement, startup has high-termal conductivity rapidly Energy.When the steam inside of 412 and second heat conductive rod of heat conductive rod 61 is in saturation state, saturated vapor flows to condensation segment from steam end Produced pressure drop very little, also temperature drop also very little, thus there is excellent isothermal.The heat conductive rod 61 of heat conductive rod 412 and second is abundant Using inverse Carnot's principle, with the input heat of smaller heating surface (area) (HS through refrigerant gasification cycle working in reciprocating mode, internal circulating load is increasing, The power more and more higher of output, and obtain with larger film-cooled heat quantity of heat given up, and then accomplish energy-saving safe.In addition, heat conductive rod 412 and second superconductive liquid refrigerant chemical property in heat conductive rod 61 it is stable, there was only physical change in work, do not play decomposition, It is nontoxic, it is corrosion-free, environmental protection, do not explode.

It should be noted that when in use, first terminal heating plant 51 is located at bedroom, second terminal heating plant 52 is set In hall.On daytime, first switch 82 is opened, second switch 83 is closed or semi-closed, and the hot water in heater 4 is first Hot water circuit on terminal heating plant 51 is big, and the hot water circuit on second terminal heating plant 52 is small, solar power generation dress Put based on 1 and wind electricity generating system 2, supplemented by mains power supply 3.When device of solar generating 1 and wind electricity generating system 2 work And the temperature of system water be less than 45 DEG C when, mains power supply 3 divides basic, normal, high third gear to heat system water；Work as solar energy TRT 1 and wind electricity generating system 2 work and when the temperature of system water reaches 65 DEG C, mains power supply 3 is stopped. At night, first switch 82 is closed or semi-closed, second switch 83 is opened, and the hot water in heater 4 is in first terminal heat supply Hot water circuit on device 51 is small, and the hot water circuit on second terminal heating plant 52 is big, the He of first terminal heating plant 51 The hot water flow circulated on second terminal heating plant 52 can be adjusted according to being actually needed, and such safety energy-conserving environment protection takes The water that heating system needs to heat is reduced, and is more saved.

In heating season, first switch 82 and second switch 83 are opened simultaneously, device of solar generating 1, wind power generation Device 2 and mains power supply 3 are heated to heater 4 simultaneously, when the temperature of system water reaches 65 DEG C, temperature control Valve 81 is opened, and the water on first terminal heating plant 51 and second terminal heating plant 52 enters collection hot water through temperature control valve 81 Water in case 7, with heat collection water tank 7 is heated, and the hot water deposit on heat collection water tank 7 is for living or heater 4 being carried out Moisturizing.When the temperature of system water is less than 55 DEG C, temperature control valve 81 is closed, and water is whole in first terminal heating plant 51, second Circulated between end heating plant 52 and heater 4.When the temperature of system water is higher than 75 DEG C, device of solar generating 1, wind energy TRT 2 and mains power supply 3 stop heating heater 4.

In the season that need not be warmed oneself, first switch 82 and second switch 83 are closed, the 3rd switch 84 is opened, with solar energy Based on TRT 1 and wind electricity generating system 2, supplemented by mains power supply 3, heating is carried out for life to the water of heat collection water tank 7 Hot water is used.When the temperature of system water is higher than 75 DEG C, device of solar generating 1, wind electricity generating system 2 and mains power supply 3 Stop heating heater 4.

Above-mentioned embodiment is only preferred embodiment of the present utility model, it is impossible to is protected with this to limit the utility model Scope, the change of any unsubstantiality that those skilled in the art is done on the basis of the utility model and replacing belongs to In the utility model scope claimed.

Claims (10)

1. a kind of safety energy-conserving environment protection heating system, it is characterised in that including device of solar generating, wind electricity generating system, city Electric electric supply installation, heater, first terminal heating plant and second terminal heating plant；The heater and described first Terminal heating plant connects with second terminal heating plant, for the first terminal heating plant or second terminal heat supply dress Put heat supply；The heater includes at least two heating components and connects the connecting tube of two neighboring heating component；It is each to add Hot component includes header units, the heat conductive rod being fixed in header units, the first electric heater for being fixed on heat conductive rod lower end, the Two electric heaters and the 3rd electric heater；First electric heater and the device of solar generating are electrically connected with, and described the Two electric heaters are electrically connected with the wind electricity generating system, and the 3rd electric heater electrically connects with the mains power supply Connect.

