CN106678945A - Solar heated floor system - Google Patents

Abstract

The invention provides a solar heated floor system which comprises heated floor, a solar heat collector, a thermal insulation tube, a first water storage tank, a second water storage tank, a coil pipe, a circulating pipeline and a circulating water pump, wherein the solar heat collector comprises a light condensing plate and a heat collecting tube; the light condensing plate is a reflecting type film parabolic cylindrical light condensing plate; the heat collecting tube is fixedly arranged on the light condensing plate; the axis of the heat collecting tube is superposed with a focal line of the light condensing plate; the coil pipe is positioned on the heated floor; and the heat collecting tube, the thermal insulation tube, the first water storage tank, the second water storage tank and the circulating pipeline communicate with one another in sequence. The solar heated floor system provided by the invention does not need electric heating, saves electric energy, is high in heating efficiency, and is suitable for being popularized and applied.

Description

Solar energy heatable brick bed system

Technical field

The invention belongs to technical field of solar, more particularly, to solar energy heatable brick bed system.

Background technology

In prior art, the structure design of solar energy heatable brick bed system is simultaneously immature, has research worker to use existing solar energy The structure of water heater is heated to water, and will be circulated in coil pipe of the water of heating in heatable brick bed；The structural design theory Although upper feasible, because north of china in winter temperature is too low, the water in solar water heater is difficult to be heated to enough temperature, because This is difficult to popularization and application；And existing solar water heater assembles for many thermal-collecting tubes, high cost, weight are larger, and heat Efficiency is low.The invention is to be improved for above-mentioned technical problem.

The content of the invention

For problem above, devise that a kind of reasonable in design, thermal efficiency is high, lightweight solar thermal collector, and should Solar thermal collector is applied to solar energy heatable brick bed system.

To reach above-mentioned purpose, what the technical scheme of the invention was realized in：Solar energy heatable brick bed system, including heat A heatable brick bed, solar thermal collector, insulating tube, the first water tank, the second water tank, coil pipe, circulation line and water circulating pump, the sun Can heat collector include solar panel and thermal-collecting tube, the solar panel is a reflective thin film parabolic-cylinder light plate, the thermal-collecting tube It is fixedly arranged on the solar panel, the axis of the thermal-collecting tube overlaps with the focal line of the solar panel；

The coil pipe portion is located in the heatable brick bed；

Second water tank is connected with the water circulating pump；

The thermal-collecting tube, insulating tube, the first water tank, the second water tank are sequentially connected with circulation line.

Further, the circulation line includes that first circulation arm, second circulation arm, the 3rd loop branch pipe and the 4th are followed Ring arm, the first circulation arm connects first water tank and the second water tank, and the second circulation arm connects institute The second water tank and coil pipe are stated, the 3rd loop branch pipe connects the coil pipe and the first water tank, the 4th loop branch pipe Connect the 3rd loop branch pipe and the second water tank；Check valve is equipped with each loop branch pipe.

Further, the solar panel, thermal-collecting tube and the first water tank are located outside, and second water tank is located at interior.

Further, the solar thermal collector can parallel arrange multiple, and the hot water of the plurality of solar thermal collector passes through institute State insulating tube and be pooled to first water tank.

Further, the insulating tube is the one kind in PPR pipe, aluminium-plastic pipe or galvanized iron conduit.

Further, the insulating tube is externally provided with muff, and the muff is a plastic outer tube, the plastic outer tube and the guarantor With polyurethane foam plastics entirety fill between warm pipe.

Relative to prior art, the invention has the advantage that：

(1) solar panel that the invention is provided is a reflective thin film parabolic-cylinder light plate, concrete structure and making Method is shown in patent CN201010115538.9, and the focus that the solar panel is obtained is not a point but straight line formed coke line, will The axle center of vacuum heat collection pipe is put on the position overlapped with focal line, realizes the perfection of sunlight focal line and thermal-collecting tube profile Match somebody with somebody；

(2) thermal efficiency of the solar thermal collector of the invention is high, and the sun heating power of 800W can make winter Solar energy heatable brick bed system keeps whole day temperature more than 25 degree；

(3) the solar energy heatable brick bed system of the invention is without the need for electrical heating, saves energy, and security performance is higher；

(4) the invention solar thermal collector is split-type structural, lightweight, is easy to hang and mobile.

