CN203839394U - Reflective film pasting equipment for photovoltaic modules of photovoltaic welding belt automatic-welding production line - Google Patents

Abstract

A piece of reflective film pasting equipment for photovoltaic modules of a photovoltaic welding belt automatic-welding production line comprises a pre-storage station, a heating work station and a completion station which are always in a working plane and arranged in parallel. A mechanical arm is also arranged in the working plane, and runs among the pre-storage station, the heating work station and the completion station through a mechanical arm guide rail. The pasting equipment further comprises a reflective film wiring mechanism used for pasting a reflective film, and three reflective film pasting mechanisms arranged at the bottom of the reflective film wiring mechanism. The reflective film wiring mechanism and the reflective film pasting mechanisms are arranged above the working plane. The rear end of the reflective film wiring mechanism is connected with a screw feeding mechanism. With the equipment of the utility model, a reflective film with a light refraction function can be pasted on the surface of a photovoltaic welding belt, and the reflective film reflects incident light back to a part, capable of generating power, of the surface of a cell panel, thereby improving the photoelectric conversion efficiency.

Description

The subsides volt equipment of reflectance coating for the photovoltaic module of photovoltaic welding belt automatic welding production line

Technical field

The utility model relates to the production equipment of the battery panel components of photovoltaic generation, is specifically related to the subsides volt equipment of reflectance coating for a kind of photovoltaic module of photovoltaic welding belt automatic welding production line.

Background technology

Solar photovoltaic generation system (abbreviation photovoltaic) is a kind ofly utilize photovoltaic effect and solar energy be converted into the system of electric energy, the critical piece of its opto-electronic conversion is semiconductor crystal Silicon photrouics, when solar irradiation is on crystal silicon photovoltaic cell time, crystal silicon photovoltaic cell will become the luminous energy of the sun into electric energy, generation current.When many crystal silicon photovoltaic cells are together in series or parallel, just can become and have the solar panel of larger power output.Photovoltaic module production is at present all the photovoltaic welding belt of conduction of burn-oning on cell panel surface, the electric energy that each crystal silicon photovoltaic cell could be produced is derived, but photovoltaic welding belt itself is light tight, and taken a part of cell panel surface area, the surface area that causes cell panel can absorb luminous energy reduces, affect photoelectric conversion efficiency, reduced energy output.

Utility model content

In order to overcome above-mentioned the deficiencies in the prior art, the utility model provides the subsides volt equipment of a kind of photovoltaic module of photovoltaic welding belt automatic welding production line with reflectance coating, it pastes volt on photovoltaic welding belt by the reflectance coating with light reflection function, it utilizes the anaclasis function of reflectance coating, the light on photovoltaic welding belt surface is reflected back to battery panel components surface and can absorbs the part that transform light energy is electric energy, thereby improved energy output, the technical scheme that the utility model adopts is: the subsides volt equipment of reflectance coating for a kind of photovoltaic module of photovoltaic welding belt automatic welding production line, comprise all the time at a working face the platform that prestores that be arranged in parallel, heating work platform, completion platform, on same working face, be also provided with manipulator, described manipulator by manipulator guide rail at the platform that prestores, heating work platform, between completion platform, move,

Described subsides volt equipment also comprises that 1 is walked line mechanism and is arranged on 3 reflectance coating Tie Fu mechanisms that reflectance coating is walked line mechanism bottom for pasting the reflectance coating of volt reflectance coating, described reflectance coating is walked the top that line mechanism and reflectance coating Tie Fu mechanism are arranged on described working face, and reflectance coating is walked line mechanism rear end and connected leading screw feed mechanism.

Further improve and be, be provided with 4 for locating the shop bolt of photovoltaic cell on described heating work table top, described heating work platform bottom is provided with 4 ejecting rod of cylinder, and described heating work platform inside is provided with heating resistor Shi Shisi.

Further improve and be, described reflectance coating cabling is in-house arranges 3 for being set with the rollers of reflectance coating volume, the position of described 3 rollers and to be arranged on 3 reflectance coating Tie Fu mechanisms that reflectance coating walks bottom line mechanism corresponding.

Further improve and be, described reflectance coating Tie Fu mechanism is provided with briquetting, cutter and photoelectrical position sensor, and described briquetting is all connected motion cylinder with cutter.

Further improve and be, described reflectance coating one side carries cohesive material.

The utility model first cuts out reflectance coating the overall dimension identical with photovoltaic welding belt, and form reflectance coating volume, this reflectance coating volume is sleeved on reflectance coating and walks on the roller of line mechanism, the end of reflectance coating volume is drawn, the briquetting of recycling reflectance coating Tie Fu mechanism is attached to reflectance coating (reflectance coating one side carries viscosity) on the surface of photovoltaic welding belt, utilize the anaclasis function of reflectance coating, can go back to the surface that cell panel can absorb luminous energy by being radiated at the anaclasis that can not generate electricity on photovoltaic welding belt, thereby improve energy output.

Compared with prior art, the beneficial effects of the utility model are to improve the photoelectric conversion efficiency of photovoltaic module 2.5%.

