CN203249302U

CN203249302U - Solar light panel and terrestrial heat combined type long-range control heating supply system

Info

Publication number: CN203249302U
Application number: CN2013202042283U
Authority: CN
Inventors: 陈建亮
Original assignee: Fuzhou Aquapower Electric Water Heater Co Ltd
Current assignee: Fuzhou Aquapower Electric Water Heater Co Ltd
Priority date: 2013-04-22
Filing date: 2013-04-22
Publication date: 2013-10-23
Anticipated expiration: 2023-04-22

Abstract

The utility model discloses a solar light panel and terrestrial heat combined type long-range control heating supply system which comprises a double-heat-source system, a waste heat recovery assembly, a controller and a control terminal. The double-heat-source system comprises a heat preservation water tank assembly, a solar heat collecting panel assembly, a ground source heat pump assembly, a water using tail end, a water inlet pipeline and a heating supply loop assembly, wherein the solar heat collecting panel assembly, the ground source heat pump assembly, the water using tail end, the water inlet pipeline and the heating supply loop assembly are connected to the heat preservation water tank assembly, and the control terminal is connected with the controller through a wireless network. The solar light panel and terrestrial heat combined type long-range control heating supply system has the advantages that long-range intelligent control on the system can be achieved through a communication module, and the user-friendly operation brings better user experience; when a certain set of heat source unit breaks down, normal heating supply requirements are not affected, a mixed heating system can be used in a complementation mode, and the use ratio of energy and the energy efficiency of the units can be improved through the mode of segmented heating and the waste heat recovery assembly; the combination of the units with the high use ratios are used to the greatest extent, and the system accords with the requirements of energy conservation and environment protection advocated by the country.

Description

Solar energy tabula rasa and underground heat Combined remote process control heating system

Technical field

The utility model relates to heating system, relates in particular to a kind of solar energy tabula rasa and underground heat Combined remote process control heating system.

Background technology

Traditional storage-type hot water apparatus is generally all by the single source heat supply, as: electric energy, combustion gas, solar energy, air-source, water source, geothermal source etc.Owing to being subject to the restriction of single source, following defective can occur: 1, when heat power supply device breaks down, the heat supply heating will be interrupted immediately, can't guarantee normal instructions for use; 2, easily be subjected to the restriction of service condition, as: electric heater is subjected to the restriction of electric wire capacity, the use safety problem of combustion gas, and solar energy all can produce to the use of hot water apparatus certain restriction in overcast and rainy use etc.; 3, do not satisfy many-sided heating requirement, such as the place of simultaneously heating of needs, heating and supplying hot water; 4, the single source heating can't satisfy the environmental protection and energy saving requirement that country advocates; 5, at present the control mode that adopts of traditional unit all is unit band line control machine, and the user must execute-in-place, although timing function is arranged, can not solve well when the user is in the outside, the requirement of wanting to allow unit heat in advance and the house being heated.

The utility model content

The technical problem that the utility model mainly solves provides a kind of solar energy tabula rasa and underground heat Combined remote process control heating system.

For solving the problems of the technologies described above, the technical scheme that the utility model adopts is, a kind of solar energy tabula rasa and underground heat Combined remote process control heating system are provided, and comprises two heat source systems, waste heat recovery assembly, controller and control terminal; Described pair of heat source system comprises attemperater assembly and the solar heat-collection plate assembly, earth source heat pump assembly, water end, inlet pipeline and the heating loop assembly that are connected on the described attemperater assembly; Described waste heat recovery assembly comprises interconnective hot water collector and waste heat exchanger, described hot water collector is used for collecting from the terminal outflow of water and the hot water after using, and it is delivered to described waste heat exchanger, described waste heat exchanger is located on the inlet pipeline; Described controller comprises the controller mainboard and the wireless communication module that is used for communicating by letter that are used for controlling described pair of heat source system that is connected with each other; Described wireless communication module comprises 3G communication module MCU, the 3G module that described 3G communication module MCU is connected with respectively power module, 485 communicating circuits and is used for communicating by letter with described control terminal, this 3G module is connected with SIM and antenna, and described power module also is connected with described 3G module thinks its power supply; Described control terminal is connected wireless communication module and is connected by wireless network with controller.

