阅读说明：本技术 一种薄膜电池组件 (Thin film battery pack ) 是由 张松忠 于 2021-05-24 设计创作，主要内容包括：本发明公开了一种薄膜电池组件,其结构包括衔接扣、薄膜电池板、防护装置、调节架、固定座,本发明进行使用时,将薄膜电池板放置在放置板上,通过安装座对薄膜电池板进行限制位置,在遇到雨天时,雨水会由于薄膜电池板的倾斜惯性,将雨水向下导送到分散件上,通过多个分散件将雨水进行分流导送到接收腔上,接收腔与导水槽互通,使得接收腔可以将雨水导送到导水槽上,通过导水槽的两端将雨水向外导出,使得雨水不会堆积在薄膜电池板与安装座之间,使得薄膜电池板可以稳定进行运行,提高薄膜电池的发电效率。(The invention discloses a thin-film battery pack, which structurally comprises a connecting buckle, a thin-film battery panel, a protective device, an adjusting frame and a fixed seat.)

1. The utility model provides a thin film battery subassembly, its structure is including linking up knot (1), thin film battery board (2), protector (3), alignment jig (4), fixing base (5), its characterized in that:

the connecting buckle (1) is arranged on the protective device (3), the protective device (3) is provided with a thin-film battery panel (2), the protective device (3) is connected with the adjusting frame (4), and the adjusting frame (4) is inserted and embedded on the fixed seat (5);

protector (3) including bearing prop up piece (31), place board (32), mount pad (33), receiving chamber (34), dispersion spare (35), guiding gutter (36), bearing prop up piece (31) and install on mount pad (33), bearing prop up piece (31) both sides and all are connected with dispersion spare (35), dispersion spare (35) run through mount pad (33) and receive chamber (34) and put through mutually, mount pad (33) are installed and are placed on board (32), receiving chamber (34) are linked together with guiding gutter (36), place board (32) and detain (1) through linking up and be connected with thin film battery board (2), it is connected with two alignment jig (4) to place board (32).

2. A thin film battery assembly in accordance with claim 1, wherein: the dispersion member (35) comprises a flow guide disc (351), an inclined guide rod (352), an outlet (353) and a top convex marble (354), wherein the top convex marble (354) is installed on the flow guide disc (351), the inclined guide rod (352) is communicated with the flow guide disc (351) through the outlet (353), the flow guide disc (351) is connected with a bearing support block (31), and the inclined guide rod (352) penetrates through a mounting seat (33) to be communicated with a receiving cavity (34).

3. A thin film battery assembly according to claim 2, wherein: deflector (351) including reposition of redundant personnel piece (511), interface (512), triangular supports (513), curved arc board (514), casing (515), reposition of redundant personnel piece (511) are connected on casing (515), reposition of redundant personnel piece (511) both sides all are equipped with curved arc board (514), be equipped with triangular supports (513) on curved arc board (514), triangular supports (513) are connected on casing (515), install protruding marble (354) in top on casing (515), switch on mutually through export (353) between reposition of redundant personnel piece (511) and slope guide arm (352), casing (515) meet with bearing supporting block (31).

4. A thin film battery assembly as claimed in claim 3, wherein: triangular supports (513) are including contact protection board (K1), back holding strip (K2), sliding block (K3), positioning seat (K4), limit and expand board (K5), contact protection board (K1) is installed on positioning seat (K4), be equipped with on positioning seat (K4) limit and expand board (K5), be equipped with back holding strip (K2) on limit and expand board (K5), back holding strip (K2) and sliding block (K3) activity block, sliding block (K3) are connected on contact protection board (K1), contact protection board (K1) are connected with curved arc board (514), positioning seat (K4) are connected on casing (515).

5. A thin film battery assembly in accordance with claim 1, wherein: the water guide groove (36) comprises a cyclone guide piece (361), an oblique flow plate (362), an auxiliary guide block (363), a protrusion (364), a laminated plate (365), an elastic piece (366) and a cavity (367), wherein the cyclone guide piece (361) is installed on the oblique flow plate (362), the oblique flow plate (362) is communicated with the cavity (367), the laminated plate (365) is arranged on the cavity (367), the laminated plate (365) is connected with the elastic piece (366) and the auxiliary guide block (363), the auxiliary guide block (363) is connected with the protrusion (364), and the cavity (367) is communicated with the receiving cavity (34).

