CN208419242U - A kind of heat storage structure and photovoltaic and photothermal all-in-one machine - Google Patents

Abstract

This application involves solar energy generation technology fields, more particularly to a kind of heat storage structure and the photovoltaic and photothermal all-in-one machine with the heat storage structure, heat storage structure includes: heat accumulation storehouse, at least one air flow inlet and at least one air stream outlet, multiple heat conducting elements, the one side in heat accumulation storehouse is opening, multiple heat conducting elements surround airflow channel according to default arrangement mode in the space between heat accumulation storehouse and solar power generation component, and airflow channel is connected to air flow inlet and air stream outlet respectively.In solar power generation component side, the heat in heat accumulation storehouse can be taken away the setting of heat accumulation storehouse by forming circulation with external air flow with air stream outlet by air flow inlet, realize the heat recovery to solar power generation component；Such as indoor heating, drying, the heating of life water etc.；To recycle solar power generation component dispersed heat, the utilization rate of solar energy is promoted；The temperature of solar power generation component can be quickly reduced simultaneously, guarantee solar energy generating efficiency.

Description

A kind of heat storage structure and photovoltaic and photothermal all-in-one machine

Technical field

This application involves solar energy generation technology field more particularly to a kind of heat storage structure and photovoltaic and photothermal all-in-one machines.

Background technique

With the development of world industry, the resources such as petroleum, natural gas, coal are in exhaustion day by day, and the mankind are to resource Thinking is so that solar utilization technique obtains very big development.Solar cell module is most important as solar energy power generating Photoelectric device occupies an important position in photovoltaic power generation, the practice of Photovoltaic Building Integration.

It is synchronous in solar power generation component power generation process to generate heat, according to mounting location difference, by component backboard or Foreboard and outdoor air carry out circulation and then radiate, and maintain the temperature and generating efficiency of component itself.Solar power generation group The heat being lost in air in part power generation process can not recycle, and lead to the solar energy composite of solar power generation component entirety Utilization rate is relatively low.

Utility model content

In order to solve the above-mentioned technical problem or it at least is partially solved above-mentioned technical problem, this application provides a kind of storages Heat structure and photovoltaic and photothermal all-in-one machine.

This application provides a kind of heat storage structures, are applied to photovoltaic and photothermal all-in-one machine, comprising: heat accumulation storehouse is arranged described At least one air flow inlet and at least one air stream outlet, multiple heat conducting elements in the heat accumulation storehouse on heat accumulation storehouse, The one side in the heat accumulation storehouse is opening, and the setting of solar power generation component is in the open-mouth, and multiple heat conducting elements are and institute State the connection of solar power generation component；Sky of multiple heat conducting elements between the heat accumulation storehouse and the solar power generation component Interior to surround airflow channel according to default arrangement mode, the airflow channel connects with the air flow inlet and air stream outlet respectively It is logical.

Optionally, the heat accumulation storehouse has an air flow inlet and an air stream outlet, the air flow inlet It is separately positioned on two opposite faces in the heat accumulation storehouse with the air stream outlet.

Optionally, multiple heat conducting elements, which are divided into, is parallel to each other and spaced multiple first heat conducting element groups and more A second heat conducting element group, the first heat conducting element group and the second heat conducting element group all have two heat conducting elements；Position In one end of two heat conducting elements in the first heat conducting element group, opposite and distance is d, the other end and the heat accumulation Gap is equipped between the inner wall in storehouse；One end of two heat conducting elements in the second heat conducting element group it is opposite and Distance is D, and the other end is connected on the inner wall in the heat accumulation storehouse；Wherein, d < D.

Optionally, multiple heat conducting elements, which are divided into, is parallel to each other and spaced multiple first heat conducting element groups and more A second heat conducting element group；The first heat conducting element group include a heat conducting element, the both ends of the heat conducting element with it is described Gap is equipped between the inner wall in heat accumulation storehouse；The second heat conducting element group includes two heat conducting elements, two thermally conductive members One end of part is opposite and interval setting, the other end are connected on two opposite inner walls in the heat accumulation storehouse.