Wherein, but described control terminal comprise 3G mobile, panel computer, have the PC of radio transmission-receiving function and equipment and the control device of connecting wireless network.

Wherein, described wireless network comprises GPRS, 3G or 4G network.

Wherein, also be provided with button, button or the knob that can be used for described pair of heat source system carried out hand-guided on the described controller.

Wherein, described attemperater assembly comprises tank shell, in tank shell, be provided with inner water tank, be provided with insulation material between described tank shell and the inner water tank, be provided with the solar energy coil pipe that is positioned at inner water tank top in the inner water tank, be positioned at the heating coil and the ground source tray pipe that is positioned at the inner water tank bottom at inner water tank middle part, also be provided with the water inlet tube head and the water outlet tube head that are communicated with inner water tank in the described attemperater assembly, described water inlet tube head links to each other with described inlet pipeline, described water outlet tube head links to each other with water is terminal, described water outlet tube head and water inlet tube head are located at respectively the top and bottom of described tank shell, also are provided with in the inner water tank for detection of lower sensor and the upper sensor of water temperature and the magnesium rod that is used for preventing the inner bag corrosion; Heating coil, solar energy coil pipe and ground source tray pipe are connected to respectively described heating loop assembly, solar heat-collection plate assembly and earth source heat pump assembly by corresponding pipeline.

Wherein, described earth source heat pump assembly comprise earth source heat pump unit, ground source heat water-circulating pump, source cold water circulation pump, buried pipe network; Described earth source heat pump unit comprises the first closed circuit of the confession flow of refrigerant that is made of compressor, condenser, throttling arrangement and evaporimeter; Described buried pipe network connects described evaporimeter by pipeline and consists of the second closed circuit that flows for the first heat-transfer working medium, and to the cold-producing medium heating, source, described ground cold water circulation pump is arranged in this second closed circuit described the first heat-transfer working medium in evaporimeter; Described ground source tray pipe connects described condenser by pipeline and consists of the 3rd closed circuit that flows for the second heat-transfer working medium, the heat of described the second heat-transfer working medium absorption refrigeration agent in condenser and be connected in the described attemperater assembly heats wherein water, and described ground source heat water-circulating pump is arranged in the 3rd closed circuit; Described compressor, ground source heat water-circulating pump, the source cold water circulation pump all be electrically connected described controller.

Wherein, described solar heat-collection plate assembly comprises solar thermal collector, for detection of collecting plate sensor, expansion drum and the air bleeding valve of temperature, described solar thermal collector comprises the framework that is made of aluminum alloy frame, zinc-plated base plate and safety glass, in this framework, be provided with absorber, frame and base plate heat-preservation cotton, in described absorber, be provided with working medium circulation pipeline and collection distributive pipe, described working medium circulation pipeline is connected by pipeline with described attemperater assembly, and is provided with circulating pump in connecting line; Described circulating pump and collecting plate sensor are electrically connected with controller.

Wherein, described heating loop assembly comprises the grounding heat coil tube or the radiator that link to each other with described attemperater assembly by pipeline, be located on the pipeline heating circulation pump and for detection of the heating loop sensor of indoor temperature, described heating circulation pump and heating loop sensor are electrically connected with described controller respectively.

The beneficial effects of the utility model are: 1, can realize the remote intelligent of this system is controlled by communication module, the operation of hommization brings better user to experience; 2, when a certain group of thermal source unit breaks down, can not affect normal heating demand, and the Hybrid Heating system can complementary use, take the mode of heat stepwise, and adopt the waste heat recovery assembly, can improve the utilization rate of the energy and the efficiency of unit; 3, use the high Unit Combination of energy utilization rate as far as possible, meet the energy-conserving and environment-protective requirement that country advocates.

Description of drawings

Fig. 1 is the structural representation of the utility model one embodiment;

Fig. 2 is the schematic diagram of attemperater assembly in the utility model;

Fig. 3 is the schematic diagram of earth source heat pump unit in the utility model;

Fig. 4 is the schematic diagram of solar thermal collector in the utility model;

Fig. 5 is the schematic diagram of wireless communication module in the utility model.