Description of the drawings

Fig. 1 is the overall structure diagram of the invention；

Fig. 2 is water circulation schematic diagram of the solar energy heatable brick bed system of the invention in the case of sunny；

Fig. 3 is water circulation schematic diagram of the solar energy heatable brick bed system of the invention in the case of sunlight deficiency；

Fig. 4 is the solar thermal collector structural representation of the invention.

In figure：1st, solar panel, 2, thermal-collecting tube, 3, PPR pipe, 4, heatable brick bed, the 5, first water tank, the 6, second water tank, 7, disk Pipe, 8, first circulation arm, 9, second circulation arm, the 10, the 3rd loop branch pipe, the 11, the 4th loop branch pipe, 12, check valve, 13rd, water circulating pump.

Specific embodiment

It should be noted that in the case where not conflicting, the feature in embodiment and embodiment in the invention can To be mutually combined.

In the description of the invention, it is to be understood that term " " center ", " longitudinal direction ", " horizontal ", " on ", D score, The orientation or position relationship of the instruction such as "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom ", " interior ", " outward " is Based on orientation shown in the drawings or position relationship, it is for only for ease of description the invention and simplifies description, rather than indicates Or the device or element of hint indication with specific orientation, with specific azimuth configuration and operation, therefore must not be understood that It is the restriction to the invention.Additionally, term " first ", " second " etc. are only used for describing purpose, and it is not intended that indicating Or hint relative importance or the implicit quantity for indicating indicated technical characteristic.Thus, " first ", " second " etc. are defined Feature can express or implicitly include one or more this feature.In the description of the invention, unless separately It is described, " multiple " are meant that two or more.

In the description of the invention, it should be noted that unless otherwise clearly defined and limited, term " peace Dress ", " connected ", " connection " should be interpreted broadly, for example, it may be fixedly connected, or be detachably connected, or integratedly Connection；Can be mechanically connected, or electrically connect；Can be joined directly together, it is also possible to be indirectly connected to by intermediary, It can be the connection of two element internals.For the ordinary skill in the art, can be by concrete condition understanding State concrete meaning of the term in the invention.

The invention is described in further details below with reference to accompanying drawing.

Embodiment 1

The assembling mode of solar energy heatable brick bed system is as follows：

As shown in figure is according to special 4, sharp CN201010115538.9 makes a parabolic dish solar panel 1；By thermal-collecting tube 2 Axis be arranged on the position that coincides with the focal line of solar panel 1, thermal-collecting tube 2 has been connected with the first water tank 5 with PPR pipe 3 Come, wherein, the port of PPR pipe 3 is tightly connected with the first water tank 5；First water tank 5, the second water tank 6 and coil pipe 7 pass through Each loop branch pipe connection, on each loop branch pipe check valve 12 is equipped with, wherein, the part of coil pipe 7 is located in heatable brick bed 4.

The using method of solar energy heatable brick bed system is as follows：

On the daytime of fair weather, the water circulation schematic diagram of solar energy heatable brick bed system is as shown in Fig. 2 close the 4th circulation Check valve 12 on pipe 11, the check valve 12 closed on first circulation arm 8, adds water, using recirculated water in the second water tank 6 Pump 13, the cold water of the second water tank 6 is entered in coil pipe 7 by second circulation arm 9, and flow to first by the 3rd loop branch pipe 10 In water tank 5；

After the water level in the first water tank 5 reaches certain liquid level, water circulating pump 13 is closed, close the 3rd circulation Check valve 12 on pipe 10, first water tank 5 is connected by PPR pipe 3 with thermal-collecting tube 2, i.e., water flows into collection by the first water tank 5 In heat pipe 2, thermal-collecting tube 2 is heated in the water in thermal-collecting tube 2 by absorbing solar energy, and the hot water in thermal-collecting tube 2 is by heat friendship Change so that the water in the first water tank 5 constantly heats up；

