CN207350447U - Solar energy heating system - Google Patents

Abstract

The utility model preferred embodiment provides a kind of solar energy heating system.The system comprises controller, power set, energy storage canister, heat collector and heat exchanger.Energy storage canister, heat collector and heat exchanger are connected by pipeline, and controller is electrically connected with power set.Power set are used to make energy storage liquid circulate in energy storage canister, heat collector and heat exchanger.The energy storage canister between heat collector and heat exchanger is arranged on to be used to store energy storage liquid.Heat collector is used to absorb solar energy, and the solar energy of absorption is passed to the energy storage liquid for flowing through heat collector.Controller makes energy storage liquid in energy storage canister treat that heating space heats to be provided with heat exchanger by the heat exchange of heat exchanger by controlling the working statuses of power set.Thus, the system treats heating space using solar energy and heats, and the system has the characteristics that safety, cost are low, pollution-free.

Description

Solar energy heating system

Technical field

Heating technology field is the utility model is related to, in particular to a kind of solar energy heating system.

Background technology

At present, the heating system taken is broadly divided into coal-burning boiler heating, gas heating etc., although these heating system realities The purpose of heating is showed, but these heating systems still have several drawbacks.

Such as the influence due to heating corporate device, cause the thermal efficiency of coal not high, so that boiler fired coal heating needs Burn substantial amounts of fuel；In addition, substantial amounts of exhaust gas and waste residue can be also produced during fuel combustion, so as to be produced to environment Harmful effect；It is used to buy heating service and it also requires paying certain expense to heating company, adds living cost.And Gas heating is then that the liquid in heating boiler or wall-hung boiler is heated using the combustion gas in gas pipeline, so as to be supplied It is warm, but once there is security incident in this mode, will produce imponderable loss.

Solar energy is a kind of widely distributed regenerative resource, and has good security, economic benefit and ring The features such as protecting benefit.Therefore, how to provide a kind of device to heat using solar energy is that those skilled in the art are badly in need of solution Certainly the problem of.

Utility model content

In order to overcome above-mentioned deficiency of the prior art, technical problem to be solved in the utility model is to provide one kind too Positive energy heating system, it can absorb solar energy, and the solar energy of absorption is passed to energy storage liquid, so as to treat heating space Heat, have the characteristics that safety, cost are low, pollution-free.

The utility model preferred embodiment provides a kind of solar energy heating system, and the system comprises controller, power Device, energy storage canister, heat collector and heat exchanger,

The energy storage canister, heat collector and heat exchanger are connected by pipeline, and the controller and the power set are electrical Connection；

The power set are arranged between the energy storage canister, heat collector and heat exchanger, for making energy storage liquid in institute State and circulated in energy storage canister, heat collector and heat exchanger；

The energy storage canister is arranged between the heat collector and the heat exchanger, for storing energy storage liquid；

The heat collector is used to absorb solar energy, and the solar energy of absorption is passed to the energy-storage liquid for flowing through the heat collector Body；

The controller controls the working status of the power set, so that the energy storage liquid in the energy storage canister passes through institute State the heat exchange of heat exchanger and treat that heating space heats to be provided with the heat exchanger.

In the utility model preferred embodiment, the energy storage canister forms a liquid by pipeline with the heat exchanger and returns Road, the power set include the first water pump,

First water pump is arranged in the fluid loop that the energy storage canister and the heat exchanger are formed by pipeline, with The energy storage liquid is set to be flowed in the fluid loop that the energy storage canister is formed with the heat exchanger by pipeline.

In the utility model preferred embodiment, the energy storage canister forms a liquid by pipeline with the heat collector and returns Road, the power set further include the second water pump,

Second water pump is arranged in the fluid loop that the energy storage canister and the heat collector are formed by pipeline, so that The energy storage liquid flows in the fluid loop that the energy storage canister is formed with the heat collector by pipeline.

In the utility model preferred embodiment, the system also includes：

It is arranged on the first temperature sensor for treating heating space and is arranged on the energy storage canister and passes through with the heat exchanger The first valve in the fluid loop that pipeline is formed；

First temperature sensor and the first valve are electrically connected with the controller respectively；

The controller is according to the temperature that first temperature sensor detects by controlling first water pump and first The working status of valve, controls the liquid that the energy storage liquid is formed in the energy storage canister and the heat exchanger by pipeline to return The speed flowed in road.