The main element symbol description:

Attemperater assembly 1; Insulation material 101; Water inlet tube head 11; Ground source tray pipe 12; Lower sensor 13; Heating coil 14; Upper sensor 16; Water outlet tube head 17; Inner water tank 19; Magnesium rod 102; Tank shell 103; Solar energy coil pipe 106;

Heating loop assembly 2; Grounding heat coil tube or radiator 21; Heating circulation pump 22; Heating loop sensor 23;

Controller 3; Wireless communication module 31; 3G module 310; 3G communication module MCU312; Antenna 313; 485 communicating circuits 314; SIM 315; Power module 316;

Solar heat-collection plate assembly 5; Solar thermal collector 51; Expansion drum 52; Air bleeding valve 53; Circulating pump 54; Collecting plate sensor 55; Collection distributive pipe 510/514; Aluminum alloy frame 511; Absorber 512; Frame and base plate heat-preservation cotton 513; Zinc-plated base plate 515; Safety glass 516; Working medium circulation pipeline 517;

Earth source heat pump assembly 6; Earth source heat pump unit 61; Ground source heat water-circulating pump 62; Source, ground cold water circulation pump 63; Buried pipe network 64; Compressor 610; Condenser 611; Throttling arrangement 612; Evaporimeter 613;

Inlet pipeline 7; Water end 8; Hot water collector 9; Waste heat exchanger 10; Control terminal 11; Wireless network 12.

The specific embodiment

By describing technology contents of the present utility model, structural feature in detail, being realized purpose and effect, below in conjunction with embodiment and cooperate accompanying drawing to give in detail explanation.

See also Fig. 1, a kind of solar energy tabula rasa and underground heat Combined remote process control heating system comprise two heat source systems, waste heat recovery assembly, controller 3 and control terminal 11.Described pair of heat source system comprises attemperater assembly 1, is connected with respectively solar heat-collection plate assembly 5, earth source heat pump assembly 6, water terminal 8 and heating loop assembly 2 on the described attemperater assembly 1.

See also Fig. 2, described attemperater assembly 1 is pressure-bearing type, and attemperater assembly 1 comprises tank shell 103, is provided with inner water tank 19 in tank shell 103, is provided with insulation material 101 between tank shell 103 and inner water tank 19.Because hot and cold water has lamination, according to the layering rule of water, required for heating, the heating coil 14 that will link to each other with heating loop assembly 2 is positioned over inner water tank 19 middle parts, the temperature of this regional water is about 45 degree, after heating coil 14 heat exchange, just meets the requirement of heating; And because the temperature that sun the subject of knowledge and the object of knowledge can heat is higher, the solar energy coil pipe 106 that therefore will link to each other with solar heat-collection plate assembly 5 is placed inner water tank 19 tops; For the operational efficiency that improves earth source heat pump assembly 6 and alleviate its operating load, coupled ground source tray pipe 12 is positioned over inner water tank 19 bottoms, and this zone water temperature is low with respect to the top water temperature.Also be provided with on the described attemperater assembly 1 the water inlet tube head 11 that links to each other with described inlet pipeline 7 with the terminal 8 water outlet tube heads 17 that link to each other of water, described water outlet tube head 17 and water inlet tube head 11 are located at respectively the top and bottom of described tank shell 103, also be provided with lower sensor 13 and upper sensor 16 for detection of water temperature in the described inner water tank 19, and the magnesium rod 102 that is used for preventing the inner bag corrosion.