Accompanying drawing explanation

Fig. 1 is the structural representation of stickup reflectance coating of the present utility model;

Fig. 2 is light path schematic diagram of the present utility model;

Fig. 3 is the plan structure schematic diagram of subsides volt equipment of the present utility model;

Fig. 4 is the main TV structure schematic diagram that the reflectance coating of subsides volt equipment of the present utility model is walked line mechanism, reflectance coating Tie Fu mechanism, heating work platform.

Embodiment

Below in conjunction with accompanying drawing, the utility model is further illustrated.Fig. 1 is that the utility model sticks on the structural representation on photovoltaic welding belt by reflectance coating, first reflectance coating 2 is cut out identical with photovoltaic welding belt 3, recycling briquetting 1 is given the certain pressure of reflectance coating 2, utilizes the bonding force of pressure and reflectance coating 2 reverse side, and just reflectance coating 2 is attached to photovoltaic welding belt 3 surfaces.

As shown in Figure 2, it is light path schematic diagram of the present utility model, in accompanying drawing 2, incident light direct projection enters the glass 6 of photovoltaic battery panel, be irradiated to reflectance coating 2, utilize the reflective functions of reflectance coating 2 and the single-surface transparent photosensitiveness of glass 6, by being radiated at the anaclasis that can not generate electricity on photovoltaic welding belt 3, go back to photovoltaic cell 4 surfaces, photovoltaic cell packaging adhesive film 5 is the thermosetting transparent adhesive films that are filled between glass 6 and photovoltaic cell 4, incident light or refract light can directly penetrate photovoltaic cell package glued membrane 5 and arrive photovoltaic cell 4 surfaces, thereby improved photoelectric conversion efficiency, improved energy output.

Preferred embodiment of the present utility model is as follows:

Existing photovoltaic cell, 3 photovoltaic welding belts of many employings are connected in series some crystal silicon photovoltaic cells, 3 photovoltaic welding belts of now take are example, subsides volt equipment of the present utility model is described: as shown in accompanying drawing 3 and accompanying drawing 4, it is plan structure schematic diagram and the main TV structure schematic diagram of subsides volt equipment of the present utility model, comprise all the time the platform 12 that prestores at a working face, heating work platform 11, completion platform 13, prestore platform 12 for placing the photovoltaic cell 4 for the treatment of pad pasting, heating work platform 11 is heating arrangements and film sticking working table faces of photovoltaic cell 4, on table top, be provided with 4 for locating the shop bolt 19 of photovoltaic cell 4, heating work platform 11 bottoms are provided with 4 ejecting rod of cylinder 20, heating work platform 11 inside are provided with heating resistor Shi Shisi (not shown), completion platform 13 is for depositing photovoltaic cell 4 finished products that post film,

The utility model is also provided with the manipulator 17 of rubber suction cups and manipulator guide rail 18, and described manipulator 17 can move by manipulator guide rail 18 between the platform 12 that prestores, heating work platform 11, completion platform 13, for transporting photovoltaic cell 4;

Pad pasting work mainly by reflectance coating, walks line mechanism 14 and reflectance coating Tie Fu mechanism 15 completes, reflectance coating is walked line mechanism 14 and is connected leading screw feed mechanism 16, by leading screw feed mechanism 16, complete reflectance coating and walk line mechanism 14 feeding or returning as arrow indication, reflectance coating is walked line mechanism 14 inside 3 rollers (not shown) is set, reflectance coating 2 volumes are enclosed within on roller, along with the rotation of roller, reflectance coating 2 folding and unfolding thereupon; Reflectance coating Tie Fu mechanism 15 is arranged on reflectance coating and walks line mechanism 14 bottoms, and according to the number of photovoltaic welding belt, reflectance coating Tie Fu mechanism 15 has 3, respectively corresponding 3 photovoltaic welding belts that need pad pasting.

In actual production, first according to photovoltaic welding belt width dimensions, choose corresponding reflectance coating 2, and reflectance coating 2 is arranged on to reflectance coating walks on the roller in line mechanism 14, the contact-making surface of reflectance coating 2 and photovoltaic welding belt 3 carries cohesive material, the end of reflectance coating 2 is drawn, and its end is arranged on the briquetting 1 of reflectance coating Tie Fu mechanism 15;

Then by the running of manipulator 17, the photovoltaic cell 4 for the treatment of pad pasting is transported to heating work platform 11 from the platform 12 that prestores, 4 shop bolts 19 on heating work platform 11, complete the location to photovoltaic cell 4, the inside of heating work platform is provided with heating resistor Shi Shisi, for heating the photovoltaic welding belt 3 on photovoltaic cell 4, its heating and temperature control, between 70-95 degree Celsius, can make the reflectance coating 2 sticking on photovoltaic welding belt 3 have better viscosity after heating;

