CN115440840A - Portable solar cell panel and processing technology thereof - Google Patents

Abstract

The invention discloses a portable solar cell panel and a processing technology thereof, belongs to the technical field of solar cells, and solves the problems of inconvenience in carrying, easiness in deformation and nonadjustable illumination angle in the prior art. According to the solar cell panel, the solar cell panel is sewn in the shell after being hot-pressed, so that the solar cell panel is convenient to carry, the adjusting component is arranged at the back of the shell, the deflection angle of the solar cell panel is adjusted in time according to daily illumination change, the light energy conversion performance is improved, the glass layer is arranged in the solar cell panel, and the strength of the solar cell panel is improved by utilizing the rigidity of glass.

Description

Portable solar cell panel and processing technology thereof

Technical Field

The invention belongs to the technical field of solar cells, and particularly relates to a portable solar cell panel and a processing technology thereof.

Background

With the continuous acceleration of scientific and technological development, energy sources become bottlenecks restricting the scientific and technological development, the reserves of traditional non-renewable energy sources such as petroleum and coal are limited, and people pay more and more attention to renewable energy sources such as wind power, hydropower and solar energy. Solar energy plays an important role in the development of new energy technology as renewable clean energy, and is widely applied to all corners of the society, such as large-scale solar thermal power stations adopting heat collecting towers and heliostats and small-scale solar cell panels erected on all street lamp poles. But current solar cell panel weight is great and can not buckle for it is inconvenient to remove, leads to it to have the inconvenient problem of carrying, and solar cell panel is direct the tiling usually on subaerial when field usage in addition, makes solar cell panel very easily receive the influence of ground humidity, shortens solar cell panel's life, simultaneously because solar cell panel tiles in ground, it receives the sun illumination angle fixed, can't change and the maximum receives the sun illumination according to the illumination angle.

Disclosure of Invention

The invention aims to provide a portable solar cell panel which is convenient to carry, not easy to deform and adjustable in illumination angle and a processing technology thereof, aiming at the defects in the prior art.

In order to achieve the technical purpose, the portable solar cell panel and the processing technology thereof adopt the technical scheme that:

a portable solar cell panel comprises two solar cell panels and a shell sleeved outside the solar cell panels, wherein the solar cell panels sequentially comprise an ETFE panel, a glass layer, an EVA (ethylene vinyl acetate) adhesive layer, a solar silicon wafer, an EVA adhesive layer and an ETFE back plate from top to bottom, the ETFE panel is subjected to hot-press packaging on the glass layer, the edge of the ETFE back plate is heated and melted and then sewn on the edge of the inner side of the shell, the shell consists of a first shell and a second shell, the middle parts of the first shell and the second shell are symmetrically folded, the first shell and the second shell are respectively embedded into the solar cell panels and then are laminated and sewn with the ETFE back plate, and the first shell and the second shell respectively comprise a bottom plate attached to the ETFE back plate and a wrapping edge wrapping the edge of the ETFE panel;

the back of the shell is provided with an adjusting component for driving the shell to adjust the illumination receiving angle, the adjusting component comprises a vertical frame, the top of the vertical frame is provided with a light intensity sensor, the setting direction of the light intensity sensor is consistent with the orientation of the solar cell panel, the surface of the side part of the vertical frame is rotationally connected with a driving gear, the back of the driving gear is connected with a micro motor, the micro motor is electrically connected with the light intensity sensor, the middle part of the driving gear is connected with a rotating wheel through a connecting shaft, the position of the wheel surface of the rotating wheel, which is far away from the center of the circle, is connected with the connecting shaft, and the periphery of the rotating wheel is provided with a connecting arm which extends outwards, the linking arm other end is connected with linking rod upper portion, the linking rod top is inserted the shell back and is connected with the shell, the linking rod bottom is connected with the regulating arm, the kidney-shaped groove has been seted up on the regulating arm surface, sliding connection has the driven shaft that drives the regulating arm rotation from top to bottom in the kidney-shaped groove, the driven shaft is fixed in the driven gear wheel face, and its skew the driven gear centre of a circle, the driven gear centre of a circle is connected with the grudging post through the fixed axle, the driven gear teeth of a tooth with the drive gear teeth of a tooth mesh mutually, the regulating arm other end is articulated mutually with the grudging post.

Preferably, the width of the ETFE back plate is 2-3 cm larger than that of the ETFE panel.

Preferably, the middle parts of the first shell and the second shell are connected into a whole through canvas, and the side parts of the first shell and the second shell are respectively provided with a handle which is buckled with each other.