6. A thin film battery assembly as claimed in claim 5, wherein: the protrusion (364) comprises a top strip (641), a rubber boss (642) and an adapter (643), the adapter (643) is attached to the rubber boss (642), the top strip (641) is connected with the adapter (643) through the rubber boss (642), and the adapter (643) is connected to the auxiliary guide block (363).

7. A thin film battery assembly as claimed in claim 5, wherein: the swirl guide (361) comprises a swirl disc (611), an intercommunicating cavity (612), a through hole (613) and a rotating shaft (614), the swirl disc (611) is connected with the rotating shaft (614), the intercommunicating cavity (612) is arranged on the swirl disc (611), the intercommunicating cavity (612) is communicated with the through hole (613), the through hole (613) is arranged on the swirl disc (611), and the swirl disc (611) is arranged on the oblique flow plate (362).

8. A thin film battery assembly as claimed in claim 5, wherein: the laminated plate (365) is in a triangular step-shaped structure, and the laminated plate (365) is symmetrically arranged inside the cavity (367).

Technical Field

The invention relates to the field of thin films, in particular to a thin film battery component.

Background

With the increasingly decreasing weight, thickness and size of electronic products, the demand for portable energy sources is increasing, the thin film battery is a solar battery prepared by a layer of thin film, most of the thin film solar batteries at present mainly comprise a silicon-based thin film solar battery, a copper indium gallium selenide thin film solar battery and a cadmium telluride thin film solar battery, rainwater is led out through a guide element, and when the thin film battery is used, the places needing improvement are as follows:

when using thin-film battery, install thin-film battery on the fixed plate, it is spacing to adjust the position of thin-film battery through the support frame, make the sunlight can refract on the thin-film battery, most thin-film battery all installs on the roof, meet rainy day at the in-process of using thin-film battery, the rainwater can directly drip on the thin-film battery, the raindrop that drips on the thin-film battery can be piled up between thin-film battery and fixed plate because the slope inertia landing of support frame is downwards, make thin-film battery's lateral wall can be in humid state for a long time, lead to thin-film battery to appear damaging the phenomenon easily, influence thin-film battery's generating efficiency.

Disclosure of Invention

Aiming at the defects in the prior art, the invention is realized by the following technical scheme: the utility model provides a thin film battery pack, its structure is including linking up knot, thin film battery board, protector, alignment jig, fixing base, it establishes on protector to link up the knot, the last thin film battery board that is equipped with of protector, thin film battery board is connected with protector through linking up the knot, protector bottom both sides all are equipped with the alignment jig that meets with it, two the alignment jig is inserted perpendicularly and is inlayed on the fixing base.

As the further optimization of the invention, the protective device comprises a bearing support block, a placing plate, a mounting seat, a receiving cavity, a dispersing piece and a water guide groove, wherein the bearing support block is provided with a plurality of bearing support blocks, the bearing support blocks are transversely mounted on the inner wall of the mounting seat at equal intervals, the dispersing piece is connected to two sides of each bearing support block, the dispersing piece penetrates through the mounting seat to be communicated with the receiving cavity, the receiving cavity is arranged at the bottom of the mounting seat, the placing plate is mounted at one end, far away from the receiving cavity, of the mounting seat, the bottom of the receiving cavity is communicated with the water guide groove, the placing plate is connected with a thin-film battery plate through a connecting buckle, and the bottom of the placing plate is connected with two adjusting frames.

As further optimization of the invention, the dispersion member comprises a guide disc, inclined guide rods, an outlet and top-convex marbles, wherein the top-convex marbles are arranged in the middle of the guide disc, the guide disc is provided with six inclined guide rods, the six inclined guide rods are annularly connected to the guide disc at equal intervals, the inclined guide rods are communicated with the guide disc through the outlet, the guide disc is connected with the bearing support block, and the inclined guide rods penetrate through the mounting seat and are communicated with the receiving cavity.