When the water in the first water tank 5 reaches uniform temperature, open on first circulation arm 8 and the 3rd loop branch pipe 10 Check valve 12, hot water is recycled to the second water tank 6 by self gravitation effect, by first circulation arm 8 in the first water tank 5 It is interior, water circulating pump 13 is opened, the hot water of the second water tank 6 passes through in the coil pipe 7 that second circulation arm 9 is entered in heatable brick bed 4, thus right Heatable brick bed 4 is radiated, and the water in the coil pipe 7 passes sequentially through the 3rd loop branch pipe 10 and is recycled to the first water tank 5 and thermal-collecting tube 2 It is interior, and heated again in thermal-collecting tube 2, it is thusly-formed thermal cycle.

In evening, the water circulation schematic diagram of solar energy heatable brick bed system is as shown in figure 3, because without available solar energy, treating Hot water in first water tank 5 is flowed into after the second water tank 6, the list on closing first circulation arm 8 and the 3rd loop branch pipe 10 To valve 12, the check valve 12 on the 4th loop branch pipe 11 is opened, with water circulating pump 13 by the hot water in the second water tank 6 by the Two loop branch pipes 9 are squeezed in coil pipe 7, and heatable brick bed 4 is radiated, and the water in the coil pipe 7 passes through the 3rd loop branch pipe 10 and the 4th Loop branch pipe 11 is recycled in the second water tank 6, is thusly-formed thermal cycle.

The switch of each check valve 12, the switch of water circulating pump 13, the height of liquid level and temperature height in the present embodiment, Automatically controlled by controller.

Embodiment 2

The assembling mode of solar energy heatable brick bed system is as follows：

Solar thermal collector is provided with two, and according to patent CN201010115538.9 parabolic dish solar panel is made 1；The axis of thermal-collecting tube 2 is arranged on into the position that coincides with the focal line of solar panel 1, with PPR pipe 3 by two thermal-collecting tubes 2 and the One water tank 5 is coupled together, wherein, the port of PPR pipe 3 is tightly connected with the first water tank 5；First water tank 5, the second water storage Tank 6 is connected with coil pipe 7 by each loop branch pipe, and on each loop branch pipe check valve 12 is equipped with, wherein, the part of coil pipe 7 is located at In heatable brick bed 4.

The PPR pipe 3 must select pipe of the heatproof more than 100 DEG C, when the length of PPR pipe 3 exceedes a quarter rice, to keep away Exempt from larger thermal loss, need the plastic outer tube in the outer cover of PPR pipe 3, between the plastic outer tube and PPR pipe 3 polyurethane is used Foamed plastic entirety fill.

The capacity of first water tank 5 is 100L, and the capacity of the second water tank 6 is 150L, two solar thermal collectors General power be 800W；Solar panel 1 long 1.71m, wide 0.44m；Thermal-collecting tube 2 long 1.8m, φ 58mm.

The using method of solar energy heatable brick bed system is as follows：

The using method of solar energy heatable brick bed system is as follows：

On the daytime of fair weather, the water circulation schematic diagram of solar energy heatable brick bed system is as shown in Fig. 2 close the 4th circulation Check valve 12 on pipe 11, the check valve 12 closed on first circulation arm 8, adds water, using recirculated water in the second water tank 6 Pump 13, the cold water of the second water tank 6 is entered in coil pipe 7 by second circulation arm 9, and flow to first by the 3rd loop branch pipe 10 In water tank 5；

After the water level in the first water tank 5 reaches certain liquid level, water circulating pump 13 is closed, close the 3rd circulation Check valve 12 on pipe 10, first water tank 5 is connected by PPR pipe 3 with thermal-collecting tube 2, i.e., water flows into collection by the first water tank 5 In heat pipe 2, thermal-collecting tube 2 is heated in the water in thermal-collecting tube 2 by absorbing solar energy, and the hot water in thermal-collecting tube 2 is by heat friendship Change so that the water in the first water tank 5 constantly heats up；