Preferably, the back parts of the first shell and the second shell are sewn with a supporting plate, the inner wall of the bottom of the supporting plate is provided with a magic tape, and the magic tape is adhered with a magic tape female tape arranged on the surface of the first shell or the second shell.

Preferably, the outer side of the supporting plate is further provided with a storage bag, the storage bag is sewn on the surface of the first shell or the surface of the second shell, and a converter for converting solar energy into electric energy is arranged in the storage bag.

Preferably, the magic tape sub-tape is connected with the magic tape mother tape through a connecting strip.

A processing technology of a portable solar cell panel comprises the following steps:

s1, laying an ETFE panel, a glass layer, an upper EVA adhesive layer, a lower EVA adhesive layer, a solar silicon wafer and an ETFE back plate, putting the laid battery into a laminator for heating and laminating, wherein the heating temperature is controlled to be 150-160 ℃, a step-by-step heating mode is adopted, the heating time is controlled to be 1h, and the heating time is not less than 3h;

s2, placing the laminated semi-finished product in a first shell and a second shell, extruding and adhering the edge of the ETFE backboard in a molten state and the inner side edge of the shell into a whole, and cooling;

s3, sewing and packaging the binding part of the ETFE back plate and the wrapping edge of the shell, and sewing a support plate and a storage bag on the back of the shell;

and S4, placing the adjusting component and the converter into a storage packet.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, the solar panel is sewed in the shell after being hot-pressed, so that the solar panel is convenient to carry, and the problem that the solar panel cannot be carried due to overlarge volume and overweight weight after being packaged by a conventional metal frame is solved; an adjusting component is arranged on the back of the shell, the deflection angle of the solar cell panel is adjusted in time according to daily illumination change, and meanwhile, the solar cell panel is enabled to stably receive solar illumination at the maximum angle by matching with the supporting plate, so that the light energy conversion performance is improved; set up panel and backplate into the ETFE panel among the solar cell panel, effectively utilize its portability, reduce solar cell panel weight, set up the glass layer in solar cell panel, utilize the glass rigidity, promote solar cell panel's intensity, reduce solar cell panel's deformation.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a state diagram of the first and second housings in the present invention after being combined;

FIG. 3 is a schematic view of the structure of the solar panel of the present invention;

FIG. 4 is a schematic view showing an opened state of the support plate according to the present invention;

FIG. 5 is a schematic view of an adjusting assembly according to the present invention.

In the figure: 1. a solar panel; 2. a first housing; 3. a second housing; 4. erecting a frame; 5. a drive gear; 6. a connecting shaft; 7. a rotating wheel; 8. a connecting arm; 9. a linkage rod; 10. an adjusting arm; 11. a kidney-shaped groove; 12. a driven shaft; 13. a driven gear; 14. a handle; 15. a support plate; 16. a magic tape; 17. a magic tape female tape; 18. storing the package; 19. a connecting strip;

101.Etfe panel; 102. a glass layer; 103.EVA glue layer; 104. a solar silicon wafer; etfe backplane.

Detailed Description

The invention will be further described with reference to the following drawings and detailed description:

as shown in fig. 1-5, a portable solar cell panel includes two solar cell panels 1 and a housing sleeved outside the solar cell panel 1, where the solar cell panel 1 includes, from top to bottom, an ETFE panel 101, a glass layer 102, an EVA adhesive layer 103, a solar silicon wafer 104, an EVA adhesive layer 103, and an ETFE back plate 105 in sequence, the ETFE panel 101 is hot-pressed and encapsulated with the glass layer 102, the edge of the ETFE back plate 105 is heated and melted and then sewn to the inner side edge of the housing, the housing is composed of a first housing 2 and a second housing 3, which are symmetrically folded at the middle portions, the first housing 2 and the second housing 3 are respectively embedded into the solar cell panel 1 and then laminated and sewn to the ETFE back plate 105, and the first housing 2 and the second housing 3 both include a bottom plate attached to the ETFE back plate 105 and a wrapping edge wrapping the edge of the ETFE panel 101;