The flow guide disc comprises five flow distribution pieces, an interface, triangular supports, curved arc plates and a shell, wherein the five flow distribution pieces are annularly connected to the shell at equal intervals, the curved arc plates connected with the five flow distribution pieces are arranged on two sides of the five flow distribution pieces, the triangular supports are arranged at the bottoms of the curved arc plates, one ends of the triangular supports, far away from the curved arc plates, are connected to the shell, a top convex elastic ball is mounted in the middle of the shell, the flow distribution pieces are communicated with the inclined guide rod through an outlet, and the shell is connected with the bearing support block.

The triangular support comprises two contact protection plates, two return clamping strips, two sliding blocks, a positioning seat and expansion limiting plates, wherein the two contact protection plates are symmetrically arranged on two sides of the positioning seat, the expansion limiting plate is arranged in the middle of the positioning seat, the return clamping strips are arranged on the expansion limiting plates, two ends of each return clamping strip are movably clamped with the sliding blocks, the two sliding blocks are arranged on the two contact protection plates, the contact protection plates are connected with the curved arc plates, and the positioning seat is connected to the shell.

As a further optimization of the invention, the water chute comprises a rotational flow guide piece, a diagonal flow plate, an auxiliary guide block, a protrusion, a laminated plate, a spring piece and a cavity, wherein the rotational flow guide piece is installed on the diagonal flow plate, the diagonal flow plate is communicated with the cavity, the cavity is provided with the laminated plate connected with the cavity, one end of the laminated plate is connected with the spring piece, the other end of the laminated plate is attached to the auxiliary guide block, one end of the auxiliary guide block, far away from the laminated plate, is connected with the protrusion, and the cavity is communicated with the receiving cavity.

The connecting block is provided with a rubber raised head which is attached to the connecting block, one end of the rubber raised head, far away from the connecting block, is provided with a plurality of wool tops, the plurality of wool tops are connected to the rubber raised head in an equidistant arc mode, the wool tops are connected with the connecting block through the rubber raised head, and the connecting block is connected to the auxiliary guide block.

As a further optimization of the invention, the rotational flow guide comprises a rotational flow disc, an intercommunicating cavity, a through hole and a rotating shaft, wherein the rotational flow disc is connected with the rotating shaft, the intercommunicating cavity communicated with the rotating disc is arranged inside the rotating disc, the intercommunicating cavity is communicated with the through hole, the through hole is formed in the rotating disc, and the rotating disc is mounted on the oblique flow plate.

As the further optimization of the invention content, the laminated slab is in a triangular step-shaped structure, and the laminated slab is symmetrically arranged in the cavity.

Advantageous effects

The thin film battery pack has the following beneficial effects:

1. according to the invention, through the combination arrangement of the flow guide plate, the inclined guide rods, the outlets and the top convex marbles, rainwater slides downwards onto the top convex marbles through the thin film batteries, and the top convex marbles are in a convex arc structure, so that the rainwater falls onto the top convex marbles and can slide downwards onto the flow guide plate due to impact inertia, the received rainwater is dispersed onto the six inclined guide rods through the flow guide plate, and then the rainwater is guided outwards through the outlets, so that the rainwater is effectively prevented from being accumulated on the side of the thin film batteries.

2. According to the invention, through the combined arrangement of the auxiliary guide block, the laminated slab and the cavity, the receiving cavity is communicated with the cavity, rainwater is guided to the cavity through the receiving cavity, and is downwards impacted on the laminated slab after being guided into the cavity, the laminated slab is in an arc triangular step structure, so that the falling rainwater can be effectively discharged to the inclined flow plates at two sides through the auxiliary guide block, and the inclined flow plates are inclined angles, so that the rainwater is effectively discharged outwards.

3. According to the invention, through the combined arrangement of the rotating disc, the communicating cavity, the through hole and the rotating shaft, when rainwater is guided downwards through the oblique flow plate, the rainwater can impact on the rotating disc, the impact force of the rainwater is used as the power for rotating the rotating disc, and the rotating disc drives the communicating cavity to rotate under the action of the rotating shaft, so that the rainwater is effectively discharged outwards, and the rainwater treatment efficiency is improved.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural view of a thin film battery assembly according to the present invention;

fig. 2 is a schematic side view of the protection device of the present invention.

Fig. 3 is a schematic top view of the dispersing member of the present invention.

Fig. 4 is a schematic cross-sectional view of a diaphragm according to the present invention.

FIG. 5 is a schematic view of the internal structure of the triangular brace of the present invention.