When the water in the first water tank 5 reaches uniform temperature, open on first circulation arm 8 and the 3rd loop branch pipe 10 Check valve 12, hot water is recycled to the second water tank 6 by self gravitation effect, by first circulation arm 8 in the first water tank 5 It is interior, water circulating pump 13 is opened, the hot water of the second water tank 6 passes through in the coil pipe 7 that second circulation arm 9 is entered in heatable brick bed 4, thus right Heatable brick bed 4 is radiated, and the water in the coil pipe 7 passes sequentially through the 3rd loop branch pipe 10 and is recycled to the first water tank 5 and thermal-collecting tube 2 It is interior, and heated again in thermal-collecting tube 2, it is thusly-formed thermal cycle.

In evening, the water circulation schematic diagram of solar energy heatable brick bed system is as shown in figure 3, because without available solar energy, treating Hot water in first water tank 5 is flowed into after the second water tank 6, the list on closing first circulation arm 8 and the 3rd loop branch pipe 10 To valve 12, the check valve 12 on the 4th loop branch pipe 11 is opened, with water circulating pump 13 by the hot water in the second water tank 6 by the Two loop branch pipes 9 are squeezed in coil pipe 7, and heatable brick bed 4 is radiated, and the water in the coil pipe 7 passes through the 3rd loop branch pipe 10 and the 4th Loop branch pipe 11 is recycled in the second water tank 6, is thusly-formed thermal cycle.

The switch of each check valve 12, the switch of water circulating pump 13, the height of liquid level and temperature height in the present embodiment, Automatically controlled by controller.

The preferred embodiment of the invention is the foregoing is only, it is all at this not to limit the invention Within the spirit and principle of innovation and creation, any modification, equivalent substitution and improvements made etc. should be included in the invention Protection domain within.

Claims (6)

1. solar energy heatable brick bed system, it is characterised in that including heatable brick bed, solar thermal collector, insulating tube, the first water tank, second Water tank, coil pipe, circulation line and water circulating pump, the solar thermal collector includes solar panel and thermal-collecting tube, the solar panel For a reflective thin film parabolic-cylinder light plate, the thermal-collecting tube is fixedly arranged on the solar panel, the axis of the thermal-collecting tube with The focal line of the solar panel overlaps；

The coil pipe portion is located in the heatable brick bed；

Second water tank is connected with the water circulating pump；

The thermal-collecting tube, insulating tube, the first water tank, the second water tank are sequentially connected with circulation line.

2. solar energy heatable brick bed system according to claim 1, it is characterised in that the circulation line includes first circulation Pipe, second circulation arm, the 3rd loop branch pipe and the 4th loop branch pipe, the first circulation arm connects first water tank With the second water tank, the second circulation arm connects second water tank and coil pipe, and the 3rd loop branch pipe connects institute Coil pipe and the first water tank are stated, the 4th loop branch pipe connects the 3rd loop branch pipe and the second water tank；Each circulation Check valve is equipped with pipe.

3. solar energy heatable brick bed system according to claim 1, it is characterised in that the solar panel, thermal-collecting tube and the first storage Water pot is located outside, and second water tank is located at interior.

4. solar energy heatable brick bed system according to claim 1, it is characterised in that the solar thermal collector can be arranged parallel Multiple, the hot water of the plurality of solar thermal collector is pooled to first water tank by the insulating tube.

5. solar energy heatable brick bed system according to claim 1, it is characterised in that the insulating tube be PPR pipe, aluminium-plastic pipe or One kind in galvanized iron conduit.

6. solar energy heatable brick bed system according to claim 1, it is characterised in that the insulating tube is externally provided with muff, should Muff is a plastic outer tube, with polyurethane foam plastics entirety fill between the plastic outer tube and the insulating tube.