In the utility model preferred embodiment, the system also includes：

The second valve being arranged in the fluid loop that the energy storage canister and the heat collector are formed by pipeline；

Second valve is electrically connected with the controller；

The controller controls the energy storage liquid to exist by controlling the working status of first valve and the second valve Flowed in the fluid loop that the heat collector, energy storage canister and heat exchanger are formed by pipeline, or the control energy storage liquid exists Flowed in the fluid loop that the energy storage canister is formed with the heat exchanger by pipeline.

In the utility model preferred embodiment, the heat collector, energy storage canister and the heat exchanger are connected by pipeline A fluid loop is formed,

The power set are arranged on the heat collector, energy storage canister and the heat exchanger and the liquid to be formed are connected by pipeline In body circuit, so that the energy storage liquid connects what is formed in the heat collector, energy storage canister and the heat exchanger by pipeline Flowed in fluid loop.

In the utility model preferred embodiment, the system also includes：

It is arranged on and is used for the second temperature sensor and use that detect energy storage fluid temperature in tank body in the energy storage tank The heating member that energy storage liquid is heated in tank body；

The second temperature sensor and the heating member are electrically connected with the controller respectively；

The working status of controller heating member according to the temperature control that the second temperature sensor detects.

In the utility model preferred embodiment, the heat collector includes：

For absorbing the thermal-collecting tube of solar energy；

Make the thermal-collecting tube and the first support of horizontal plane one predetermined angle of formation for fixing the thermal-collecting tube；

For controlling the first support to carry out rotating runner assembly；

The runner assembly is electrically connected with the controller, for controlling the thermal-collecting tube being fixed in the first support Orientation.

In the utility model preferred embodiment, the heat collector further includes focus pack, and the focus pack is arranged on The thermal-collecting tube will be applied on the thermal-collecting tube backwards to the side of the sun, the focus pack after solar light focusing.

In the utility model preferred embodiment, the heat collector includes：

For absorbing more thermal-collecting tubes of solar energy；

The second support for making the more thermal-collecting tubes with the horizontal a default angle for fixing the more thermal-collecting tubes；

For the header connected with described more thermal-collecting tube one end, energy storage liquid and the more thermal-arrests in the header Energy storage liquid in pipe carries out Natural Circulation；

The header is connected by pipeline with the energy storage canister.

In terms of existing technologies, the utility model has the advantages that：

The utility model preferred embodiment provides a kind of solar energy heating system.The system comprises controller, power Device, energy storage canister, heat collector and heat exchanger.Wherein, the energy storage canister, heat collector and heat exchanger are connected by pipeline, institute Controller is stated to be electrically connected with the power set.The power set are arranged on the energy storage canister, heat collector and heat exchanger Between, so that energy storage liquid circulates in the energy storage canister, heat collector and heat exchanger.For storing the storage of energy storage liquid Energy tank is arranged between the heat collector and the heat exchanger.The heat collector is used to absorb solar energy, flows through the thermal-arrest The solar energy of heat collector transmission described in the energy storage Liquid acquisition of device.The controller is by controlling the work shapes of the power set State, makes the energy storage liquid in the energy storage canister flow to the heat exchanger through the energy storage canister.And then pass through the heat exchanger Heat exchange realize the purpose treated heating space and heated to being provided with the heat exchanger.Thus, using solar energy pair Treat that heating space heats, whole heating process does not have toxic and harmful gas generation, while need not be paid to heating company The expense of purchase heating service.In addition, solar energy is a kind of inexhaustible energy, will not be subject to the shadow of energy scarcity Ring.

To enable the above-mentioned purpose of utility model, feature and advantage to become apparent, the utility model cited below particularly is preferable Embodiment, and attached drawing appended by cooperation, are described in detail below.

Brief description of the drawings

, below will be to required use in embodiment in order to illustrate more clearly of the technical solution of the utility model embodiment Attached drawing be briefly described, it will be appreciated that the following drawings illustrate only some embodiments of the utility model, therefore should not be by Regard the restriction to scope as, for those of ordinary skill in the art, without creative efforts, may be used also To obtain other relevant attached drawings according to these attached drawings.

Fig. 1 is the block diagram for the solar energy heating system that the utility model preferred embodiment provides.

Fig. 2 is the block diagram of power set in Fig. 1.

Fig. 3 is one of structure diagram of solar energy heating system that the utility model preferred embodiment provides.