Fig. 6 is a schematic view of the internal structure of the water chute of the present invention.

FIG. 7 is a schematic cross-sectional view of a bump according to the present invention.

Fig. 8 is a schematic cross-sectional view of a swirl guide according to the invention.

In the figure: the device comprises a connecting buckle 1, a thin-film battery panel 2, a protective device 3, an adjusting frame 4, a fixed seat 5, a bearing support block 31, a placing plate 32, a mounting seat 33, a receiving cavity 34, a dispersing piece 35, a water chute 36, a diversion disc 351, an inclined guide rod 352, an outlet 353, a top convex elastic ball 354, a diversion piece 511, an interface 512, a triangular support 513, a bent arc plate 514, a shell 515, a contact protection plate K1, a back clamping strip K2, a sliding block K3, a positioning seat K4, a limiting and expanding plate K5, a rotational flow guide 361, a diagonal flow plate 362, an auxiliary guide block 363, a protrusion 364, a laminated plate 365, an elastic piece 366, a cavity 367, a wool top 641, a rubber boss 642, a connecting block 643, a rotating disc 611, an intercommunicating cavity 612, a through hole 613 and a rotating shaft 614.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Example one

Referring to fig. 1, the present invention provides a technical solution: the utility model provides a thin film battery subassembly, its structure is including linking up knot 1, thin film battery board 2, protector 3, alignment jig 4, fixing base 5, link up knot 1 and establish on protector 3, be equipped with thin film battery board 2 on protector 3, thin film battery board 2 is connected with protector 3 through linking up knot 1, 3 bottom both sides of protector all are equipped with the alignment jig 4 that meets with it, two alignment jig 4 inserts perpendicularly and inlays on fixing base 5.

Referring to fig. 2, the protection device 3 includes a bearing support block 31, a placing plate 32, a mounting seat 33, a receiving cavity 34, a dispersing member 35, and a water guiding groove 36, wherein the bearing support block 31 is provided with a plurality of bearing support blocks 31 which are transversely installed on the inner wall of the mounting seat 33 at equal intervals, the dispersing member 35 is connected to both sides of the bearing support blocks 31, the dispersing member 35 penetrates through the mounting seat 33 and is communicated with the receiving cavity 34, the receiving cavity 34 is arranged at the bottom of the mounting seat 33, the placing plate 32 is installed at one end of the mounting seat 33 far from the receiving cavity 34, the bottom of the receiving cavity 34 is communicated with the water guiding groove 36, the placing plate 32 is connected with the thin-film battery panel 2 through a connecting buckle 1, and the bottom of the placing plate 32 is connected with two adjusting frames 4.

The bearing support blocks 31 are used for being matched with the installation seats 33, the bearing support blocks 31 are transversely arranged on the installation seats 33 at equal intervals, the thin-film battery panel 2 is installed on the placing plate 32, the thin-film battery panel 2 is clamped and fixed through the installation seats 33 on two sides, and the side walls of the thin-film battery panel 2 are protected through the auxiliary installation seats 33 of the bearing support blocks 31.

Referring to fig. 3, the dispersion member 35 includes a diversion disc 351, an inclined guide rod 352, an outlet 353, and a top convex marble 354, the top convex marble 354 is installed at the middle position of the diversion disc 351, six inclined guide rods 352 are installed on the diversion disc 351, the six inclined guide rods 352 are connected to the diversion disc 351 in an equidistant ring shape, the inclined guide rods 352 are connected to the diversion disc 351 through the outlet 353, the diversion disc 351 is connected to the bearing support block 31, and the inclined guide rods 352 penetrate through the mounting seat 33 and are connected to the receiving cavity 34.

The above-mentioned flow guide disc 351 is used for cooperating the protruding marble 354 in top, and the rainwater can be on the protruding marble 354 of top of the downward landing, and the protruding marble 354 in top is convex structure and has better elasticity for the rainwater that falls on the protruding marble 354 of top of the top can be because inertia falls flow guide disc 351 to the both sides on, outwards derives the rainwater through flow guide disc 351.

