CN206873789U - Architectural pottery photoelectric subassembly and system - Google Patents

Abstract

The utility model provides a kind of architectural pottery photoelectric subassembly and system, is related to building material technical field.The architectural pottery photoelectric subassembly includes architectural pottery matrix, and photovoltaic electrification component, luminescence component, the first electrical interface electrically connected with photovoltaic electrification component and the second electrical interface electrically connected with luminescence component are provided with architectural pottery matrix.The architectural pottery electricity generation system includes multiple above-mentioned architectural pottery photoelectric subassemblys.It is single for the architectural pottery function that road or square are laid that the architectural pottery photoelectric subassembly and system alleviate prior art, the technical problem of metope, road or square ground can not be effectively utilized, has reached the technique effect that construction material is effectively combined with energy and material.

Description

Architectural pottery photoelectric subassembly and system

Technical field

Building material technical field is the utility model is related to, more particularly, to a kind of architectural pottery photoelectric subassembly and system.

Background technology

Construction substrate include building paving brick, square brick, building board and architectural pottery etc. be used for it is architectural each to work Journey material.

Architectural pottery includes the ceramic of the various civil construction projects such as house, road, plumbing and flower garden, there is pottery Wall tile, colour ceramic grains, earthen-ware pipe etc., it is divided into crude pottery, fine pottery, half porcelain and the class of porcelain four by product material, by blank sintering degree Be divided into porous, compactness and with glaze, without glaze product, its common feature be intensity high, moistureproof, fire prevention, it is acidproof, alkaline-resisting, Freeze proof, not aging, never degenerate, be colour-fast and easy to clean etc., and with abundant artistic decorative effect.

It is relatively simple currently used for the architectural pottery panel feature in road or square, it is mainly used in beautifying square, building With square road surface, airborne dust is prevented.Therefore, yet there are no on decorating road surface or building wall and the energy on road Pang Huo squares It is combined to improve the relevant report of its utilization rate.

Utility model content

First purpose of the present utility model is to provide architectural pottery photoelectric subassembly, with alleviate prior art be used for road or The architectural pottery function of square or building laying is single, it is impossible to is effectively asked using road or the technology of square ground or building wall Topic.

In order to realize above-mentioned purpose of the present utility model, spy uses following technical scheme：

A kind of architectural pottery photoelectric subassembly, including architectural pottery matrix, photovoltaic hair is provided with the architectural pottery matrix Electrical component, luminescence component, the first electrical interface electrically connected with the photovoltaic electrification component and electrically connected with the luminescence component The second electrical interface.

Further, the surface of the architectural pottery matrix is provided with the first groove for being used for housing the photovoltaic electrification component With the second groove for housing the luminescence component.

Further, the photovoltaic electrification component includes transparent cover plate and power generation main body, and the power generation main body is positioned over institute State in the first groove, the transparent cover plate rides upon at first slot opening and the power generation main body is sealed in into described In one groove；

The luminescence component includes clear encapsulant and light emitting host, and it is recessed that the light emitting host is fixedly installed in described second In groove, the clear encapsulant rides upon the opening of second groove and that the light emitting host is sealed in into described second is recessed In groove.

Further, first electrical interface and second electrical interface are separately positioned on the side of the architectural pottery matrix On wall.

Further, first electrical interface is oppositely arranged in the side wall of the architectural pottery matrix, first electricity Symmetry axis of the interface along the architectural pottery matrix is arranged symmetrically；

Second electrical interface is oppositely arranged in the side wall of the architectural pottery matrix, and second electrical interface is described in The symmetry axis of architectural pottery matrix is arranged symmetrically.

Further, first electrical interface is arranged in the adjacent side wall of first groove, first electrical interface Respectively on the symmetry axis of first groove；

Second electrical interface is arranged in the adjacent side wall of second groove, and second electrical interface is located at institute respectively On the symmetry axis for stating the second groove.

Further, first electrical interface is the metallic conductor for including being arranged in the side wall of first groove, institute Metallic conductor is stated to be embedded in the perforate opened up in first recess sidewall；Second electrical interface includes being arranged on described the Metallic conductor in the side wall of two grooves, the metallic conductor are embedded in the perforate opened up in second recess sidewall；

The photovoltaic electrification component and the luminescence component are connected by plain conductor with the metallic conductor respectively.