In conjunction with Fig. 1 and Fig. 3, described earth source heat pump assembly 6 comprise earth source heat pump unit 61 and the ground source heat water-circulating pump 62 that is connected with this earth source heat pump unit 61 by pipeline respectively, source cold water circulation pump 63, buried pipe network 64; Described earth source heat pump unit 61 comprises compressor 610, condenser 611, throttling arrangement 612 and the evaporimeter 613 that connects successively and form the closed-loop path by pipeline.Its operation principle is: compressor 610 starts, and compression comes the cryogenic gas of flash-pot 613, from 610 mouthfuls of gases of discharging HTHP of compressor, through condenser 611, and carry out heat exchange with the heat-transfer working medium of waterway channel in the condenser 611, become the liquid of temperature in the high pressure through the cold-producing medium after the heat release, pass through afterwards throttling arrangement 612, cold-producing medium becomes the liquid of low-temp low-pressure, thereby enter evaporimeter 613, and carry out heat exchange with the heat-transfer working medium of waterway channel in the evaporimeter 613, make cold-producing medium absorb fast heat in the heat-transfer working medium, cold-producing medium behind the absorption heat becomes the gas of low-temp low-pressure, and gas is finally sucked back by compressor 610, thereby finishes an operation cycle.Respectively there are two streams condenser 611 and evaporimeter 613 inside: refrigerant flow path and circulating heat transfer working medium stream, and separate between the stream, but be separated with the good metal of heat conduction.By the operation of ground source heat water-circulating pump 62, condenser 611 with thermal release to this circulating heat transfer working medium, and by water in the ground source tray pipe 12 heat tracing water tank assemblies 1; Operation by source, ground cold water circulation pump 63, heat-transfer working medium in the buried pipe network 64, enter in the evaporimeter 613, absorbed heat by the cold-producing medium in the evaporimeter, the heat-transfer working medium low by the temperature after absorbing heat flows out from evaporimeter 613, and flows in buried pipe network 64 loops, the heat that absorption tube is outer, temperature constantly rises, and enters at last evaporimeter 613 again, constantly circulation.Wherein, heat-transfer working medium is anti-icing fluid or water here.

In conjunction with Fig. 1 and Fig. 4, described solar heat-collection plate assembly 5 comprises solar thermal collector 51, collecting plate sensor 55, expansion drum 52 and air bleeding valve 53, described solar thermal collector 51 comprises by aluminum alloy frame 511, the framework that zinc-plated base plate 515 and safety glass 516 consist of, in this framework, be provided with absorber 512, frame and base plate heat-preservation cotton 513, in described absorber 512, be provided with working medium circulation pipeline 517 and collection distributive pipe 510/514, described working medium circulation pipeline 517 is provided with circulating pump 54 with the pipeline that the solar energy coil pipe 106 of described attemperater assembly 1 links to each other, and described circulating pump 54 and collecting plate sensor 55 are electrically connected to respectively controller 3.Solar heat-collection plate assembly 5 operation principles: sunshine sees through safety glass 516, the absorber 512 that is coated with the high selectivity absorbed layer absorbs solar radiation and is converted into heat energy, its temperature is raise gradually the heating of the heat-transfer working medium in the working medium circulation pipeline in the solar thermal collector 51.When solar thermal collector 51 top Temperature of Working T1(collecting plate sensors 55) with water tank bottom water temperature T 2(lower sensor 13) the temperature difference when reaching certain value (3 ℃-5 ℃), forced circulation pump 54 starts automatically, and heat-transfer working medium is circulated to the solar energy coil pipe 106 of heat storage water tank and the water in the heat tracing water tank.When water tank upper water temperature T 3(upper sensor 16) when reaching setting value (50 ℃-60 ℃), forced circulation pump 54 quits work automatically.Wherein collecting plate sensor 55, lower sensor 13 and upper sensor 16 all are electrically connected with controller 3.Wherein, heat-transfer working medium is that freezing liquid is to prevent that winter, working medium was freezed.

See also Fig. 1, described heating loop 2 comprises the grounding heat coil tube or the radiator 21 that link to each other with described attemperater assembly 1 by pipeline, be located on the pipeline heating circulation pump 22 and for detection of the heating loop sensor 23 of indoor temperature, described heating circulation pump 22 and heating loop sensor 23 are electrically connected with described controller 3 respectively.When being set to heating mode on the controller 3, according to the indoor temperature that arranges, controller 3 can according to the temperature difference of actual indoor temperature with the temperature that sets, select to start or cut out heating circulation pump 22, thereby the house is heated.

See also Fig. 1, described waste heat recovery assembly comprises interconnective hot water collector 9 and waste heat exchanger 10, described hot water collector 9 is used for collecting from terminal 8 outflows of water and the hot water after using, described waste heat exchanger 10 is located on the inlet pipeline 7, and the heat that described waste heat exchanger 10 is used for hot water that hot water collector 9 is collected heats to improve the water inlet water temperature to the water of inlet pipeline 7.