Optionally, multiple heat conducting elements, which are divided into, is parallel to each other and spaced multiple first heat conducting element groups and more A second heat conducting element group, the first heat conducting element group and the second heat conducting element group all have a heat conducting element, and described the One end of heat conducting element in one heat conducting element group is connect with first inner wall in the heat accumulation storehouse, in the second heat conducting element group One end of heat conducting element connect with second inner wall in the heat accumulation storehouse, first inner wall and second inner wall are the storage Two opposite inner walls of hot storehouse.

Optionally, the section of the heat conducting element is L shape, a side of the heat conducting element by heat-conducting glue with it is described The connection of solar power generation component, the heat accumulation storehouse is protruded into another side of the heat conducting element.

Optionally, the heat accumulation storehouse includes: that bottom insulating layer, multiple side insulating layers, side top are sent out with the solar energy respectively Multiple frame sections that the edge of electrical component connects and head and the tail sequentially splice, the bottom of multiple shape of peripheral frame are protected with the bottom The edge of warm layer is clamped, and is provided with the card slot to match with the side insulating layer on the inside of each shape of peripheral frame.

Optionally, spliced between two end to end shape of peripheral frame by connector.

Optionally, the end of the shape of peripheral frame is equipped with corner brace card slot, and the connector is equipped with and the corner brace card The corner brace that slot matches.

Present invention also provides a kind of photovoltaic and photothermal all-in-one machines, including heat storage structure as described above.

Above-mentioned technical proposal provided by the embodiments of the present application has the advantages that the storage of heat storage structure compared with prior art Hot storehouse is arranged in solar power generation component side, the heat that will be discharged in solar power generation component power generation process by heat conducting element It imports and is collected into heat accumulation storehouse；Heat conducting element surrounds airflow channel in heat accumulation storehouse, by air flow inlet and air stream outlet with External air flow forms circulation, the heat recovery and utilization that can will be discharged in solar power generation component power generation process in this way, for example uses In indoor heating, drying, the heating of life water etc.；To recycle solar power generation component dispersed heat, the sun is promoted The utilization rate of energy；The temperature of solar power generation component can be quickly reduced simultaneously, guarantee solar energy generating efficiency.Photovoltaic and photothermal one Body machine has multiple solar power generation components, and each solar power generation component all has above-mentioned heat storage structure, can not influence too In the case that sun can generate electricity, heat that effective recycling solar power generation component distributes.

Detailed description of the invention

The drawings herein are incorporated into the specification and forms part of this specification, and shows the implementation for meeting the application Example, and together with specification it is used to explain the principle of the application.

In order to illustrate the technical solutions in the embodiments of the present application or in the prior art more clearly, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, for those of ordinary skill in the art Speech, without any creative labor, is also possible to obtain other drawings based on these drawings.

Fig. 1 is the top view of heat storage structure described in the embodiment of the present application one；

Fig. 2 is the sectional view along A-A of Fig. 1；

Fig. 3 is the partial enlarged view of C in Fig. 2；

Fig. 4 is the B-B direction cross-sectional view of Fig. 1；

Fig. 5 is the partial enlarged view of D in Fig. 4；

Fig. 6 is the top view of heat storage structure described in the embodiment of the present application two；

Fig. 7 is the top view of heat storage structure described in the embodiment of the present application three.

Wherein, 1, shape of peripheral frame；2, solar power generation component；3, structure glue；4, side insulating layer；5, bottom insulating layer；6, it stores up Hot chamber；7, heat conducting element；81, air flow inlet；82, air stream outlet；9, connector；10, heat-conducting glue.

Specific embodiment

It, below will be in the embodiment of the present application to keep the purposes, technical schemes and advantages of the embodiment of the present application clearer Technical solution be clearly and completely described, it is clear that described embodiment is a part of the embodiment of the application, without It is whole embodiments.Based on the embodiment in the application, those of ordinary skill in the art are not making creative work Under the premise of every other embodiment obtained, shall fall in the protection scope of this application.

Fig. 1,6,7 respectively show the embodiment of 3 kinds of heat storage structures, and difference is distribution and the air-flow stream of heat conducting element 7 To.