Further, the both ends of the metallic conductor are connected with metal decking, and the metal decking, which is provided with, to be used to fix The clamping part of the plain conductor.

Compared with the prior art, the utility model has the advantages that：

There is sunlight straight by the way that architectural pottery photoelectric subassembly provided by the utility model is routed on square, building or road The place penetrated, by photovoltaic electrification component with regard to electric energy can be produced.Meanwhile by installing luminescence component on architectural pottery, it is powered Lighting function can be achieved afterwards.

In the utility model, by the electrical interface being arranged on architectural pottery matrix, photovoltaic electrification component can be produced Electrical energy transportation go out, meanwhile, by electrical interface can also will external power source apply luminescence component on realize lighting function, in addition Electrical connection between different architectural pottery matrixes can be realized by electrical interface, so as to realize the string of multiple architectural pottery matrixes simultaneously Connection connection, so that voltage or electric current meet needed for apparatus of load, can be finally that apparatus of load is powered after load equipment is connected, It is achieved thereby that the comprehensive utilization of construction material, energy and material and luminescent material.

Architectural pottery matrix is combined with photovoltaic electrification component and luminescence component, makes the architectural pottery light obtained after combination Electrical component realizes the perfect adaptation of three kinds of functions, Neng Gouyou not only with construction and decoration function but also with the function of generating electricity, light Effect improves the utilization rate of road.

Second purpose of the present utility model is to provide architectural pottery electricity generation system, with alleviate prior art be used for road or The architectural pottery function of square or building laying is single, it is impossible to is effectively asked using road or the technology of square ground or building wall Topic.

A kind of architectural pottery electricity generation system, including multiple above-mentioned architectural pottery photoelectric subassemblys, multiple architectural pottery light Electrical component electrically connects after tiling.

Further, the architectural pottery electricity generation system also includes energy storage device, multiple architectural pottery photoelectric subassemblys Electrically connected after electrical connection with the energy storage device.

The architectural pottery system includes above-mentioned architectural pottery photoelectric subassembly, possesses the whole of above-mentioned architectural pottery photoelectric subassembly Beneficial effect.Photovoltaic generation can be utilized in addition, the architectural pottery system can realize the function of first charging and discharge afterwards, during daytime Component is charged to energy storage device, and luminescence component is discharged using energy storage device at night, realizes luminous shinny function.

Brief description of the drawings

, below will be right in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art The required accompanying drawing used is briefly described in embodiment or description of the prior art, it should be apparent that, describe below In accompanying drawing be some embodiments of the present utility model, for those of ordinary skill in the art, do not paying creativeness On the premise of work, other accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 is the structural representation for the architectural pottery photoelectric subassembly that the utility model embodiment one provides；

Fig. 2 is the profile of structure shown in Fig. 1；

Fig. 3 is a kind of structural representation of architectural pottery matrix in structure shown in Fig. 1；

Fig. 4 is the structural representation of another architectural pottery matrix in structure shown in Fig. 1；

Fig. 5 is the structural representation of photovoltaic electrification component in structure shown in Fig. 1；

Fig. 6 is a kind of structural representation for architectural pottery matrix that the utility model embodiment two provides；

Fig. 7 is the top view of structure shown in Fig. 6；

Fig. 8 is the structural representation of architectural pottery electricity generation system in embodiment two.

Icon：10- architectural pottery matrixes；The electrical interfaces of 101- first；The grooves of 102- first；The grooves of 103- second； The electrical interfaces of 104- second；20- photovoltaic electrification components；201- transparent cover plates；202- power generation main bodies；30- luminescence components； 301- clear encapsulants；302- light emitting hosts；40- energy storage devices.

Embodiment

The technical solution of the utility model is clearly and completely described below in conjunction with accompanying drawing, it is clear that described Embodiment is the utility model part of the embodiment, rather than whole embodiments.Based on the embodiment in the utility model, sheet The every other embodiment that field those of ordinary skill is obtained under the premise of creative work is not made, belongs to this practicality Novel protected scope.

, it is necessary to explanation in description of the present utility model, term " " center ", the orientation of instruction such as "up" or "down" or Position relationship is based on orientation shown in the drawings or position relationship, is for only for ease of description the utility model and simplifies description, Rather than instruction or imply signified device or element must have specific orientation, with specific azimuth configuration and operation, because This is it is not intended that to limitation of the present utility model.In addition, term " first ", " second " are only used for describing purpose, and can not manage Solve to indicate or implying relative importance.