the shell back is equipped with the adjustment subassembly of ordering about its adjustment illumination angle of receipt, the adjustment subassembly includes grudging post 4, 4 tops of grudging post are equipped with light intensity sensor, light intensity sensor sets up the direction unanimous with solar cell panel 1 orientation, 4 lateral part surfaces of grudging post rotate and are connected with drive gear 5, 5 backs of drive gear are connected with micro motor, micro motor and light intensity sensor electric connection, 5 middle parts of drive gear are connected with rotor 7 through connecting axle 6, centre of a circle department is kept away from to rotor 7 wheel face and is connected with connecting axle 6, 7 peripheries of rotor are equipped with outside linking arm 8 that stretches out, 8 other ends of linking arm are connected with gangbar 9 upper portion, the shell back is inserted at gangbar 9 top and is connected with the shell, gangbar 9 bottom is connected with regulating arm 10, waist shape groove 11 has been seted up on regulating arm 10 surface, sliding connection has driven shaft 12 that drives regulating arm 10 rotation from top to bottom in the waist shape groove 11, driven shaft 12 is fixed in driven shaft 13 wheel faces of driven shaft, and its skew driven gear 13, driven gear 13 is connected through the fixed axle and the centre of a circle with 4 centre of a circle, the driven gear 13 teeth of a circle with 5 other ends of a circle regulating arm meshes with the articulated regulating arm, the other end of regulating arm is with the grudging post is mutually.

The width of the ETFE back plate 105 is 2-3 cm larger than that of the ETFE panel 101. The ETFE back plate is heated and melted to be bonded with the edge covering by extending the ETFE back plate by 2-3 cm.

The middle parts of the first shell 2 and the second shell 3 are connected into a whole through canvas, and the side parts of the first shell 2 and the second shell 3 are respectively provided with a handle 14 which is buckled with each other. Through setting up handle 14, make solar cell panel 1 be convenient for snatch.

Backup pad 15 has all been made up to first casing 2 and 3 backs of second casing, and backup pad 15 bottom inner wall is equipped with the magic and pastes 16, and the magic is pasted 16 and is pasted 17 mutually with the magic of arranging first casing 2 or second casing 3 surface in, the backup pad 15 outside still is equipped with storage package 18, and storage package 18 sews up in first casing 2 or second casing 3 surface, is equipped with the converter that turns into solar energy electric energy in the storage package 18, magic paste 16 with be connected through connecting strip 19 between the magic subsides 17. Through setting up backup pad 15, make its supplementary adjustment subassembly, make solar cell panel firm in ground, fully absorb solar energy.

When the solar energy power generation device works, the first shell 2 and the second shell 3 are opened from the middle part, the vertical frame 4 is fixed, the adjusting component is inserted into the back part of the shell, the adjusting component supports the solar cell panel 1, meanwhile, the supporting plate 15 is opened to support the solar cell panel 1, and after receiving the sun illumination, the solar cell panel 1 converts the solar energy into electric energy through the converter and stores the electric energy; when the illuminance sensor detects that the illumination at the current angle is insufficient, a signal is transmitted to the micro motor, the micro motor is started to drive the driving gear 5 to rotate, the connecting shaft 6 on the surface of the driving gear 5 drives the rotating wheel 7 to rotate, the connecting shaft 6 is located at the non-circle center position of the rotating wheel 7, along with the rotation of the rotating wheel 7, the connecting arm 8 on the surface of the rotating wheel 7 drives the upper part of the linkage rod 9 to move backwards towards the back of the solar panel 1, the driven gear 13 is meshed with the surface of the driving gear 5, so along with the rotation of the driving gear 5, the driven gear 13 rotates reversely, the driven shaft 12 on the surface of the driven gear 13 slides along the inner wall of the kidney-shaped groove 11, the adjusting arm 10 is driven to rotate downwards, then the bottom of the linkage rod 9 moves downwards, so that the included angle between the solar panel 1 and the ground is increased, the setting angle of the solar panel 1 is changed, the solar illumination is absorbed more fully, and otherwise, the setting angle of the solar panel 1 is restored to the original position; when solar cell panel 1 need not receive the sunlight, pack up backup pad 15, 16 and the female 17 bonding of magic subsides are pasted to the magic, take out adjustment assembly from the shell back, merge first casing 2 and second casing 3, wholly carry solar cell panel 1.

A processing technology of a portable solar cell panel comprises the following steps:

s1, laying an ETFE panel, a glass layer, an upper EVA adhesive layer, a lower EVA adhesive layer, a solar silicon wafer and an ETFE back plate, putting the laid battery into a laminator for heating and laminating, wherein the heating temperature is controlled to be 150-160 ℃, a step-by-step heating mode is adopted, the heating time is controlled to be 1h, and the heating time is not less than 3h;

s2, placing the laminated semi-finished product in a first shell and a second shell, extruding and adhering the edge of the ETFE backboard in a molten state and the edge of the inner side of the shell into a whole, and cooling;

s3, sewing and packaging the binding part of the ETFE back plate and the edge of the shell, and sewing a support plate and a storage bag on the back of the shell;

s4, the adjusting component and the converter are placed in a storage bag.

