CN202675503U - All-weather floor heating and cooling system - Google Patents

All-weather floor heating and cooling system Download PDF

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Publication number
CN202675503U
CN202675503U CN 201220294016 CN201220294016U CN202675503U CN 202675503 U CN202675503 U CN 202675503U CN 201220294016 CN201220294016 CN 201220294016 CN 201220294016 U CN201220294016 U CN 201220294016U CN 202675503 U CN202675503 U CN 202675503U
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floor
heat
storage medium
solar thermal
thermal collector
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Expired - Fee Related
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CN 201220294016
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Chinese (zh)
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罗玉成
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Individual
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Individual
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Abstract

The utility model relates to an all-weather floor heating and cooling system, belonging to the technical field of floors. The all-weather floor heating and cooling system consists of a solar thermal collector, a heat storage medium box, an electric heat element, a floor circulating water pump, floors and a controller, wherein the solar thermal collector is connected with the heat storage medium box through a solar thermal collector discharging tube and a solar thermal collector return pipe, the heat storage medium box forms a heat storage medium circulation loop with the floors through a heat storage medium box discharging tube and a heat storage medium box return pipe, the electric heat element is arranged in the heat storage medium box, the solar thermal collector discharging tube is connected with a three-way electromagnetic valve, and discharging tubes of the floors are connected with the floor circulating water pump. The all-weather floor heating and cooling system provided by the utility model can heat in winter and cool down in summer so as to greatly save energy source and reduce the heating cost; and the floors can be detached so as to be favorable to maintaining leaked water pipes.