, it is necessary to which explanation, unless otherwise clearly defined and limited, term " are pacified in description of the present utility model Dress ", " connected ", " connection " should be interpreted broadly, for example, it may be fixedly connected or be detachably connected, or integratedly Connection；Can be mechanical connection or electrical connection；Can be joined directly together, can also be indirectly connected by intermediary, It can be the connection of two element internals.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition Concrete meaning of the language in the utility model.

Embodiment one

As depicted in figs. 1 and 2, the present embodiment is a kind of architectural pottery photoelectric subassembly, including architectural pottery matrix 10, building Photovoltaic electrification component 20, luminescence component 30, the first electricity for electrically connecting with photovoltaic electrification component 20 is provided with ceramic matrix 10 to connect Mouth 101 and the second electrical interface 104 electrically connected with luminescence component 30.

By the way that architectural pottery photoelectric subassembly provided by the utility model is routed into square or road or architectural has sunlight The place of direct projection, by photovoltaic electrification component 20 with regard to electric energy can be produced.Meanwhile by installing luminescence component on architectural pottery 30, lighting function can be achieved after energization.

In the utility model, by the first electrical interface 101 being arranged on architectural pottery matrix 10, photovoltaic can be sent out Electrical energy transportation caused by electrical component 20 is gone out, meanwhile, external power source can also be applied by luminescence component by the second electrical interface 104 Lighting function is realized on 30, different architectural pottery matrixes can be realized by the first electrical interface 101 and the second electrical interface 104 in addition Electrical connection between 10, so as to realize that the connection in series-parallel of multiple architectural pottery matrixes 10 connects, so that voltage or electric current meet equipment Needed for load, finally after load equipment is connected can be apparatus of load power, it is achieved thereby that construction material, energy and material and The comprehensive utilization of luminescent material.

Architectural pottery matrix 10 is combined with photovoltaic electrification component 20 and luminescence component 30, makes the building obtained after combination Ceramic photoelectric component not only with construction and decoration function but also with generate electricity, luminous function, realize the perfect adaptation of three kinds of functions, The utilization rate of road can be effectively improved.

In the architectural pottery photoelectric subassembly of said structure, at least one end of photovoltaic electrification component 20 passes through wire and the first electricity Interface 101 is connected, and at least one end of luminescence component 30 is connected by wire with the second electrical interface 104, and wire can pass through setting Through hole on architectural pottery matrix 10 carries out interspersed embedded.

During assembling, photovoltaic electrification component 20 and luminescence component 30 can be affixed directly on architectural pottery matrix 10, still So it is not easy to install, and later stage repair and replacement is also not easy to after photovoltaic electrification component 20 and luminescence component 30 damage.

As in Figure 2-4, for the ease of the maintenance in later stage, the surface of architectural pottery matrix 10, which is provided with, to be used to house photovoltaic First groove 102 of electrification component 20 and the second groove 103 for housing luminescence component 30.

Photovoltaic electrification component 20 and luminescence component 30 are separately mounted in the first groove 102 and the second groove 103, can be with The position of fixed photovoltaic electrification component 20 and luminescence component 30, prevent during later stage use photovoltaic electrification component 20 and luminous group The deviation position of part 30 simultaneously departs from architectural pottery matrix 10.

As shown in figure 5, photovoltaic electrification component 20 includes transparent cover plate 201 and power generation main body 202, the chi of transparent cover plate 201 The very little size more than power generation main body 202, power generation main body 202 are positioned in the first groove 102, and transparent cover plate 201 rides upon first Power generation main body 202 is simultaneously sealed in the first groove 102 by the opening of groove 102；Luminescence component 30 includes clear encapsulant 301 With light emitting host 302, light emitting host 302 is fixedly installed in the second groove 103, and clear encapsulant 301 rides upon the second groove Light emitting host 302 is simultaneously sealed in the second groove 103 by 103 opening.