As shown in Fig. 1,2,4, this application provides a kind of heat storage structures, are applied to photovoltaic and photothermal all-in-one machine, comprising: heat accumulation It is storehouse, at least one air flow inlet 81 being arranged on heat accumulation storehouse and at least one air stream outlet 82, multiple in heat accumulation storehouse Heat conducting element 7, the one side in heat accumulation storehouse are opening, and the setting of solar power generation component 2 is in open-mouth, and multiple heat conducting elements 7 are and too Positive energy electrification component 2 connects；Multiple heat conducting elements 7 are in the space between heat accumulation storehouse and solar power generation component 2 according to default Arrangement mode surrounds airflow channel, and airflow channel is connected to air flow inlet 81 and air stream outlet 82 respectively.Solar power generation component 2 During carrying out solar power generation, dispersed heat can be converged in the air in heat accumulation storehouse；Heat conducting element 7 is directly and too Positive energy electrification component 2 connects, for example is bonded by heat-conducting glue 10, and the heat that solar power generation component 2 generates can be transmitted directly To heat conducting element 7；It can be with the hot-air and heat conducting element 7 in heat accumulation storehouse by the gas that air flow inlet 81 enters heat accumulation storehouse Between carry out heat exchange, then from air stream outlet 82 flow out, by 2 dispersed heat of solar power generation component recycle, such as It is sent into interior to be warmed oneself, dried, or for heating domestic water etc., promotes the utilization rate of solar energy；It simultaneously can be quick The temperature of solar power generation component 2 is reduced, guarantees solar energy generating efficiency.

If 2 area of solar power generation component is larger, multiple air stream outlets 81 and air stream outlet 82, heat accumulation storehouse can be set Interior to be respectively enclosed to multiple airflow channels by region, each airflow channel connects an air flow inlet 81 and an air stream outlet 82； Certainly it is also not excluded for using an airflow channel while connecting the structure of multiple air flow inlets 81 and air stream outlet 82 or multiple Airflow channel connects the structure of an air flow inlet 81 and an air stream outlet 82.

Here solar power generation component 2 refers to solar energy film component, is also possible to the crystal silicons such as monocrystalline silicon, polysilicon Component, solar power generation component 2 4-15mm of thickness, preferably 9-15mm.

As shown in Fig. 1,6,7, heat accumulation storehouse has an air flow inlet 81 and an air stream outlet 82, air flow inlet 81 and gas Outflux 82 is separately positioned on two opposite faces in heat accumulation storehouse.One or more is surrounded in heat accumulation storehouse using heat conducting element 7 Airflow channel, the both ends of airflow channel are connect with air flow inlet 81 and air stream outlet 82, and two interfaces are only arranged in heat accumulation storehouse, side Just with the connection of exterior line.

As shown in Figure 1, multiple heat conducting elements 7 divide to be parallel to each other and spaced multiple first heat conducting element groups and more A second heat conducting element group, the first heat conducting element group and the second heat conducting element group all have two heat conducting elements 7；It is led positioned at first One end of two heat conducting elements 7 in thermal element group is opposite and distance is d, the other end and the heat accumulation storehouse of two heat conducting elements 7 Gap is equipped between inner wall；One end of two heat conducting elements 7 in the second heat conducting element group is opposite and distance is D, and two The other end of a heat conducting element 7 is connected on two opposite inner walls in heat accumulation storehouse；Wherein, d < D.First heat conducting element Group is parallel to each other with the second heat conducting element group refers to the two overall structure in parastate, the direction of internal heat conducting element 7 It can be configured, in the present embodiment, be parallel to each other between heat conducting element 7 as needed；This is a kind of preferred embodiment, Fraction can pass through from the centre of the first heat conducting element group, and fraction can be divided to the first heat conducting element group and heat accumulation Gap between the inner wall of storehouse, then the gap location in the middle part of the second heat conducting element group passes through, by this method successively by subsequent Multiple first heat conducting element groups and the second heat conducting element group realize the heat exchange between gas and heat conducting element 7.Specific implementation In, the range of d is 8-10mm, and the range of D is 80-120mm, and the heat conducting element 7 in the first heat conducting element group arrives heat accumulation storehouse inner wall The distance between range be 40-60mm, the distance between heat conducting element 7 of adjacent heat conducting element group range be 80-100mm.It leads Thermal element 7 is parallel to each other, and when air-flow passes through the channel between two pieces of adjacent heat conducting elements 7, channel cross-sectional area is identical, air-flow velocity Stablize, it is convenient carry out with solar power generation component 2, heat conducting element 7 it is good contact, avoid the occurrence of heat exchanging corner, promoted and exchanged heat Efficiency.