See also Fig. 5, described controller 3 comprises the controller mainboard and the wireless communication module 31 that is used for communicating by letter that are used for controlling described pair of heat source system that is connected with each other; Described wireless communication module 31 comprises 3G communication module MCU312, the 3G module 310 that described 3G communication module MCU312 is connected with respectively power module 316,485 communicating circuits 314 and is used for communicating by letter with described control terminal, this 3G module 310 is connected with SIM 315 and antenna 313, and described power module 316 also is connected to its power supply with described 3G module 310; Described wireless communication module 31 is connected with control terminal by wireless network 12 connections, control terminal 11 is used for sending control signal to wireless communication module 31, described 3G module 310 is used for receiving the signal that control terminal 11 sends and transmits the signal to 3G communication module MCU312, described 3G communication module MCU312 is for rear generation control instruction that described signal is decoded, and described 3G communication module MCU312 also is used for exporting described control instruction to described controller mainboard.

But described control terminal 11 comprises 3G mobile, panel computer, has the PC of radio transmission-receiving function and equipment and the control device of connecting wireless network.

Further, described wireless network 12 comprises GPRS, 3G or 4G network.

Further, also be provided with button, button or the knob that can be used for described pair of heat source system carried out hand-guided on the described controller 3.

In use, if need not Long-distance Control, can directly pass through the start and stop of button, button or knob direct control unit device on the controller 3; When the needs Long-distance Control, useful control terminal 11 operates, PC that for example can be by having radio transmission-receiving function or browser or the function software of 3G mobile are connected to wireless network 12, communicate to send control information with described wireless communication module 31 by this wireless network 12, after wireless communication module 31 receives described control information, decoding through 3G communication module MCU312 generates corresponding instruction, then send described instruction by the controller mainboard to corresponding unit, make it carry out corresponding function.

This system combined operation principle is: each heats assembly and can separately heat water tank, also can heat according to the service condition complementation, if when water had relatively high expectations, required time can start each thermal source assembly and simultaneously water tank be heated more in short-term.Service condition according to optimum, select suitable heat source assembly, as: when solar light irradiation is arranged, can directly adopt the water in 5 pairs of water tanks of solar heat-collection plate assembly to heat, 6 of earth source heat pump assemblies carry out preheating to the water in the water tank, and earth source heat pump assembly 6 was made auxiliary heating and used this moment.For demonstrating fully energy-conservation principle, when the thermal source unit is selected to heat, should use as far as possible 6 heating of earth source heat pump assembly.Respectively solar heat-collection plate assembly 5, earth source heat pump assembly 6 are controlled by controller 3.When the user went out, the user can realize the equipment of function of surfing the Net by mobile phone or other, and login WEB browser or be installed in function software in the equipment for surfing the net carries out Long-distance Control to this heating system.For example: when shining upon, the water that can start in advance in 6 pairs of water tanks of earth source heat pump assembly heats, at this moment temperature can arrange lower, because can also utilize the water of 5 pairs of water tanks of solar heat-collection plate assembly to heat, if run into overcast and rainy or when evening, can directly utilize the water in 6 pairs of water tanks of earth source heat pump assembly to heat; Simultaneously, if need to heat to the room, can adopt the mode of Long-distance Control that corresponding thermal source assembly is carried out operated from a distance, and Temperature Setting is carried out in the zone of needs heating, realization has embodied the hommization requirement of product systems designs to the long-distance intelligent control of this system.Simultaneously, utilize waste-heat recovery device, collect the secondary hot water, improve inflow temperature, reduce the power of whole heating, realize Combination application and the energy-saving effect of heat supply heating.

The above only is embodiment of the present utility model; be not so limit claim of the present utility model; every equivalent structure or equivalent flow process conversion that utilizes the utility model specification and accompanying drawing content to do; or directly or indirectly be used in other relevant technical fields, all in like manner be included in the scope of patent protection of the present utility model.

Claims

1. a solar energy tabula rasa and underground heat Combined remote process control heating system is characterized in that: comprise two heat source systems, waste heat recovery assembly, controller and control terminal;

Described pair of heat source system comprises attemperater assembly and the solar heat-collection plate assembly, earth source heat pump assembly, water end, inlet pipeline and the heating loop assembly that are connected on the described attemperater assembly;

Described waste heat recovery assembly comprises interconnective hot water collector and waste heat exchanger, described hot water collector is used for collecting from the terminal outflow of water and the hot water after using, and it is delivered to described waste heat exchanger, described waste heat exchanger is located on the inlet pipeline;

Described controller comprises the controller mainboard and the wireless communication module that is used for communicating by letter that are used for controlling described pair of heat source system that is connected with each other; Described wireless communication module comprises 3G communication module MCU, the 3G module that described 3G communication module MCU is connected with respectively power module, 485 communicating circuits and is used for communicating by letter with described control terminal, this 3G module is connected with SIM and antenna, and described power module also is connected with described 3G module thinks its power supply;

Described control terminal is connected wireless communication module and is connected by wireless network with controller.