Power generation main body 202 can produce electric energy after receiving the sunlight through transparent cover plate 201, and caused electric energy is sent out by photovoltaic Electrode on electrical component 20 carries out the transmission of electric power after being connected with the external world.Transparent cover plate 201 is safety glass, and its tempering intensity should Meet load-bearing requirements.In order to prevent glass from producing injury to personnel after bursting, can prevent in one layer of the surface mount of safety glass Quick-fried film.Power generation main body 202 forms downward bulge-structure relative to transparent cover plate 201, the structure of power generation main body 202 and first recessed Groove 102 is engaged, it is ensured that power generation main body 202 can obtain the first groove 102 completely into inside the first groove 102 Effective protection.

The size of transparent cover plate 201 is more than the size of power generation main body 202, can so ensure photovoltaic electrification component 20 with building After building the assembling of ceramic matrix 10, transparent cover plate 201 can be ridden upon in the side wall of the first groove 102, so as to prevent rainwater Or debris is penetrated into power generation main body 202., can be in the combination of transparent cover plate 201 and architectural pottery matrix 10 after the completion of assembling Place's sealant sealing.

Light emitting host 302 can be the light-emitting components such as bulb, light emitting diode.Light emitting host 302 is fixedly mounted on In two grooves 103, and carried out with clear encapsulant 301 it is hermetically sealed, to prevent internal destroyed.

The side wall of first groove 102 and the second groove 103 can be done thick, can so be increased bearing capacity, be prevented The excessively thin architectural pottery matrix 10 of side wall is broken.The side wall of the groove of first groove 102 and the second groove 103 is set thick, The pod apertures of rainwater can also be provided for evacuating on the surface of side wall.

After photovoltaic electrification component 20 and luminescence component 30 are combined into assembling with architectural pottery matrix 10, in order that transparent cover plate 201 surface, clear encapsulant 301, the first groove 102 and the side wall of the second groove 103 surface at grade, Ke Yi The inner side of the side wall of first groove 102 and the second groove 103 sets boss, for carrying transparent cover plate 201 and clear encapsulant 301, it is so more attractive.

The first electrical interface 101 and the second electrical interface 104 on architectural pottery matrix 10 are used for being electrically connected for each part Connect.First electrical interface 101 and the second electrical interface 104 can be arranged as required to any position on architectural pottery matrix 10, As long as it can be powered by electric power output caused by photovoltaic electrification component 20 and to luminescence component 30.But in order to more It is convenient that permutation and combination is carried out to architectural pottery photoelectric subassembly.The first electrical interface 101 and the second electrical interface 104 are distinguished in the present embodiment Be arranged in the side wall of architectural pottery matrix 10, directly contacted using side wall can realize different architectural pottery photoelectric subassemblys it Between connection in series-parallel connection.

As shown in figure 3, the first electrical interface 101 is oppositely arranged in the side wall of architectural pottery matrix 10, the first electrical interface 101 It is arranged symmetrically along the symmetry axis of architectural pottery matrix 10；Second electrical interface 104 is oppositely arranged on the side wall of architectural pottery matrix 10 On, symmetry axis of second electrical interface 104 along architectural pottery matrix 10 is arranged symmetrically.

After photovoltaic electrification component 20 and luminescence component 30 assemble with architectural pottery matrix 10, photovoltaic electrification component 20 and luminous The electrode of component 30 electrically connects with the corresponding electrical interface 104 of first electrical interface 101 and second respectively.

The quantity of the first electrical interface 101 and the second electrical interface 104 in the present embodiment is total up to 4, and along architectural pottery Two symmetry axis of transverse and longitudinal of matrix 10 are symmetrically and evenly distributed, it is ensured that in splicing, the link position of electrode position can be had Effect ensures, is easy to permutation and combination.

After photovoltaic electrification component 20 and luminescence component 30 assemble with architectural pottery matrix 10, photovoltaic electrification component 20 it is positive and negative After pole electrically connects with the first electrical interface 101, electric power can externally be exported.The both positive and negative polarity of luminescence component 30 connects with the second electricity After the electrical connection of mouth 104, to be powered to luminescence component 30.

As shown in figure 4, the structure of another architectural pottery matrix 10 is additionally provided in the present embodiment.First electrical interface 101 are arranged in the adjacent side wall of the first groove 102, and the first electrical interface 101 is respectively on the symmetry axis of the first groove 102； Second electrical interface 104 is arranged in the adjacent side wall of the second groove 103, and the second electrical interface 104 is located at the second groove 103 respectively Symmetry axis on.