Description

Round-the-clock floor heating and refrigeration system
Technical field
The utility model relates to round-the-clock floor heating and refrigeration system, belongs to technical field of floor.
Background technology
Existing " solar water floor heating system ", be by solar thermal collector and storage tank as the solar energy acquisition system, the novel energy-conserving heating system of heat is provided as building as cooling system take low temperature floor radiation.This mode has the comfortableness height, and energy-saving effect is remarkable, is convenient to the advantages such as regulation and control.
The solar water floor heating system ensures that by solar energy heating part, supplementary energy part, radiant floor heating system form.Solar heating system is comprised of solar thermal collector, solar thermal collector water circulating pump and heat storage water tank, and its effect is to collect to greatest extent heat by the heat collector that is arranged at lighting surface, and carries out the deposit of heat by storage tank.Auxiliary energy system can be comprised of various types of conventional energy resources, and as replenishing of solar thermal collection system, accessory system can when continuous rainy weather or other special heating demands, satisfy heat demand.Radiating end is buried water pipe in the solar water floor heating system, considers the solar energy system collecting efficiency, and the hot water that is not higher than 60 ℃ take temperature is thermal medium, so that utilize the ripe device of solar energy collection to become possibility as heating element heater.But the water pipe of radiant floor heating system is positioned under the cement layer, in case water pipe leaks, then needs the floor plane is opened, and causes the significant wastage of human and material resources, financial resources.
It is that 200610002606.4 Chinese patent improves common solar water floor heating system that name is called " full-automatic floor heating system with solar heat collector " patent No., a kind of full-automatic floor heating system with solar heat collector is disclosed, by vacuum tube solar heating element, the hot water storage tank, supplementary energy, floor heating system and temperature control loop form, solar vacuum tube collector is connected with the hot water storage tank with adjutage by magnetic valve one, the hot water storage tank is by magnetic valve two, heat-exchanger pump and upper hose link with supplementary energy, supplementary energy is connected with floor heating system by the hot water storage tank outlet pipe, and floor heating system is connected with the hot water storage tank by return pipe.This system has realized solar thermal collector heating, has reduced energy consumption, has reduced atmosphere pollution, still, has crossed after the heating phase, and the idleness of equipment is got up, and causes waste.
It is that 201120043078.3 Chinese patent discloses a kind of solar ground heat floor that name is called " solar ground heat floor " patent No., it comprises the thermal conductive water pipe who is connected with solar water heating system, be provided with the floor above the thermal conductive water pipe, following warming plate and the thermal reflecting coating of being provided with successively on floor, the upper surface of warming plate are provided with for the heat-conductive water tube seat of placing the thermal conductive water pipe.Simple in structure, the characteristics such as the high and low carbocyclic ring of heat utilization efficiency is protected, cleaning reduction of discharging that this utility model has, but the thermal conductive water pipe of patent is placed in the heat-conductive water tube seat of warming plate, feasible technically at warming plate heat-conductive water tube seat processed, but on technique, but waste time and energy, greatly improved production cost.
Summary of the invention
The purpose of this utility model is high in order to overcome the prior art products production cost, the heating phase is idle later, the shortcoming that can not freeze, round-the-clock floor heating and refrigeration system are proposed, this system is except utilizing solar thermal collector to provide the heat energy, the electric energy that can also adopt solar energy photovoltaic panel to provide, environmental protection, inexhaustible.Refrigeration system and water heater that system increases can freeze in summer, also can provide hot water.
The purpose of this utility model is achieved through the following technical solutions.
Round-the-clock floor heating refrigeration system of the present utility model, by solar thermal collector 2, heat-storage medium case 5, heating 19, floor water circulating pump 8, floor 30 and controller 18 form, solar thermal collector 2 is connected with the solar thermal collector return pipe by solar thermal collector outlet pipe 29 and is connected with heat-storage medium case 5, heat-storage medium case 5 consists of the heat-storage medium closed circuit by heat-storage medium case outlet pipe 11 and heat-storage medium case return pipe 9 with floor 30, it is characterized in that in the said heat-storage medium case 5 heating 19 being housed, said heating 19 is connected with controller 18 by circuit, be connected with solar thermal collector outlet pipe three-way magnetic valve door 17 on said solar thermal collector outlet pipe 29 and the pipeline that heat-storage medium case 5 is connected, the outlet pipe on said floor 30 is connected with floor water circulating pump 8, floor water circulating pump 8 is connected with the A end of solar thermal collector return pipe three-way magnetic valve door 4 by floor heat-storage medium effuser 21, the B end of solar thermal collector return pipe three-way magnetic valve door 4 is connected with heat-storage medium case 5, and the C end of solar thermal collector return pipe three-way magnetic valve door 4 is connected with solar thermal collector return pipe 3.