As shown in fig. 6, multiple heat conducting elements 7 divide to be parallel to each other and spaced multiple first heat conducting element groups and more A second heat conducting element group；First heat conducting element group includes a heat conducting element 7, and the both ends of heat conducting element 7 are interior with heat accumulation storehouse Gap is equipped between wall；Second heat conducting element group includes two heat conducting elements 7, one end of two heat conducting elements 7 it is opposite and Every setting, the other end of two heat conducting elements 7 is connected on two opposite inner walls in heat accumulation storehouse.It in this way can be in heat accumulation Two symmetrical airflow channels are formed in storehouse, and two airflow channels cross in the second heat conducting element group；This be example In, 7 length of heat conducting element in the first heat conducting element group it is opposite can it is longer with reduce the heat conducting element 7 and heat accumulation storehouse inner wall it Between distance, prevent heat exchanging corner, improving heat exchanging efficiency.

As shown in fig. 7, multiple heat conducting elements 7 divide to be parallel to each other and spaced multiple first heat conducting element groups and more A second heat conducting element group, the first heat conducting element group and the second heat conducting element group all have a heat conducting element 7, and first thermally conductive yuan One end of heat conducting element 7 in part group is connect with first inner wall in heat accumulation storehouse, and one of the heat conducting element 7 in the second heat conducting element group End is connect with second inner wall in heat accumulation storehouse, and the first inner wall and the second inner wall are opposite two inner walls in heat accumulation storehouse.I.e. first is thermally conductive One end of heat conducting element 7 in element group is connect with the first inner wall, and gap is equipped between the other end and the second inner wall；Second is thermally conductive One end of heat conducting element 7 in element group is connect with the second inner wall, and gap is equipped between the other end and the first inner wall；By thermally conductive Element 7 forms a continuous S-shaped airflow channel in heat accumulation storehouse, and air-flow can be contacted with each heat conducting element 7；It is this Structure is commonly used in the relatively narrow situation in heat accumulation storehouse；When an airflow channel is only arranged, the air-flow into heat accumulation storehouse can successively and often A heat conducting element 7 carries out heat exchange, while the thorough displacement to gas in heat accumulation storehouse may be implemented, and heat exchange efficiency is high.

As shown in Figures 2 and 3, the section of heat conducting element 7 is L shape, a side of heat conducting element 7 by heat-conducting glue 10 with Solar power generation component 2 connects, and heat accumulation storehouse is protruded into another side of heat conducting element 7.I.e. referring to shown in Fig. 3, heat conducting element 7 has There are vertical and horizontal two sides, two sides, which are connected with each other, to be integrated, and the side being laterally arranged is Nian Jie with solar power generation component, vertically The side of setting is protruded into heat accumulation storehouse；Heat conducting element 7 is ok with solar power generation component 2, with the air in heat accumulation storehouse in this way With biggish heat exchange area, heat exchange efficiency is high.

Heat conducting element 7 is fin or heat pipe.The source of fin can there are many kinds of, such as using aluminum corner brace, with aluminium sheet bending Production, with the aluminums such as existing aluminum profile or copper component, fin thickness is generally 0.5-3mm, preferably 0.5-1mm.

Specifically, as shown in Figure 4 and Figure 5, heat accumulation storehouse include: side insulating layer 4, multiple bottom insulating layers 5, top respectively and too It is positive can electrification component 2 edge connection and multiple shape of peripheral frame 1 for sequentially splicing of head and the tail, the bottom of multiple shape of peripheral frame 1 with The edge of bottom insulating layer 5 is clamped, and is provided with the card slot to match with side insulating layer 4 on the inside of each shape of peripheral frame 1.Multiple frames The top of profile 1 passes through structure glue 3 and connect with solar power generation component 2, and the bottom of multiple shape of peripheral frame 1 is stuck in bottom heat preservation The edge of layer 5, bottom insulating layer 5 and solar power generation component 2 are oppositely arranged to form heat accumulation chamber 6 in heat accumulation storehouse.I.e. by setting Reasonable shape of peripheral frame 1 is counted, shape of peripheral frame 1 is sticked to solar power generation component 2 using structure glue 3 and is used for the one side of heat dissipation to enclose At the side wall in entire heat accumulation storehouse, and in 1 inside of shape of peripheral frame, bottom edge connecting side insulating layer 4 and bottom insulating layer 5, constitute complete Heat accumulation storehouse is known as heat accumulation chamber 6 in heat accumulation storehouse；Portion gap or close can be reserved between the end and bottom insulating layer 5 of heat conducting element 7 Contact, the end that portion gas can be diverted to heat conducting element 7 by outflow gap carry out heat exchange, improving heat exchanging efficiency.It is i.e. sharp With the combination of reasonable shape of peripheral frame 1 and thermal insulation material, insulation is formed on the wall surface in heat accumulation storehouse, further avoids heat accumulation Heat loss in storehouse promotes solar energy utilization ratio.Structural silicone adhesive can be used in structure glue 3, and butyl rubber, three also can be used First second third gradegrade C.