After photovoltaic electrification component 20 and luminescence component 30 assemble with architectural pottery matrix 10, photovoltaic electrification component 20 and luminous The electrode of component 30 electrically connects with corresponding the first electrical interface 101 and the second electrical interface 104 respectively.

If architectural pottery matrix 10 is all set relatively using the first electrical interface 101 shown in Fig. 3 and the second electrical interface 104 The structure put, then the arrangement in stays in assembled arrangement, it can only be in that straight line arranges, be not easy to large area laying.Therefore, When first electrical interface 101 and the second electrical interface 104 are disposed adjacent respectively, it is possible to achieve the purpose of steering.First electrical interface 101 When being disposed adjacent respectively with the second electrical interface 104, it is arranged symmetrically along the symmetry axis of architectural pottery matrix 10, is so easy to product The standardized designs of size.Increase the architectural pottery matrix 10 of structure shown in Fig. 4, the requirement of large area laying can be met.

First electrical interface 101 includes the metallic conductor being arranged in the side wall of the first groove 102, and metallic conductor is embedded in first In the perforate opened up in the side wall of groove 102, the metal that the second electrical interface 104 includes being arranged in the side wall of the second groove 103 is led Body, metallic conductor are embedded in the perforate opened up in the side wall of the second groove 103, and photovoltaic electrification component 20 and luminescence component 30 are distinguished It is connected by plain conductor with metallic conductor.

The both ends of metallic conductor are connected with metal decking, and metal decking is provided with the clamping section for being used for fixing plain conductor Part.Clamping part is set on metal decking, and metallic area can increase contact area, make electrical connection more reliable.On metal decking Clamping part is set, for being fixedly connected with the both positive and negative polarity of photovoltaic electrification component 20 and luminescence component 30.

When installing photovoltaic electrification component 20 and luminescence component 30 on architectural pottery matrix 10, first by photovoltaic electrification component 20 After being connected with the both positive and negative polarity of luminescence component 30 with the both positive and negative polarity on architectural pottery matrix 10, then with electric insulating sealant by photovoltaic generation Component 20 and luminescence component 30 are sealed with architectural pottery matrix 10, prevent rainwater from entering.

In order to more advantageously permeate rainwater, the upper surface of the first groove 102 and the side wall of the second groove 103 can be set One guiding gutter, guiding gutter is interior to be provided with pod apertures, and the endways pod apertures of rainwater flow to ground after raining.

Embodiment two

As shown in Figure 6 and Figure 7, the difference with embodiment one is, the first electrical interface 101 in the present embodiment and The set location of two electrical interfaces 104 is different.When first electrical interface 101 is oppositely arranged, its set location is to be oppositely arranged on The both sides of one groove 102, when the second electrical interface 104 is oppositely arranged, its set location is to be oppositely arranged on the second groove 103 Both sides, the design of this structure can save the use of wire.

In the present embodiment, the setting at other positions is identical with embodiment one, will not be repeated here.

Embodiment three

As shown in figure 8, the present embodiment is a kind of architectural pottery electricity generation system, including the architectural pottery in multiple embodiments one Photoelectric subassembly, multiple architectural pottery photoelectric subassemblys electrically connect after tiling.

With continued reference to Fig. 8, the floor area laid as needed can rationally set the arrangement of architectural pottery electricity generation system Form.Such as during parallel laid, architectural pottery photoelectric subassembly can use the first electrical interface 101 and the second electrical interface 104 to distinguish The structure type being oppositely arranged.When laying to tail end needs to change laying direction, architectural pottery photoelectric subassembly can use the The structure type that one electrical interface 101 and the second electrical interface 104 are disposed adjacent respectively.

Every group of architectural pottery photoelectric subassembly being connected in series forms an architectural pottery system unit, each architectural pottery System can include one or more above-mentioned architectural pottery system units.It can be selected during multiple architectural pottery system unit arrangements Being connected in series can also select to be connected in parallel, and specifically see the design requirement on ground.

When the generated energy in above-mentioned architectural pottery electricity generation system has residue or electricity is not directly used for power supply unit When, architectural pottery electricity generation system can also include energy storage device 40, be filled after multiple architectural pottery photoelectric subassembly electrical connections with energy storage Put 40 electrical connections.Energy storage device 40 is used to store electricity daytime, and night can be used for powering to luminescence component 30.