One end of said solar thermal collector outlet pipe three-way magnetic valve door 17 is connected with water heater water circulating pump 20, water heater water circulating pump 20 is connected by the interior heat exchanger 23 of water heater heat-storage medium inflow pipe 27 and water heater, heat exchanger 23 is connected with solar thermal collector return pipe 3 by water heater heat-storage medium effuser 26, is provided with electric heating system in the said water heater.
Said heat-storage medium case 5 is connected with refrigeration compressor 24 and compressor cooling pipe 28.
Said controller 18 is connected with solar energy photovoltaic panel 1 by circuit.
Be provided with heat-insulation layer 14 below the said floor 30, it is characterized in that said floor 30 is by floor top layer 16, floor bottom 15, support bar 13 and floor heat accumulation water pipe 12 are composited, support bar 13 and floor heat accumulation water pipe 12 are between floor top layer 16 and floor bottom 15, and floor heat accumulation water pipe 12 is adjacent with support bar 13, and support bar 13 1 sides are shaped with plug, opposite side is shaped with groove, is used for the connection between the compound floor block.
Said controller 18 is connected with wind power generating set by circuit.
Said controller 18 forms the control system of paying the fees with satellite and ground control station.
Advantage and the good effect of round-the-clock floor heating refrigeration system of the present utility model are:
1. winter can heating, when sunlight is arranged, provides heat energy with solar thermal collector, provide electric energy with solar energy photovoltaic panel, when the cloudy day rains and night, (be the lowest point time of electricity consumption night with the auxiliary heating system heat supply, the electricity charge are lower), greatly saved the energy, reduced heating cost.
2. the electric heater in the system has been owing to increased heat exchanger, and it is for subsequent use to be with the thermal power transfer of solar thermal collector that the hot water storage of water heater is got up, and heats at Heating Period, and Heating Period other times later can provide hot water.
3. can freeze summer, solve indoor extremely hot problem, play the air-conditioning effect.
4. the monolithic floor is to be composited, and whole floor is to be spliced, and can take the floor when water pipe leaks apart and keep in repair.
5. when the cloudy day rains and night, solar thermal collector can not heat heat-storage medium, when solar energy photovoltaic panel can not generate electricity, and the wind power generating set of connection can provide electric energy for heating.
6. controller, satellite and ground control station can be controlled and pay the fees.
Description of drawings
Fig. 1 is round-the-clock floor heating of the present utility model and refrigeration system schematic diagram.
Fig. 2 is the floor view in transverse section of round-the-clock floor heating of the present utility model and refrigeration system
Fig. 3 is the sectional view at A-A place among Fig. 2
Among the figure, 1-photovoltaic version, 2-solar thermal collector, 3-solar thermal collector return pipe, 4-solar thermal collector return pipe three-way magnetic valve door, 5-heat-storage medium case, the 6-break pressure cistern, 7-temperature sensor, 8-floor water circulating pump, 9-heat-storage medium case return pipe, 10-power supply, 11-heat-storage medium case outlet pipe, 12-floor heat accumulation water pipe, 13-floor support bar, 14-heat-insulation layer, 15-floor bottom, 16-floor top layer, 17-solar thermal collector outlet pipe three-way magnetic valve door, the 18-controller, 19-heating, 20-water heater water circulating pump, 21-floor heat-storage medium effuser, the 22-water heater, 23-heat exchanger, 24-compressor, 25-shower joint, 26-water heater heat-storage medium effuser, 27-water heater heat-storage medium inflow pipe, 28-compressor cooling pipe, 29-solar thermal collector outlet pipe, the 30-floor.
The specific embodiment
Round-the-clock floor heating refrigeration system of the present utility model, by solar thermal collector 2, heat-storage medium case 5, heating 19, floor water circulating pump 8, floor 30 and controller 18 form.Solar thermal collector 2 is connected with the solar thermal collector return pipe by solar thermal collector outlet pipe 29 and is connected with heat-storage medium case 5, said solar thermal collector outlet pipe 29 is connected with the A end of solar thermal collector outlet pipe three-way magnetic valve door 17, and the C end of solar thermal collector outlet pipe three-way magnetic valve door 17 is connected by the bottom of pipeline with heat-storage medium case 5.Heat-storage medium case outlet pipe 11 1 ends are connected to the top of heat-storage medium case 5, and the other end is connected with the oral siphon on floor 30.The outlet pipe on said floor 30 is connected with floor water circulating pump 8, floor