Shape of peripheral frame 1 generally selects aluminum profile, and surface carries out anodized, can also use powder spray, electrophoresis Processing etc., shape of peripheral frame 1 1-2mm of wall thickness range, preferably 1.2-1.5mm.

Side insulating layer 4 is generally kept the temperature using rubber and plastic, can also be with polyurethane foam, the rock wool for being wrapped processing, polyester cotton etc. Thermal insulation material, 7-10mm of thickness, herein preferred 8mm.

Bottom insulating layer 5 generally uses polyurethane sheet, can also be using the thermal insulation materials such as styrofoam, rock wool board, bottom insulating layer 5 20-30mm of thickness, herein preferred 20mm.

Air flow inlet 81 and air stream outlet 82 are arranged on shape of peripheral frame 1.That is air flow inlet 81 and air stream outlet 82 1 As be all disposed on shape of peripheral frame 1, facilitate fixed and connection external pipeline.Air flow inlet 81 and 82 half of air stream outlet use aluminium Profile, can also use the materials such as stainless steel, PVC, PTFE, the shape of air flow inlet 81 and air stream outlet 82 can for it is round, Ellipse or rectangle, herein preferred rectangle；Placement location can be protected for the long side or short side of solar power generation component 2 and back At warm layer, it is preferably provided on two short sides herein.

As shown in Fig. 1,6,7, spliced between two end to end shape of peripheral frame 1 by connector 9.That is shape of peripheral frame 1 Between the end to end side wall for surrounding heat accumulation storehouse, the end of shape of peripheral frame 1 passes through the end of connector 9 and another shape of peripheral frame 1 Splicing, connector 9 can be there are many forms, as long as realizing the splicing between shape of peripheral frame 1.

The end of shape of peripheral frame 1 is equipped with corner brace card slot, and connector 9 is equipped with the corner brace to match with corner brace card slot.Side Frame section 1 needs to form by machine pusher when splicing, to prevent 1 position of shape of peripheral frame in extrusion process from changing, so It is realized and is pre-positioned by corner brace and corner brace card slot between connector 9 and shape of peripheral frame 1, and the company of restriction during extrusion forming Fitting 9 and the relative position of shape of peripheral frame 1 do not change, avoid occurring between adjacent shape of peripheral frame 1 after splicing high bottom surface or Splice not tight phenomenon, promotes joining quality and splicing speed.

In addition, present invention also provides a kind of photovoltaic and photothermal all-in-one machines, including heat storage structure as above.Photovoltaic and photothermal one Machine has multiple solar power generation components, and each solar power generation component all has above-mentioned heat storage structure, can not influence the sun Can be in the case where power generation, heat that effective recycling solar power generation component distributes；Solar power generation component cooling rate is fast, Also the generating efficiency for effectively improving solar power generation component improves solar power generation component to the utilization rate of solar energy.

It should be noted that, in this document, the relational terms of such as " first " and " second " or the like are used merely to one A entity or operation with another entity or operate distinguish, without necessarily requiring or implying these entities or operation it Between there are any actual relationship or orders.Moreover, the terms "include", "comprise" or its any other variant are intended to Cover non-exclusive inclusion, so that the process, method, article or equipment for including a series of elements not only includes those Element, but also including other elements that are not explicitly listed, or further include for this process, method, article or setting Standby intrinsic element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that There is also other identical elements in the process, method, article or apparatus that includes the element.