Referring to fig. 4, the diversion disc 351 includes five diversion members 511, an interface 512, triangular supports 513, curved arc plates 514 and a housing 515, the diversion members 511 are provided with five diversion members 511 which are annularly connected to the housing 515 at equal intervals, the curved arc plates 514 connected to the five diversion members 511 are provided on two sides of the five diversion members 511, the triangular supports 513 are provided at the bottom of the curved arc plates 514, one ends of the triangular supports 513 far away from the curved arc plates 514 are connected to the housing 515, a top convex elastic ball 354 is installed at the middle position of the housing 515, the diversion members 511 are connected to the inclined guide rods 352 through outlets 353, and the housing 515 is connected to the load-bearing support block 31.

The curved arc plate 514 is used for matching with the flow dividing piece 511, rainwater falls on the curved arc plate 514 after sliding downwards through the top convex bouncing ball 354, and the curved arc plate 514 is of an arc-shaped structure, so that rainwater falling on the curved arc plate 514 can fall on the flow dividing piece 511 due to inertia, and the rainwater is effectively dispersed outwards and guided out through the flow dividing piece 511.

Referring to fig. 5, the triangular support 513 includes a contact protection plate K1, two back-clamping strips K2, two sliding blocks K3, a positioning seat K4, and a limit expansion plate K5, the contact protection plate K1 is provided with two back-clamping strips K2, the two contact protection plates K1 are symmetrically installed on two sides of the positioning seat K4, a limit expansion plate K5 is arranged at the middle position of the positioning seat K4, the back-clamping strips K2 are arranged on the limit expansion plate K5, two ends of the back-clamping strips K2 are movably engaged with the sliding blocks K3, the two sliding blocks K3 are provided with two back-clamping strips K3, the two back-clamping strips K1 are connected to the two contact protection plates K1, the contact protection plate K1 is connected to the curved arc plate 514, and the positioning seat K4 is connected to the housing 515.

Foretell clip strip K2 is used for cooperating contact protection plate K1, and clip strip K2 adopts rigid material to make, can effectively pin two contact protection plate K1, and curved arc board 514 adopts rubber materials to make, can inwards cave in receiving the impact force of rainwater, stably supports curved arc board 514 through contact protection plate K1, guarantees that curved arc board 514 can not inwards cave in after the impact force that receives the rainwater.

Example two

Referring to fig. 1, the present invention provides a technical solution: the utility model provides a thin film battery subassembly, its structure is including linking up knot 1, thin film battery board 2, protector 3, alignment jig 4, fixing base 5, link up knot 1 and establish on protector 3, be equipped with thin film battery board 2 on protector 3, thin film battery board 2 is connected with protector 3 through linking up knot 1, 3 bottom both sides of protector all are equipped with the alignment jig 4 that meets with it, two alignment jig 4 inserts perpendicularly and inlays on fixing base 5.

Referring to fig. 2, the protection device 3 includes a bearing support block 31, a placing plate 32, a mounting seat 33, a receiving cavity 34, a dispersing member 35, and a water guiding groove 36, wherein the bearing support block 31 is provided with a plurality of bearing support blocks 31 which are transversely installed on the inner wall of the mounting seat 33 at equal intervals, the dispersing member 35 is connected to both sides of the bearing support blocks 31, the dispersing member 35 penetrates through the mounting seat 33 and is communicated with the receiving cavity 34, the receiving cavity 34 is arranged at the bottom of the mounting seat 33, the placing plate 32 is installed at one end of the mounting seat 33 far from the receiving cavity 34, the bottom of the receiving cavity 34 is communicated with the water guiding groove 36, the placing plate 32 is connected with the thin-film battery panel 2 through a connecting buckle 1, and the bottom of the placing plate 32 is connected with two adjusting frames 4.

The bearing support blocks 31 are used for being matched with the installation seats 33, the bearing support blocks 31 are transversely arranged on the installation seats 33 at equal intervals, the thin-film battery panel 2 is installed on the placing plate 32, the thin-film battery panel 2 is clamped and fixed through the installation seats 33 on two sides, and the side walls of the thin-film battery panel 2 are protected through the auxiliary installation seats 33 of the bearing support blocks 31.