Fig. 4 is one of part block diagram of solar energy heating system that the utility model preferred embodiment provides.

Fig. 5 is the second structural representation for the solar energy heating system that the utility model preferred embodiment provides.

Fig. 6 is the two of the part block diagram for the solar energy heating system that the utility model preferred embodiment provides.

Fig. 7 is one of structure diagram of heat collector that the utility model preferred embodiment provides.

Fig. 8 is the second structural representation for the heat collector that the utility model preferred embodiment provides.

Icon：100- solar energy heating systems；The first temperature sensors of 101-；102- second temperature sensors；105- One valve；106- heating members；The second valves of 107-；110- controllers；120- power set；The first water pumps of 121-；122- second Water pump；130- energy storage canisters；The first liquid outlets of 131-；The second liquid outlets of 132-；The first inlets of 134-；The second inlets of 135-； 140- heat collectors；141- thermal-collecting tubes；142- first supports；143- runner assemblies；144- focus packs；146- second supports； 147- headers；150- heat exchangers.

Embodiment

Below in conjunction with attached drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out clear Chu, be fully described by, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole realities Apply example.The component of the utility model embodiment being usually described and illustrated herein in the accompanying drawings can be come with a variety of configurations Arrangement and design.

Therefore, requirement is not intended to limit to the detailed description of the embodiment of the utility model provided in the accompanying drawings below The scope of the utility model of protection, but it is merely representative of the selected embodiment of the utility model.Reality based on the utility model Example is applied, those skilled in the art's all other embodiments obtained on the premise of creative work is not made, belong to The scope of the utility model protection.

It should be noted that：Similar label and letter represents similar terms in following attached drawing, therefore, once a certain Xiang Yi It is defined, then it further need not be defined and explained in subsequent attached drawing in a attached drawing.

, it is necessary to explanation in the description of the utility model, term " " center ", " on ", " under ", it is "left", "right", " perpendicular Directly ", the orientation of the instruction such as " level ", " interior ", " outer " or position relationship be based on orientation shown in the drawings or position relationship, or The utility model product using when the orientation usually put or position relationship, be for only for ease of description the utility model and letter Change description, rather than instruction or imply signified device or element must have specific orientation, with specific azimuth configuration and Operation, therefore it is not intended that limitation to the utility model.In addition, term " first ", " second ", " the 3rd " etc. are only used for area Divide description, and it is not intended that instruction or hint relative importance.

In addition, the term such as term " level ", " vertical ", " pendency " is not offered as requiring component abswolute level or pendency, and It is to be slightly tilted.Such as " level " only refers to that its direction is more horizontal with respect to for " vertical ", is not to represent the structure Have to fully horizontally, but can be slightly tilted.

In the description of the utility model, it is also necessary to which explanation, unless otherwise clearly defined and limited, term " are set Put ", " installation ", " connected ", " connection " should be interpreted broadly, for example, it may be fixedly connected or be detachably connected, Or it is integrally connected；Can mechanically connect or be electrically connected；It can be directly connected, intermediary can also be passed through It is indirectly connected, can is the connection inside two elements.For the ordinary skill in the art, can be managed with concrete condition Solve concrete meaning of the above-mentioned term in the utility model.

Below in conjunction with the accompanying drawings, elaborate to some embodiments of the utility model.In the case where there is no conflict, under Feature in the embodiment and embodiment stated can be mutually combined.

Fig. 1 is refer to, Fig. 1 is the square frame signal for the solar energy heating system 100 that the utility model preferred embodiment provides Figure.The solar energy heating system 100 includes controller 110, power set 120, energy storage canister 130, heat collector 140 and heat exchange Device 150.The controller 110 is electrically connected with the power set 120, the energy storage canister 130, heat collector 140 and heat exchange Device 150 is connected by pipeline.

In the present embodiment, the power set 120 are arranged on the energy storage canister 130, heat collector 140 and heat exchanger Between 150.The power set 120 it is specific set position can be the energy storage canister 130 and the heat collector 140 it Between or between the energy storage canister 130 and the heat exchanger 150.The power set 120 are used to carry for energy storage liquid For power, so that the energy storage liquid circulates in the energy storage canister 130, heat collector 140 and heat exchanger 150.