Then reflectance coating Tie Fu mechanism 15 is aimed to the end (passing through photoelectrical position sensor) of photovoltaic welding belt 3, the briquetting 1 of reflectance coating Tie Fu mechanism 15 presses down (by motion cylinder, controlling), reflectance coating 2 is crimped on to the upper surface of photovoltaic welding belt 3 ends, the pressure that 1 pair of reflectance coating 2 of briquetting and photovoltaic welding belt 3 produce is 60-80 MPa, by leading screw feed mechanism 16, complete reflectance coating and walk line mechanism 14 feeding as arrow indication, reflectance coating walks line mechanism 14 and reflectance coating Tie Fu mechanism 15 synchronously moves towards the afterbody of photovoltaic welding belt 3 from the end of photovoltaic welding belt 3, and the synchronous upper surface that reflectance coating 2 is crimped on to photovoltaic welding belt 3,

After the afterbody of arrival photovoltaic welding belt 3 ((by photoelectrical position sensor perception), cutter (not shown) in reflectance coating Tie Fu mechanism 15 block reflectance coating 2 (by motion cylinder, controlling), the briquetting 1 of reflectance coating Tie Fu mechanism 15 rises homing, reflectance coating walks line mechanism 14 and reflectance coating Tie Fu mechanism 15 returns by leading screw feed mechanism 16, synchronously gets back to initial initial point.

Then, 4 ejecting rod of cylinder 20 of heating work platform 11 bottoms will complete photovoltaic cell 4 jack-up of pad pasting, and manipulator 17 is transported to from heating work platform 11 photovoltaic cell 4 that posts reflectance coating 2 on completion platform 13.

Core innovative point of the present utility model is the subsides volt equipment that pastes volt reflectance coating 2 on photovoltaic welding belt 3, utilize the anaclasis function of reflectance coating 2, by being radiated at the anaclasis that can not generate electricity on photovoltaic welding belt 3, go back to the surface that photovoltaic cell 4 can absorb luminous energy, thereby improved energy output.

Reflectance coating 2 of the present utility model can be metallic reflective coating or full dielectric reflectance coating, its hierarchical structure can be also laminated reflective film, the utility model is complete dielectric laminated reflective film preferably, full dielectric reflectance coating is based upon on multiple-beam interference basis, contrary with anti-reflection film, on optical surface, plate one deck refractive index higher than the film of basis material, just can increase the reflectivity of optical surface.The simplest full dielectric multilayer reflectance coating is that two kinds of materials by high and low refractive index replace evaporation and form, the optical thickness of every tunic is 1/4th of a certain wavelength, under this condition, participate in the reverberation vector on each interface superposeing, direction of vibration is identical, and net amplitude increases along with the increase of the film number of plies, say in principle, the reflectivity of full dielectric reflectance coating can be infinitely close to 1, but the scattering of film, absorption loss has limited the raising of reflectivity of optical thin film.

Above-described embodiment is only explanation technological thought of the present utility model and feature, its object makes the personage who has the knack of this skill can understand content of the present utility model and implement according to this, when not limiting the scope of the claims of the present utility model with it, the equalization that the spirit generally disclosing according to the utility model is done changes or modifies, and must be encompassed in the scope of the claims of the present utility model.

Claims (5)

1. the photovoltaic module of a photovoltaic welding belt automatic welding production line lies prostrate equipment with the subsides of reflectance coating, it is characterized in that: comprise all the time at a working face the platform that prestores be arrangeding in parallel, heating work platform, completion platform, on same working face, be also provided with manipulator, described manipulator moves between the platform that prestores, heating work platform, completion platform by manipulator guide rail;

Described subsides volt equipment also comprises that 1 is walked line mechanism and is arranged on 3 reflectance coating Tie Fu mechanisms that reflectance coating is walked line mechanism bottom for pasting the reflectance coating of volt reflectance coating, described reflectance coating is walked the top that line mechanism and reflectance coating Tie Fu mechanism are arranged on described working face, and reflectance coating is walked line mechanism rear end and connected leading screw feed mechanism.

2. the photovoltaic module of photovoltaic welding belt automatic welding production line according to claim 1 lies prostrate equipment with the subsides of reflectance coating, it is characterized in that: on described heating work table top, be provided with 4 for locating the shop bolt of photovoltaic cell, described heating work platform bottom is provided with 4 ejecting rod of cylinder, and described heating work platform inside is provided with heating resistor Shi Shisi.

3. the photovoltaic module of photovoltaic welding belt automatic welding production line according to claim 1 lies prostrate equipment with the subsides of reflectance coating, it is characterized in that: described reflectance coating cabling is in-house arranges 3 for being set with the rollers of reflectance coating volume the position of described 3 rollers and to be arranged on 3 reflectance coating Tie Fu mechanisms that reflectance coating walks bottom line mechanism corresponding.

4. the photovoltaic module of photovoltaic welding belt automatic welding production line according to claim 1 lies prostrate equipment with the subsides of reflectance coating, it is characterized in that: described reflectance coating Tie Fu mechanism is provided with briquetting, cutter and photoelectrical position sensor, and described briquetting is all connected motion cylinder with cutter.

5. the subsides volt equipment of reflectance coating for the photovoltaic module of photovoltaic welding belt automatic welding production line according to claim 1, is characterized in that: described reflectance coating one side carries cohesive material.