2. safety energy-conserving environment protection heating system as claimed in claim 1, it is characterised in that the first terminal heating plant and Second terminal heating plant is connected in parallel.

3. safety energy-conserving environment protection heating system as claimed in claim 1, it is characterised in that also including heat collection water tank, the collection The water intake end of boiler is connected with the water side of the heater, and the water side of the heat collection water tank and the heater Water inlet end connection.

4. safety energy-conserving environment protection heating system as claimed in claim 3, it is characterised in that the water intake end of the heat collection water tank with Temperature control valve is provided between the water side of the heater.

5. safety energy-conserving environment protection heating system as claimed in claim 1, it is characterised in that the header units include water pipe, The upper three-way connection for being fixedly connected on water pipe upper end and the lower three-way connection for being fixedly connected on water pipe lower end；Each lower three-way connection On be respectively provided with three connection ends, three connection ends are respectively water inlet end, water side, heat conductive rod fixing end, and heat conductive rod is fixed on down In the heat conductive rod fixing end of three-way connection, and stretched out from heat conductive rod fixing end；Each three connections are equipped with upper three-way connection End；Water pipe in two adjacent heating components be arranged in parallel, and the water side of every water pipe passes through connecting tube and adjacent water pipe Water inlet end is connected.

6. safety energy-conserving environment protection heating system as claimed in claim 5, it is characterised in that be arranged with fixation on the heat conductive rod Part, fixture outer wall are provided with external screw thread, and fixture is threadedly coupled with the heat conductive rod fixing end of lower three-way connection.

7. safety energy-conserving environment protection heating system as claimed in claim 1, it is characterised in that also include being used to consolidate electric heater The fixing device of heat conductive rod bottom is scheduled on, the fixing device includes the first fixed block, the second fixed block, the first buffer stopper, second Buffer stopper；First buffer stopper and the second buffer stopper enclose the periphery for being located at heat conductive rod, the first fixed block and the second fixed block by Heat conductive rod is fixedly clamped by one buffer stopper with the second buffer stopper；First electric heater, the second electric heater and the 3rd electric heater It is arranged between the first fixed block and the first buffer stopper, or/and the first electric heater, the second electric heater and the 3rd electrical heating Device is arranged between the second fixed block and the second buffer stopper.

8. safety energy-conserving environment protection heating system as claimed in claim 7, it is characterised in that first electric heater, second Electric heater and the 3rd electric heater include two heating tubes, one of heating tube be located at first fixed block with it is described Between first buffer stopper, another heating tube is between second fixed block and second buffer stopper.

9. safety energy-conserving environment protection heating system as claimed in claim 1, it is characterised in that each terminal heating plant includes At least one radiator, the radiator include the second heat conductive rod, radiating subassembly, integrated assembly and at least one second heating group Part, the radiating subassembly, which encloses, to be located on second heat conductive rod, second heating component and the second heat conductive rod with it is described whole Seaming element connects, and second heating component is fixed on the second heat conductive rod bottom；Second heating component includes second Tee connector, three connection ends is respectively provided with second tee connector, three connection ends are respectively water inlet end, water outlet End, the second heat conductive rod fixing end, the second heat conductive rod is fixed in the heat conductive rod fixing end of the second tee connector, and from heat conductive rod Fixing end is stretched out.

10. safety energy-conserving environment protection heating system as claimed in claim 9, it is characterised in that the radiating subassembly includes first Radiating piece, the second radiating piece and the 3rd radiating piece, first radiating piece include the first fixed part and with first fixed part The first radiating part connected in angle, second radiating piece include the second fixed part and connected with second fixed part in angle The second radiating part connect, the 3rd radiating piece include the 3rd fixed part and the be connected with the 3rd fixed part in angle the 3rd Radiating part, first fixed part and second fixed part are engaged to be formed for fixing the accommodating of second heat conductive rod Chamber；3rd radiating piece is detachably connected with first radiating piece.