Referring to fig. 6, the water chute 36 includes a cyclone guide 361, an oblique flow plate 362, an auxiliary guide block 363, a protrusion 364, a laminated plate 365, a resilient member 366, and a cavity 367, the cyclone guide 361 is installed on the oblique flow plate 362, the oblique flow plate 362 is communicated with the cavity 367, the cavity 367 is provided with the laminated plate 365 connected thereto, one end of the laminated plate 365 is connected with the resilient member 366, the other end of the laminated plate is attached to the auxiliary guide block 363, one end of the auxiliary guide block 363 away from the laminated plate 365 is connected with the protrusion 364, and the cavity 367 is communicated with the receiving cavity 34.

Referring to fig. 6, the stacked plate 365 is in a triangular step structure, and the stacked plate 365 is symmetrically installed inside the cavity 367.

The inclined flow plates 362 are used for matching with the laminated plate 365, the laminated plate 365 is in an arc-shaped triangular step-shaped structure, rainwater falls on the laminated plate 365 and falls on the inclined flow plates 362 towards two sides due to inertia, and the inclined flow plates 362 are in an inclined arc shape, so that the rainwater can stably slide downwards on the inclined flow plates 362 through the laminated plate 365 and is led out outwards through the inclined flow plates 362.

Referring to fig. 7, the protrusion 364 includes a strip 641, a rubber protrusion 642, and a connection block 643, the connection block 643 is provided with the rubber protrusion 642 attached thereto, one end of the rubber protrusion 642 far from the connection block 643 is provided with a plurality of strips 641, the plurality of strips 641 are connected to the rubber protrusion 642 in an equidistant arc manner, the strips 641 are connected to the connection block 643 through the rubber protrusion 642, and the connection block 643 is connected to the auxiliary guide block 363.

The top wool 641 is used for matching with the connecting block 643, the plurality of top wool 641 is connected to the rubber nose 642, and the rubber nose 642 and the plurality of top wool 64 form a structure like a Chinese hill, so that the top wool and the rubber nose are matched with each other to form a function of being not stained with water, and rainwater is effectively led out.

Referring to fig. 8, the swirling guide 361 includes a swirling disc 611, a communicating chamber 612, a through hole 613, and a rotating shaft 614, the rotating disc 611 is connected to the rotating shaft 614, the communicating chamber 612 is disposed inside the rotating disc 611 and communicated with the rotating disc 611, the communicating chamber 612 is communicated with the through hole 613, the through hole 613 is disposed on the rotating disc 611, and the rotating disc 611 is mounted on the inclined flow plate 362.

The communicating cavity 612 is used for being matched with the rotating disc 611, the rotating disc 611 rotates under the flowing effect of rainwater, rainwater can flow into the communicating cavity 612 through the through holes 613 in the rotating process of the rotating disc 611, and the rainwater is dispersed and guided out through the communicating cavity 612 and the rotating disc 611, so that the rainwater drainage efficiency is improved.

The working principle of the above technical solution is explained as follows:

when the invention is used, the thin-film battery board 2 is arranged on the placing board 32, the mounting seats 33 at the two ends of the placing board 32 are used for supporting and positioning the position of the thin-film battery board 2, the thin-film battery board 2 is stably arranged on the placing board 32 through the connecting buckles 1 at the two sides of the placing board 32, the two ends of the thin-film battery board 2 are connected on the mounting seats 33, the thin-film battery board 2 is stably supported through the bearing support blocks 31 on the two mounting seats 33, so that the thin-film battery board 2 can not be directly pressed on the dispersion piece 35, the angles of the thin-film battery board 2 are adjusted by mutually matching the two adjusting frames 4, the thin-film battery board 2 can effectively receive sunlight, rainwater can downwards drip on the thin-film battery board 2 in rainy days, the thin-film battery board 2 can be in an inclined state under the action of the adjusting frames 4, so that the rainwater can downwards slide on the mounting seats 33 along the thin-film battery board 2 due to inertia, rainwater enters the mounting seat 33 and vertically falls onto the top lug 354, the top lug 354 is of an arc-shaped structure, rainwater falling onto the top lug 354 slides downwards to two sides due to inertia and falls onto the flow dividing piece 511, rainwater falling into the flow dividing piece 511 respectively falls onto the interface 512 and the curved arc plate 514, part of rainwater falling onto the interface 512 directly slides downwards onto the inclined guide rod 352, part of rainwater falls onto the curved arc plate 514, the curved arc plate 514 is inwards impacted by the rainwater, the curved arc plate 514 sinks and then guides pressure downwards onto the contact protection plate K1, the contact protection plate K1 is pressed and then opens at two sides, the contact protection plate K1 is restrained by the back clamping strip K2, so that two ends of the contact protection plate K1 are simultaneously stressed to generate a mutual exclusion phenomenon, and the position of the contact protection plate K1 is limited by the positioning seat K4, so that the contact protection plate K1 can effectively support the curved arc plate upwards, guarantee that curved arc board 514 is difficult for inwards caving in after the pressurized, effectively keep the curved arc state of curved arc board 514, the rainwater that drops on curved arc board 514 can be because curved arc board 514's arc inertia disperses the interface 512 of water conservancy diversion to both sides on, mutually support through interface 512 and curved arc board 514 and deliver to slope guide arm 352 with the rainwater down, reuse export 353 outwards derives the inside rainwater of slope guide arm 352, effectively with the rainwater guide deliver to on receiving chamber 34.