water circulating pump 8 is connected with the A end of solar thermal collector return pipe three-way magnetic valve door 4 by floor heat-storage medium effuser 21, the B end of solar thermal collector return pipe three-way magnetic valve door 4 is connected with heat-storage medium case 5 by heat-storage medium case return pipe 9, and the C end of solar thermal collector return pipe three-way magnetic valve door 4 is connected with solar thermal collector return pipe 3.Floor 30 and heat-storage medium case 5 consist of closed circuit by pipeline, start floor water circulating pump 8, and heat-storage medium will flow in closed circuit.In the said heat-storage medium case 5 heating 19 is housed, heating 19 is connected with controller 18 by circuit, said heat-storage medium case 5 is equipped with refrigeration compressor 24 and compressor cooling pipe 28, heat-storage medium in the heat-storage medium case 5 is freezed, temperature sensor 7 also is housed in the heat-storage medium case 5.The B end of said solar thermal collector outlet pipe three-way magnetic valve door 17 is connected with water heater water circulating pump 20, water heater water circulating pump 20 is connected by the interior heat exchanger 23 of water heater heat-storage medium inflow pipe 27 and water heater, heat exchanger 23 is connected with solar thermal collector return pipe 3 by water heater heat-storage medium effuser 26, is provided with electric heating system 22 and shower joint 25 in the said water heater.Said controller 18 is connected with solar energy photovoltaic panel 1 by circuit.Said controller 18 is connected with wind power generating set by circuit.Said controller 18 forms the control system of paying the fees with satellite and ground control station.Break pressure cistern 6 is used for the decompression of heat-storage medium case 5 and the interpolation of heat-storage medium.Power supply 10 provides electric power for round-the-clock floor heating refrigeration system.
Be provided with heat-insulation layer 14 below the floor 30 of round-the-clock floor heating refrigeration system of the present utility model, said floor 30 is by floor top layer 16, floor bottom 15, support bar 13 and floor heat accumulation water pipe 12 cementing being composited, support bar 13 and floor heat accumulation water pipe 12 are between floor top layer 16 and floor bottom 15, what floor top layer 16 and floor bottom 15 adopted is the charing plank, floor heat accumulation water pipe 12 and support bar 13 are adjacent one another are, support bar 13 1 sides are shaped with plug, opposite side is shaped with groove, is used for the connection between the compound floor block.
The course of work:
The round-the-clock floor heating refrigeration system course of work of the present utility model is as follows:
Solar thermal collector 2 connects to form a loop by solar thermal collector outlet pipe 29 and solar thermal collector return pipe 3 with heat-storage medium case 5 and floor 30.When the temperature in the heat-storage medium case 5 reaches 60 ℃, temperature sensor 7 is passed to controller 18 with temperature signal, the C end of controller 18 instruction solar thermal collector outlet pipe three-way magnetic valve doors 17 is closed, the C port shutdown that solar thermal collector return pipe three-way magnetic valve door 4 is connected with solar thermal collector return pipe 3, open A port and B port, floor water circulating pump 8 works on, and the water temperature of the heat-storage medium in the loop is descended gradually.When arriving 40 ℃, signal reaches controller 18, the C end of controller 18 instruction solar thermal collector electromagnetic valves 17 is open-minded, the C port that solar thermal collector return pipe three-way magnetic valve door 4 is connected with solar thermal collector return pipe 3 is opened, the B port shutdown, high-temperature medium in the solar thermal collector 2 flows into heat-storage medium case 5 under the driving of floor water circulating pump 8, the heat-storage medium temperature in the medium box is raise.
When the heat energy that provides when solar thermal collector 2 is not enough, temperature controller 18 at first instruction solar energy photovoltaic panel 1 is heating 19 power supply, during without sunlight and night, and the power supply of controller 18 instruction wind power generating set, when wind power generating set can not provide enough electric power, then instruction power 10 power supplies.Realize temperature-compensating.
Summer is when freezing to floor 30 when needs, temperature sensor 7 is passed to controller 18 with temperature signal, the C end of controller 18 instruction solar thermal collector electromagnetic valves 17 is closed, the C port shutdown that instruction solar thermal collector return pipe three-way magnetic valve door 4 is connected with solar thermal collector return pipe 3, open A port and B port, start compressor 24 and floor water circulating pump 8, realize the refrigeration to the floor.
When needs hot water, the C end of solar thermal collector electromagnetic valve 17 is closed, A port and B port are opened, the C port shutdown of solar thermal collector return pipe three-way magnetic valve door 4, start water heater water circulating pump 20, the heat-storage medium of solar thermal collector 2 heats the water in the water heater in that heat exchanger 23 is interior.During without sunlight, start the electric heating system in the water heater, realize providing hot water function.