The above is only the specific embodiment of the application, is made skilled artisans appreciate that or realizing this Shen Please.Various modifications to these embodiments will be apparent to one skilled in the art, as defined herein General Principle can be realized in other embodiments without departing from the spirit or scope of the application.Therefore, the application It is not intended to be limited to the embodiments shown herein, and is to fit to and applied principle and features of novelty phase one herein The widest scope of cause.

Claims (10)

1. a kind of heat storage structure is applied to photovoltaic and photothermal all-in-one machine characterized by comprising heat accumulation storehouse is arranged in the heat accumulation At least one air flow inlet and at least one air stream outlet, multiple heat conducting elements in the heat accumulation storehouse on storehouse, it is described The one side in heat accumulation storehouse is opening, the setting of solar power generation component in the open-mouth, multiple heat conducting elements with it is described too Positive energy electrification component connection；Multiple heat conducting elements are in the space between the heat accumulation storehouse and the solar power generation component Airflow channel is surrounded according to default arrangement mode, the airflow channel is connected to the air flow inlet and air stream outlet respectively.

2. heat storage structure according to claim 1, which is characterized in that the heat accumulation storehouse have air flow inlet and One air stream outlet, the air flow inlet and the air stream outlet are separately positioned on two opposite faces in the heat accumulation storehouse On.

3. heat storage structure according to claim 2, which is characterized in that multiple heat conducting elements be divided into be parallel to each other and Every the multiple first heat conducting element groups and multiple second heat conducting element groups of arrangement, the first heat conducting element group is led with described second Thermal element group all has two heat conducting elements；One end of two heat conducting elements of the first heat conducting element group it is opposite and Away from for d, gap is equipped between the other end and the inner wall in the heat accumulation storehouse；It is led described in two in the second heat conducting element group One end of thermal element is opposite and spacing is D, and the other end is connected on the inner wall in the heat accumulation storehouse；Wherein, d < D.

4. heat storage structure according to claim 2, which is characterized in that multiple heat conducting elements be divided into be parallel to each other and Every the multiple first heat conducting element groups and multiple second heat conducting element groups of arrangement；The first heat conducting element group includes one thermally conductive Element is equipped with gap between the both ends of the heat conducting element and the inner wall in the heat accumulation storehouse；The second heat conducting element group packet Two heat conducting elements are included, one end of two heat conducting elements is opposite and interval is arranged, the other end of two heat conducting elements It is connected on two opposite inner walls in the heat accumulation storehouse.

5. heat storage structure according to claim 2, which is characterized in that multiple heat conducting elements be divided into be parallel to each other and Every arrangement multiple first heat conducting element groups and multiple second heat conducting element groups, the first heat conducting element group with second thermally conductive yuan Part group all has a heat conducting element, one end of the heat conducting element in the first heat conducting element group and the first of the heat accumulation storehouse Inner wall connects, and one end of the heat conducting element in the second heat conducting element group is connect with second inner wall in the heat accumulation storehouse, described First inner wall and second inner wall are opposite two inner walls in the heat accumulation storehouse.

6. heat storage structure according to claim 1-5, which is characterized in that the section of the heat conducting element is L shape, One side of the heat conducting element is connect by heat-conducting glue with the solar power generation component, and another of the heat conducting element The heat accumulation storehouse is protruded into side.

7. heat storage structure according to claim 1-5, which is characterized in that the heat accumulation storehouse include: bottom insulating layer, Multiple frame types that multiple side insulating layers, top are connect with the edge of the solar power generation component respectively and head and the tail sequentially splice Material, the bottom of multiple shape of peripheral frame are clamped with the edge of the bottom insulating layer, are provided on the inside of each shape of peripheral frame The card slot to match with the side insulating layer.

8. heat storage structure according to claim 7, which is characterized in that lead between two end to end shape of peripheral frame Cross connector splicing.

9. heat storage structure according to claim 8, which is characterized in that the end of the shape of peripheral frame is equipped with corner brace card Slot, the connector are equipped with the corner brace to match with the corner brace card slot.

10. a kind of photovoltaic and photothermal all-in-one machine, which is characterized in that including the described in any item heat storage structures of claim 1-9.