In the present embodiment, the energy storage canister 130 is arranged between the heat collector 140 and the heat exchanger 150.Institute Energy storage canister 130 is stated to be used to store energy storage liquid.The heat collector 140 is used to absorb solar energy, and by the solar energy transmission of absorption To the energy storage liquid for flowing through the heat collector 140.

In the present embodiment, the controller 110 controls the working status of the power set 120, so that the energy storage Energy storage liquid in tank 130 treats that heating is empty by the heat exchange of the heat exchanger 150 to be provided with the heat exchanger 150 Between heat.Hereby it is achieved that using the sun be treat heating space heating purpose.

Wherein, the analysis system analyzed the data of reception, handled, the control are stored with the controller 110 Device 110 processed runs the analysis system, and the device (such as power set 120) in the solar energy heating system 100 is carried out Control, thus obtain corresponding control result (such as accelerate energy storage liquid the energy storage canister 130, heat collector 140 and heat hand over Circulation rate in parallel operation 150).

Wherein, the energy storage liquid includes antiscaling fluid, anti-cold night, to avoid there is the solar energy heating system 100 In part of devices there is a situation where incrustation scale, and avoid in the case where temperature is extremely low, the energy storage liquid curing.The storage Energy liquid can be water or other nontoxic liquid.

In the present embodiment, the heat collector 140, energy storage canister 130 and heat exchanger 150 have different connection modes.Under Connection mode in face of the heat collector 140, energy storage canister 130 and heat exchanger 150 is illustrated.

Refer to Fig. 2 and Fig. 3, Fig. 2 be power set 120 in Fig. 1 block diagram.Fig. 3 is that the utility model is preferable One of structure diagram of solar energy heating system 100 that embodiment provides.The power set 120 include the first water pump 121.

In an embodiment of the present embodiment, the energy storage canister 130 is formed with the heat exchanger 150 by pipeline One fluid loop.First water pump 121 is arranged on what the energy storage canister 130 was formed with the heat exchanger 150 by pipeline In fluid loop, so that the liquid that the energy storage liquid is formed in the energy storage canister 130 and the heat exchanger 150 by pipeline Flowed in circuit.

Wherein, the first liquid outlet 131 and the first inlet 134 are provided with the energy storage canister 130.The energy storage canister 130 The energy storage liquid of high temperature is flowed out through first liquid outlet 131, into the heat exchanger 150.Through the heat exchanger 150 The energy storage liquid of outflow flows into institute's energy storage canister 130 through first inlet 134.First water pump 121 can be arranged on use In connecting in pipeline of first liquid outlet 131 with the heat exchanger 150, it can also be arranged on and be handed over for connecting the heat In the pipeline of parallel operation 150 and first inlet 134.

Referring once again to Fig. 2 and Fig. 3, the energy storage canister 130 forms a liquid by pipeline with the heat collector 140 and returns Road.The power set 120 further include the second water pump 122.Second water pump 122 be arranged on the energy storage canister 130 with it is described In the fluid loop that heat collector 140 is formed by pipeline, so that the energy storage liquid is in the energy storage canister 130 and the heat collector Flowed in 140 fluid loops formed by pipeline.

Wherein, the second liquid outlet 132 and the second inlet 135 are additionally provided with the energy storage canister 130.The energy storage canister The energy storage liquid of heating is needed to be flowed into through second liquid outlet 132 in the heat collector 140 in 130.It is high in the heat collector 140 The energy storage liquid of temperature flows into the energy storage canister 130 through second inlet 135.Second water pump 122 can be arranged on use In connecting in pipeline of second liquid outlet 132 with the heat collector 140, can also be arranged on for connecting the heat collector 140 with the pipeline of second inlet 135.

Refer to Fig. 3 and Fig. 4, Fig. 4 be the solar energy heating system 100 that the utility model preferred embodiment provides part One of block diagram.The solar energy heating system 100 further includes the first temperature sensor 101 and the first valve 105.

In the present embodiment, first temperature sensor 101, which is arranged on, treats in heating space, first temperature sensing Device 101 is used to detect the temperature for treating heating space.First valve 105 is arranged on the energy storage canister 130 and the heat In the fluid loop that exchanger 150 is formed by pipeline.