According to the invention, the ETFE back plate is fused, bonded with the shell and sewn, so that the solar cell panel is convenient to carry and has good integrity.

Therefore, the invention is not to be limited to the specific embodiments, but rather, all equivalent changes and modifications in the shapes, structures, characteristics and spirit of the invention are intended to be included within the scope of the appended claims.

Claims (7)

1. The utility model provides a portable solar cell panel, includes that two solar cell panels and cover locate the outside shell of solar cell panel, its characterized in that: the solar cell panel sequentially comprises an ETFE panel, a glass layer, an EVA (ethylene vinyl acetate) adhesive layer, a solar silicon wafer, an EVA adhesive layer and an ETFE back panel from top to bottom, the ETFE panel is used for hot-pressing and packaging the glass layer, the edge of the ETFE back panel is heated and melted and then sewn on the edge of the inner side of the shell, the shell consists of a first shell and a second shell, the middle parts of the first shell and the second shell are symmetrically folded, the first shell and the second shell are respectively embedded into the solar cell panel and then are laminated and sewn with the ETFE back panel, and the first shell and the second shell respectively comprise a bottom plate attached to the ETFE back panel and a wrapping edge wrapping the edge of the ETFE panel;

the back of the shell is provided with an adjusting component for driving the shell to adjust the illumination receiving angle, the adjusting component comprises a vertical frame, the top of the vertical frame is provided with a light intensity sensor, the setting direction of the light intensity sensor is consistent with the orientation of the solar cell panel, the surface of the side part of the vertical frame is rotationally connected with a driving gear, the back of the driving gear is connected with a micro motor, the micro motor is electrically connected with the light intensity sensor, the middle part of the driving gear is connected with a rotating wheel through a connecting shaft, the position of the wheel surface of the rotating wheel, which is far away from the center of the circle, is connected with the connecting shaft, and the periphery of the rotating wheel is provided with a connecting arm which extends outwards, the linking arm other end is connected with linking rod upper portion, the linking rod top is inserted the shell back and is connected with the shell, the linking rod bottom is connected with the regulating arm, the kidney-shaped groove has been seted up on the regulating arm surface, sliding connection has the driven shaft that drives the regulating arm rotation from top to bottom in the kidney-shaped groove, the driven shaft is fixed in the driven gear wheel face, and its skew the driven gear centre of a circle, the driven gear centre of a circle is connected with the grudging post through the fixed axle, the driven gear teeth of a tooth with the drive gear teeth of a tooth mesh mutually, the regulating arm other end is articulated mutually with the grudging post.

2. The portable solar panel of claim 1, wherein: the width of the ETFE back plate is 2-3 cm larger than that of the ETFE panel.

3. The portable solar panel as recited in claim 1, wherein: the middle parts of the first shell and the second shell are connected into a whole through canvas, and the side parts of the first shell and the second shell are respectively provided with a handle which is buckled with each other.

4. The portable solar panel of claim 1, wherein: the back parts of the first shell and the second shell are sewn with supporting plates, the inner wall of the bottom of each supporting plate is provided with a magic tape, and the magic tapes are adhered with the magic tapes arranged on the surface of the first shell or the second shell.

5. The portable solar panel as recited in claim 4, wherein: the solar water heater is characterized in that a storage bag is further arranged on the outer side of the supporting plate and is sewn on the surface of the first shell or the surface of the second shell, and a converter for converting solar energy into electric energy is arranged in the storage bag.

6. The portable solar panel as recited in claim 4, wherein: the magic tape is connected with the magic tape female tape through a connecting strip.

7. The processing technology of the portable solar cell panel is characterized by comprising the following steps: the method comprises the following steps:

s1, laying an ETFE panel, a glass layer, an upper EVA adhesive layer, a lower EVA adhesive layer, a solar silicon wafer and an ETFE back plate, putting the laid battery into a laminator for heating and laminating, wherein the heating temperature is controlled to be 150-160 ℃, a step-by-step heating mode is adopted, the heating time is controlled to be 1h, and the heating time is not less than 3h;

s2, placing the laminated semi-finished product in a first shell and a second shell, extruding and adhering the edge of the ETFE backboard in a molten state and the edge of the inner side of the shell into a whole, and cooling;

s3, sewing and packaging the binding part of the ETFE back plate and the edge of the shell, and sewing a support plate and a storage bag on the back of the shell;

and S4, placing the adjusting component and the converter into a storage packet.

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