2. solar energy tabula rasa according to claim 1 and underground heat Combined remote process control heating system is characterized in that: but described control terminal comprises 3G mobile, panel computer, has the PC of radio transmission-receiving function and equipment and the control device of connecting wireless network.

3. solar energy tabula rasa according to claim 1 and underground heat Combined remote process control heating system, it is characterized in that: described wireless network comprises GPRS, 3G or 4G network.

4. solar energy tabula rasa according to claim 1 and underground heat Combined remote process control heating system is characterized in that: also be provided with the button, button or the knob that can be used for described pair of heat source system carried out hand-guided on the described controller.

5. solar energy tabula rasa according to claim 1 and underground heat Combined remote process control heating system, it is characterized in that: described attemperater assembly comprises tank shell, in tank shell, be provided with inner water tank, be provided with insulation material between described tank shell and the inner water tank, be provided with the solar energy coil pipe that is positioned at inner water tank top in the inner water tank, be positioned at the heating coil and the ground source tray pipe that is positioned at the inner water tank bottom at inner water tank middle part, also be provided with the water inlet tube head and the water outlet tube head that are communicated with inner water tank in the described attemperater assembly, described water inlet tube head links to each other with described inlet pipeline, described water outlet tube head links to each other with water is terminal, described water outlet tube head and water inlet tube head are located at respectively the top and bottom of described tank shell, also are provided with in the inner water tank for detection of lower sensor and the upper sensor of water temperature and the magnesium rod that is used for preventing the inner bag corrosion;

Heating coil, solar energy coil pipe and ground source tray pipe are connected to respectively described heating loop assembly, solar heat-collection plate assembly and earth source heat pump assembly by corresponding pipeline.

6. solar energy tabula rasa according to claim 1 and underground heat Combined remote process control heating system is characterized in that: described earth source heat pump assembly comprise earth source heat pump unit, ground source heat water-circulating pump, source cold water circulation pump, buried pipe network;

Described earth source heat pump unit comprises the first closed circuit of the confession flow of refrigerant that is made of compressor, condenser, throttling arrangement and evaporimeter; Described buried pipe network connects described evaporimeter by pipeline and consists of the second closed circuit that flows for the first heat-transfer working medium, and to the cold-producing medium heating, source, described ground cold water circulation pump is arranged in this second closed circuit described the first heat-transfer working medium in evaporimeter; Described ground source tray pipe connects described condenser by pipeline and consists of the 3rd closed circuit that flows for the second heat-transfer working medium, the heat of described the second heat-transfer working medium absorption refrigeration agent in condenser and be connected in the described attemperater assembly heats wherein water, and described ground source heat water-circulating pump is arranged in the 3rd closed circuit;

Described compressor, ground source heat water-circulating pump, the source cold water circulation pump all be electrically connected described controller.

7. solar energy tabula rasa according to claim 1 and underground heat Combined remote process control heating system, it is characterized in that: described solar heat-collection plate assembly comprises solar thermal collector, collecting plate sensor for detection of temperature, expansion drum and air bleeding valve, described solar thermal collector comprises by aluminum alloy frame, the framework that zinc-plated base plate and safety glass consist of, in this framework, be provided with absorber, frame and base plate heat-preservation cotton, in described absorber, be provided with working medium circulation pipeline and collection distributive pipe, described working medium circulation pipeline is connected by pipeline with described attemperater assembly, and is provided with circulating pump in connecting line; Described circulating pump and collecting plate sensor are electrically connected with controller.

8. solar energy tabula rasa according to claim 1 and underground heat Combined remote process control heating system, it is characterized in that: described heating loop assembly comprises the grounding heat coil tube or the radiator that link to each other with described attemperater assembly by pipeline, be located on the pipeline heating circulation pump and for detection of the heating loop sensor of indoor temperature, described heating circulation pump and heating loop sensor are electrically connected with described controller respectively.