Wherein, first temperature sensor 101 and first valve 105 electrically connect with the controller 110 respectively Connect.The controller 110 power set 120 and first according to the temperature control that first temperature sensor 101 detects The working status of valve 105.Such as when the temperature of the first temperature sensor 101 detection is less than default heating temperature, the control Device 110 processed controls the aperture of first valve 105 to become larger, while controls the power set 120 to work, to accelerate energy-storage liquid The circulation of body, so as to treat that heating space heats.And the temperature in the detection of the first temperature sensor 101 heats higher than default During temperature, the controller 110 controls the aperture of first valve 105 to diminish, while adjusts the shape of the power set 120 State, to reduce the circulation rate of energy storage liquid, so as to reduce the temperature for treating heating space.The default heating temperature can basis Concrete condition is set.

Referring once again to Fig. 3 and Fig. 4.The solar energy heating system 100 can also include the second valve 107.Described Two valves 107 are arranged in the fluid loop that the energy storage canister 130 and the heat collector 140 are formed by pipeline.

Wherein, second valve 107 is electrically connected with the controller 110.The controller 110 is by adjusting described The working status of first valve 105 and the second valve 107, makes the energy storage liquid be flowed in different fluid loops.

For example when solar irradiation is sufficient, 105 and second valve 107 of the first valve is in open mode, energy-storage liquid Body flows in the fluid loop that the heat collector 140, energy storage canister 130 and heat exchanger 150 are formed by pipeline.Thus, lead to The heat collector 140 is crossed to heat the energy storage liquid, and then to treat that heating space heats.

And when solar irradiation is inadequate (such as evening, rainy days etc.), first valve 105 is in open mode, Second valve 107 is closed, and energy storage liquid is formed in the energy storage canister 130 and heat exchanger 150 by pipeline Fluid loop in flow.Thus, heating sky is treated by the elevated energy storage liquid of temperature stored in the energy storage canister 130 Between heat, avoid the energy storage liquid from flowing to the energy storage canister 130 through the heat collector 140 again, so as to cause heat to damage Lose.

Fig. 5 is refer to, Fig. 5 is the structural representation for the solar energy heating system 100 that the utility model preferred embodiment provides The two of figure.In the another embodiment of the present embodiment, the heat collector 140, energy storage canister 130 and the heat exchanger 150 Connect to form a fluid loop by pipeline.The power set 120 are arranged on the heat collector 140, energy storage canister 130 and described Heat exchanger 150 is connected by pipeline in the fluid loop to be formed, so that the energy storage liquid is in the heat collector 140, energy storage Tank 130 and the heat exchanger 150 are connected by pipeline to be flowed in the fluid loop to be formed.

Wherein, the power set 120 can be arranged between the energy storage canister 130 and the heat exchanger 150, also may be used To be arranged between the heat exchanger 150 and the heat collector 140, the heat collector 140 and the storage can also be arranged on Between energy tank 130.Thus, by setting power set 120 to accelerate the flowing of energy storage liquid.Meanwhile make through the heat exchanger The energy storage liquid of 150 outflows flows directly into the heat collector 140, it is possible to reduce energy storage liquid energy scatters and disappears.

Fig. 6 is refer to, Fig. 6 is the part square frame for the solar energy heating system 100 that the utility model preferred embodiment provides The two of schematic diagram.In the present embodiment, the solar energy heating system 100 includes second temperature sensor 102 and heating member 106。

Wherein, the second temperature sensor 102 and heating member 106 are electrically connected with the controller 110 respectively.It is described Second temperature sensor 102 and the heating member 106 are arranged in 130 tank body of energy storage canister.The second temperature sensing Device 102 is used for the temperature for detecting energy storage liquid in the energy storage canister 130.The controller 110 is in the second temperature sensor When the temperature of 102 detections is higher than the temperature of default energy storage liquid, the heating member 106 is controlled to close.The controller 110 is in institute When stating the temperature of the detection of second temperature sensor 102 less than the temperature for presetting energy storage liquid, the heating member 106 is controlled to work, To heat the energy storage liquid.The temperature of the default energy storage liquid can be set as the case may be.

In the embodiment of the present embodiment, the second temperature sensor 102 and heating member 106 are arranged at the storage The middle position of energy 130 tank body of tank, passes through above-mentioned setting so that the second temperature sensor 102 and the work of heating member 106 It is more preferable to make effect.Wherein, the heating member 106 can be electrical bar.

The concrete structure of heat collector 140 is illustrated below.