Claims (7)

1. round-the-clock floor heating refrigeration system, by solar thermal collector (2), heat-storage medium case (5), heating (19), floor water circulating pump (8), floor (30) and controller (18) form, solar thermal collector (2) is connected 3 by solar thermal collector outlet pipe (29) with the solar thermal collector return pipe) be connected with heat-storage medium case (5), heat-storage medium case (5) consists of the heat-storage medium closed circuit by heat-storage medium case outlet pipe (11) and heat-storage medium case return pipe (9) with floor (30), it is characterized in that being equipped with in the said heat-storage medium case (5) heating (19), said heating (19) is connected with controller (18) by circuit, be connected with solar thermal collector outlet pipe three-way magnetic valve door (17) on said solar thermal collector outlet pipe (29) and the pipeline that heat-storage medium case (5) is connected, the outlet pipe on said floor (30) is connected with floor water circulating pump (8), floor water circulating pump (8) is connected with the A end of solar thermal collector return pipe three-way magnetic valve door (4) by floor heat-storage medium effuser (21), the B end of solar thermal collector return pipe three-way magnetic valve door (4) is connected with heat-storage medium case (5), and the C end of solar thermal collector return pipe three-way magnetic valve door (4) is connected with solar thermal collector return pipe (3).
2. round-the-clock floor heating refrigeration system as described in claim 1, an end that it is characterized in that said solar thermal collector outlet pipe three-way magnetic valve door (17) is connected with water heater water circulating pump (20), water heater water circulating pump (20) is connected by the interior heat exchanger (23) of water heater heat-storage medium inflow pipe (27) and water heater, heat exchanger (23) is connected with solar thermal collector return pipe (3) by water heater heat-storage medium effuser (26), is provided with electric heating system in the said water heater.
3. the round-the-clock floor heating refrigeration system described in claim 1 or 2 is characterized in that said heat-storage medium case (5) is connected with refrigeration compressor (24) and compressor cooling pipe (28).
4. the round-the-clock floor heating refrigeration system described in claim 1 or 2 or 3 is characterized in that said controller (18) is connected with solar energy photovoltaic panel (1) by circuit.
5. such as each described round-the-clock floor heating refrigeration system among the claim 1-4, be provided with heat-insulation layer (14) below the said floor (30), it is characterized in that said floor (30) is by floor top layer (16), floor bottom (15), support bar (13) and floor heat accumulation water pipe (12) are composited, support bar (13) and floor heat accumulation water pipe (12) are positioned between floor top layer (16) and the floor bottom (15), floor heat accumulation water pipe (12) is adjacent with support bar (13), support bar (13) one sides are shaped with plug, opposite side is shaped with groove, is used for the connection between the compound floor block.
6. round-the-clock floor heating refrigeration system as described in claim 5 is characterized in that said controller (18) is connected with wind power generating set by circuit.
7. round-the-clock floor heating refrigeration system as described in claim 6 is characterized in that said controller (18) and satellite and ground control station form the control system of paying the fees.
CN 201220294016 2012-06-21 2012-06-21 All-weather floor heating and cooling system Expired - Fee Related CN202675503U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 201220294016 CN202675503U (en) 2012-06-21 2012-06-21 All-weather floor heating and cooling system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN 201220294016 CN202675503U (en) 2012-06-21 2012-06-21 All-weather floor heating and cooling system

Publications (1)

Publication Number Publication Date
CN202675503U true CN202675503U (en) 2013-01-16

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Application Number Title Priority Date Filing Date
CN 201220294016 Expired - Fee Related CN202675503U (en) 2012-06-21 2012-06-21 All-weather floor heating and cooling system

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102705940A (en) * 2012-06-21 2012-10-03 罗玉成 All-weather floor heating and cooling system

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102705940A (en) * 2012-06-21 2012-10-03 罗玉成 All-weather floor heating and cooling system

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C14 Grant of patent or utility model
GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20130116

Termination date: 20170621