The receiving cavity 34 and the cavity 367 are communicated with each other, so that rainwater can flow downwards into the cavity 367 through the receiving cavity 34, the rainwater can impact on the laminated plate 365 downwards due to inertia when flowing into the cavity 367, the laminated plate 365 is buffered through the bouncing piece 366, the concave arc phenomenon cannot occur after the laminated plate 365 is impacted, the laminated plate 365 can be stably in a step shape, when the rainwater falling on the laminated plate 365 slides to two sides due to inertia, the rainwater can directly contact with the wool tops and the rubber bosses 642 in the sliding process, the rubber bosses 642 are provided with a plurality of wool tops 641, the plurality of wool tops 641 and the rubber bosses 642 are mutually matched to adopt the non-wetting effect of bionic lotus leaves, the rainwater can be effectively guided out to two sides, the rainwater cannot be stained on the laminated plate 365, the plurality of rubber bosses 642 are installed on the auxiliary guide blocks 363 through the connecting blocks 643, the auxiliary guide blocks 363 are connected to the laminated plate 365, the rubber bosses 642 are in a curved structure under the action of the auxiliary guide blocks 363, rainwater is effectively led out, the rainwater is led to the inclined flow plate 362 under the action of the auxiliary guide blocks 363 and the laminated plate 365, the inclined flow plate 362 is in an inclined bending state, the rainwater can slide down to the inclined flow plate 362 due to inertia, the rainwater flows downwards and impacts the rotating disc 611, the flowing of the rainwater is used as power for rotating the rotating disc 611, the rotating disc 611 rotates under the action of the rotating shaft 614, the rotating disc 611 rotates and divides and leads the rainwater in the inclined flow plate 362 out, part of the rainwater can flow into the communicating cavity 612 through the through holes 613 in the rotating water guiding process of the rotating disc 611, the rainwater in the inclined flow plate 362 is effectively divided through the communicating cavity 612, and the communicating cavity 612 rotates under the action of the rotating disc 611, the inside rainwater of intercommunication chamber 612 can produce centrifugal force because of the rotation of rotary disk 611, the rainwater can be derived the rainwater downwards through-hole 613 under the effect of centrifugal force, outwards derive the rainwater through the terminal interface of oblique flow board 362, make the rainwater of rainy can directly not pile up between film battery board 2 and mount pad 33, guarantee that film battery board 2 can keep dry state in the course of the work, protect film battery board 2, make film battery board 2 can stably operate, improve film battery's generating efficiency.

In summary, the invention adopts the combination of the connecting buckle, the thin-film battery panel, the protective device, the adjusting bracket and the fixing seat to form a new thin-film battery assembly, when the thin-film battery is used, the thin-film battery panel is placed on the placing plate, the position of the thin-film battery panel is limited by the mounting seat, when the thin-film battery is in a rainy day, rainwater can be downwards guided to the dispersing pieces due to the inclined inertia of the thin-film battery panel, the rainwater is shunted and guided to the receiving cavity by the plurality of dispersing pieces, the receiving cavity is communicated with the water guide groove, so that the receiving cavity can guide the rainwater to the water guide groove, and the rainwater is outwards guided out through two ends of the water guide groove, so that the rainwater cannot be accumulated between the thin-film battery panel and the mounting seat, the thin-film battery panel can stably operate, and the power generation efficiency of the thin-film battery is improved.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.