Fig. 7 is refer to, Fig. 7 is one of structure diagram of heat collector 140 that the utility model preferred embodiment provides.Institute Stating heat collector 140 includes thermal-collecting tube 141 and first support 142.The thermal-collecting tube 141 is used to absorb solar energy, the thermal-collecting tube 141 quantity is one.The first support 142 is used to fix the thermal-collecting tube 141, makes the thermal-collecting tube 141 and horizontal plane In a default angle.Wherein, presetting the occurrence of angle can set according to local conditions, so that the thermal-collecting tube 141 Heat-collecting effect reach best.

In the present embodiment, the heat collector 140 can also include runner assembly 143.The runner assembly 143 with it is described First support 142 connects.The runner assembly 143 is electrically connected with the controller 110.The controller 110 is according to locality The sun track by controlling the runner assembly 143 to rotate, and then control the orientation of the thermal-collecting tube 141 so that So that the thermal-collecting tube 141 towards sunlight to receive solar energy.

In the present embodiment, the heat collector 140 can also include focus pack 144.The focus pack 144 is arranged on The thermal-collecting tube 141 is used for solar light focusing backwards to the side of the sun, the focus pack 144 and is applied to the thermal-collecting tube On 141.

Wherein, the focus pack 144 can be arranged on the horizontal plane at the place of heat collector 140, can also be set In the first support 142.When the focus pack 144 is arranged in the first support 142, the first support 142 drive the focus pack 144 to rotate.The quantity of the focus pack 144 can be set according to local light conditions It is fixed.

Fig. 8 is refer to, Fig. 8 is the second structural representation for the heat collector 140 that the utility model preferred embodiment provides.Institute Stating heat collector 140 includes thermal-collecting tube 141, second support 146 and header 147.

In the present embodiment, the thermal-collecting tube 141 is used to absorb solar energy, and the quantity of the thermal-collecting tube 141 is more.It is more Thermal-collecting tube 141 described in root is fixed in the second support 146.The second support 146 makes the more thermal-collecting tubes 141 and water Plane is in a default angle.The header 147 is connected with one end of the more thermal-collecting tubes 141, the energy storage in the header 147 Liquid carries out Natural Circulation with the energy storage liquid in the more thermal-collecting tubes 141.The header 147 passes through pipeline and the energy storage Tank 130 connects.

Wherein, thermal-collecting tube 141 receives solar radiation, and the solar radiation through collection is converted into thermal energy, and passes to thermal-collecting tube Energy storage liquid in 141.Since the proportion of the energy storage liquid of low temperature is more great than the ratio of the energy storage liquid of high temperature, the energy-storage liquid of high temperature Know from experience and ascend into header 147 automatically, the energy storage liquid of low temperature declines.Thus, the energy storage liquid in the header 147 with more Energy storage liquid in the thermal-collecting tube 141 carries out Natural Circulation.

In conclusion the utility model embodiment provides a kind of solar energy heating system.The system comprises controller, Power set, energy storage canister, heat collector and heat exchanger.The controller is electrically connected with the power set.The energy storage canister, Heat collector and heat exchanger are realized by pipeline to be connected.Wherein, the power set are arranged on the energy storage canister, heat collector and heat Between exchanger, for providing power to energy storage liquid, so that energy storage liquid is in the energy storage canister, heat collector and heat exchanger Circulation.The energy storage canister is arranged between the heat collector and the heat exchanger, for storing energy storage liquid.The heat collector For absorbing solar energy, and the solar energy of absorption is passed to the energy storage liquid for flowing through the heat collector.The controller control The working status of the power set, so that the energy storage liquid in the energy storage canister is set by the heat exchange pair of the heat exchanger Be equipped with the heat exchanger treats that heating space heats.

Thus, the system absorbs solar energy, and the solar energy of absorption is passed to energy storage liquid.And then make energy storage liquid Heat exchanger is flowed through, treats that heating space heats to be provided with heat exchanger by the heat exchange of heat exchanger, it is whole to supply Warm process has the characteristics that safety, cost are low, pollution-free.

The above descriptions are merely preferred embodiments of the present invention, is not intended to limit the present invention, for this For the technical staff in field, various modifications and changes may be made to the present invention.It is all in the spirit and principles of the utility model Within, any modification, equivalent replacement, improvement and so on, should be included within the scope of protection of this utility model.