, can be with after the completion of laying in order to prevent space of the rainwater between architectural pottery matrix 10 from entering in metallic conductor It is filled between architectural pottery matrix 10 with insulating materials, and architectural pottery matrix 10 is sealed with waterproof material on surface Between space.

Finally it should be noted that：Various embodiments above is only to illustrate the technical solution of the utility model, rather than it is limited System；Although the utility model is described in detail with reference to foregoing embodiments, one of ordinary skill in the art should Understand：It can still modify to the technical scheme described in foregoing embodiments, either to which part or whole Technical characteristic carries out equivalent substitution；And these modifications or replacement, the essence of appropriate technical solution is departed from this practicality newly The scope of each embodiment technical scheme of type.

Claims (10)

1. A kind of 1. architectural pottery photoelectric subassembly, it is characterised in that including architectural pottery matrix (10), the architectural pottery matrix (10) be provided with photovoltaic electrification component (20), luminescence component (30), electrically connected with the photovoltaic electrification component (20) first Electrical interface (101) and the second electrical interface (104) electrically connected with the luminescence component (30).
2. 2. architectural pottery photoelectric subassembly according to claim 1, it is characterised in that the table of the architectural pottery matrix (10) Face, which is provided with, to be used to house the first groove (102) of the photovoltaic electrification component (20) and for housing the luminescence component (30) Second groove (103).
3. 3. architectural pottery photoelectric subassembly according to claim 2, it is characterised in that the photovoltaic electrification component (20) includes Transparent cover plate (201) and power generation main body (202), the power generation main body (202) is positioned in first groove (102), described Transparent cover plate (201) rides upon the first groove (102) opening and the power generation main body (202) is sealed in into described first In groove (102)；

   The luminescence component (30) includes clear encapsulant (301) and light emitting host (302), and the light emitting host (302) is fixed It is installed in second groove (103), the clear encapsulant (301) rides upon the opening of second groove (103) And the light emitting host (202) is sealed in second groove (103).
4. 4. the architectural pottery photoelectric subassembly according to Claims 2 or 3, it is characterised in that first electrical interface (101) and Second electrical interface (104) is separately positioned in the side wall of the architectural pottery matrix (10).
5. 5. architectural pottery photoelectric subassembly according to claim 4, it is characterised in that first electrical interface (101) is relative It is arranged in the side wall of the architectural pottery matrix (10), first electrical interface (101) is along the architectural pottery matrix (10) Symmetry axis be arranged symmetrically；

   Second electrical interface (104) is oppositely arranged in the side wall of the architectural pottery matrix (10), second electrical interface (104) it is arranged symmetrically along the symmetry axis of the architectural pottery matrix (10).
6. 6. architectural pottery photoelectric subassembly according to claim 4, it is characterised in that first electrical interface (101) is set In the adjacent side wall of first groove (102), first electrical interface (101) is located at first groove (102) respectively Symmetry axis on；

   Second electrical interface (104) is arranged in the adjacent side wall of second groove (103), second electrical interface (104) respectively on the symmetry axis of second groove (103).
7. 7. the architectural pottery photoelectric subassembly according to Claims 2 or 3, it is characterised in that the first electrical interface (101) bag The metallic conductor being arranged in the side wall of first groove (102) is included, the metallic conductor is embedded in first groove (102) in the perforate opened up in side wall；Second electrical interface (104) includes being arranged on the side wall of second groove (103) On metallic conductor, the metallic conductor is embedded in the perforate opened up in the second groove (103) side wall；The photovoltaic hair Electrical component (20) and the luminescence component (30) are connected by plain conductor with the metallic conductor respectively.
8. 8. architectural pottery photoelectric subassembly according to claim 7, it is characterised in that the both ends of the metallic conductor are connected with Metal decking, the metal decking are provided with the clamping part for being used for fixing the plain conductor.
9. 9. a kind of architectural pottery electricity generation system, it is characterised in that including the building pottery described in multiple any one of claim 1-8 Porcelain photoelectric subassembly, multiple architectural pottery photoelectric subassemblys electrically connect after tiling.
10. 10. architectural pottery electricity generation system according to claim 9, it is characterised in that the architectural pottery electricity generation system is also Including energy storage device (40), electrically connected after multiple architectural pottery photoelectric subassembly electrical connections with the energy storage device (40).