Claims (10)

1. a kind of solar energy heating system, it is characterised in that the system comprises controller, power set, energy storage canister, heat collector And heat exchanger,

The energy storage canister, heat collector and heat exchanger are connected by pipeline, and the controller is electrically connected with the power set；

The power set are arranged between the energy storage canister, heat collector and heat exchanger, for making energy storage liquid in the storage It can be circulated in tank, heat collector and heat exchanger；

The energy storage canister is arranged between the heat collector and the heat exchanger, for storing energy storage liquid；

The heat collector is used to absorb solar energy, and the solar energy of absorption is passed to the energy storage liquid for flowing through the heat collector；

The controller controls the working status of the power set, so that the energy storage liquid in the energy storage canister passes through the heat The heat exchange of exchanger treats that heating space heats to be provided with the heat exchanger.

2. system according to claim 1, it is characterised in that the energy storage canister is formed with the heat exchanger by pipeline One fluid loop, the power set include the first water pump,

First water pump is arranged in the fluid loop that the energy storage canister and the heat exchanger are formed by pipeline, so that institute Energy storage liquid is stated to flow in the fluid loop that the energy storage canister is formed with the heat exchanger by pipeline.

3. system according to claim 2, it is characterised in that the energy storage canister forms one with the heat collector by pipeline Fluid loop, the power set further include the second water pump,

Second water pump is arranged in the fluid loop that the energy storage canister and the heat collector are formed by pipeline, so that described Energy storage liquid flows in the fluid loop that the energy storage canister is formed with the heat collector by pipeline.

4. system according to claim 2, it is characterised in that the system also includes：

It is arranged on the first temperature sensor for treating heating space and is arranged on the energy storage canister and passes through pipeline with the heat exchanger The first valve in the fluid loop of formation；

First temperature sensor and the first valve are electrically connected with the controller respectively；

The controller is according to the temperature that first temperature sensor detects by controlling first water pump and the first valve Working status, control the energy storage liquid in the fluid loop that the energy storage canister and the heat exchanger are formed by pipeline The speed of flowing.

5. system according to claim 4, it is characterised in that the system also includes：

The second valve being arranged in the fluid loop that the energy storage canister and the heat collector are formed by pipeline；

Second valve is electrically connected with the controller；

The controller controls the energy storage liquid described by controlling the working status of first valve and the second valve Flowed in the fluid loop that heat collector, energy storage canister and heat exchanger are formed by pipeline, or the control energy storage liquid is described Flowed in the fluid loop that energy storage canister is formed with the heat exchanger by pipeline.

6. system according to claim 1, it is characterised in that the heat collector, energy storage canister and the heat exchanger pass through Pipeline connects to form a fluid loop,

The power set are arranged on the heat collector, energy storage canister and the heat exchanger and the liquid to be formed time are connected by pipeline Lu Zhong, so that the energy storage liquid connects the liquid to be formed by pipeline in the heat collector, energy storage canister and the heat exchanger Flowed in circuit.

7. system according to claim 1, it is characterised in that the system also includes：

Be arranged in the energy storage tank be used to detect in tank body the second temperature sensor of energy storage fluid temperature and for pair The heating member that energy storage liquid is heated in tank body；

The second temperature sensor and the heating member are electrically connected with the controller respectively；

The working status of controller heating member according to the temperature control that the second temperature sensor detects.

8. according to the system described in any one in claim 1-7, it is characterised in that the heat collector includes：

For absorbing the thermal-collecting tube of solar energy；

Make the thermal-collecting tube and the first support of horizontal plane one predetermined angle of formation for fixing the thermal-collecting tube；

For controlling the first support to carry out rotating runner assembly；

The runner assembly is electrically connected with the controller, for controlling the side for the thermal-collecting tube being fixed in the first support Position direction.

9. system according to claim 8, it is characterised in that the heat collector further includes focus pack, the focusing group Part is arranged on the thermal-collecting tube will be applied to the thermal-collecting tube backwards to the side of the sun, the focus pack after solar light focusing On.

10. according to the system described in any one in claim 1-7, it is characterised in that the heat collector includes：

For absorbing more thermal-collecting tubes of solar energy；

The second support for making the more thermal-collecting tubes with the horizontal a default angle for fixing the more thermal-collecting tubes；

For the header connected with described more thermal-collecting tube one end, in the energy storage liquid and the more thermal-collecting tubes in the header Energy storage liquid carry out Natural Circulation；

The header is connected by pipeline with the energy storage canister.