CN106601875A - Mono-crystalline silicon cell light attenuation cabinet - Google Patents

Abstract

The invention relates to a mono-crystalline silicon cell light attenuation cabinet which comprises a cabinet body, cooling fans, LED lamps, and an infrared lamp heat source. The front end face of the cabinet body is equipped with a cabinet door. One cooling fan is installed on each of the cabinet walls of the rear end face and the side end faces of the cabinet body. Multiple cooling fans and the LED lamps are installed at equal intervals and alternately on the cabinet wall of the top end face of the cabinet body. The irradiating surfaces of the multiple LED lamps uniformly correspond to the inner bottom of the cabinet body. The infrared lamp heat source connected with a temperature controller is arranged in the middle of the inner bottom of the cabinet body. The light attenuation cabinet not only can meet the need for indoor cell light attenuation, but also can control the light intensity and temperature during light attenuation.

Description

A kind of Monocrystalline silicon cell piece optical attenuation cabinet

Technical field

The present invention relates to solar battery sheet field, can indoors to solar energy single crystal silion cell more particularly, to one kind Piece makees the optical attenuation cabinet of optical attenuation.

Background technology

Known, the solar battery sheet of main flow is made up of monocrystal silicon on market, due to monocrystal silicon meeting during long crystalline substance Some impurity are introduced, and these impurity can cause to become complex centre under Monocrystalline silicon cell piece illumination in the early stage, to cell piece Efficiency causes large effect, and the service life of component can also be had influence on when serious, therefore, just must be right before production component Cell piece does optical attenuation；At present, the method for doing optical attenuation is substantially to take that cell piece is placed under sunlight to be at least exposed to the sun 3 days, Then the efficiency before and after being exposed to the sun further according to cell piece is reduced and calculates attenuation ratio；However, due to due to being limited by external condition, Implement the method when can not control decay light intensity and illumination temperature, and if in cloudy or rainy city also without Method effectively does optical attenuation to cell piece.

The content of the invention

In in order to overcome the shortcomings of background technology, the present invention discloses a kind of Monocrystalline silicon cell piece optical attenuation cabinet, described light Decay cabinet is not only able to meet and makees the needs of optical attenuation to cell piece indoors, but also light intensity when can control optical attenuation and Temperature.

To reach above-mentioned purpose, the technical solution used in the present invention is：A kind of Monocrystalline silicon cell piece optical attenuation cabinet, it is described Optical attenuation cabinet includes cabinet, radiator fan, LED and infrared lamp thermal source；Described cabinet front end surface is provided with cabinet door, cabinet Radiator fan is separately installed with the cabinet wall of rear end end face and two side ends end face, it is evenly spaced on the top end face cabinet wall of cabinet It is mounted alternately with multiple radiator fans and LED；The shadow surface of described multiple LED uniformly corresponds to the inner bottom surface of cabinet；It is described Cabinet inner bottom surface middle part be mounted with the infrared lamp thermal source being connected with temperature controller, described cabinet is provided with and institute in cabinet There is the timer that circuit connects, described radiator fan is speed-regulating fan, and described radiator fan is provided with PID regulator.

It is evenly spaced on the rear end end face cabinet wall of the cabinet to be provided with least four in a preferred embodiment of the present invention Individual radiator fan.

In a preferred embodiment of the present invention, four radiator fans are installed on the item end end face cabinet wall of the cabinet, and LED is mounted between each two radiator fan.

In a preferred embodiment of the present invention, the covering of the fan of the radiator fan installed on the top end face cabinet wall of the cabinet is high In the shadow surface of the LED installed on the end face cabinet wall.

In a preferred embodiment of the present invention, described radiator fan and the controlling switch of LED is located at outside cabinet, and The switch of radiator fan and LED is automatically controlled by the temperature controller being connected with infrared lamp thermal source.

Because using technical scheme as above, the present invention has the advantages that：

Monocrystalline silicon cell piece optical attenuation cabinet of the present invention is not only able to meet the needs for indoors doing cell piece optical attenuation, Simplify the operation of optical attenuation, but also the light intensity and temperature of optical attenuation can be controlled.

Description of the drawings

Fig. 1 is the schematic diagram of the present invention.

In figure：1st, cabinet；2nd, radiator fan；3rd, LED；4th, cabinet door.

Specific embodiment

Presently in connection with drawings and Examples, the present invention is further detailed explanation, and these accompanying drawings are simplified signal Figure, only illustrates in a schematic way the basic structure of the present invention, therefore it only shows the composition relevant with the present invention.

Monocrystalline silicon cell piece optical attenuation cabinet with reference to described in accompanying drawing 1, described optical attenuation cabinet includes cabinet 1, radiator fan 2nd, LED 3 and infrared lamp thermal source；The described front end surface of cabinet 1 is provided with cabinet door 4, the rear end end face and two side ends end face of cabinet 1 Cabinet wall on be separately installed with radiator fan 2, it is evenly spaced on the top end face cabinet wall of cabinet 1 to be mounted alternately with multiple radiatings Fan 2 and LED 3, i.e., provide illumination, by infrared lamp thermal source to putting by 3 pairs of cell pieces being placed in cabinet 1 of LED The cell piece put in cabinet 1 improves heat, and by radiator fan 2 temperature in cabinet 1 is adjusted, and can enter indoors so as to reach The purpose of row cell piece optical attenuation；For ease of control, described radiator fan 2 is using the speed-regulating fan for being provided with PID regulator；For The radiating effect of radiator fan 2 is further improved, evenly spaced on the cabinet wall of the rear end end face of cabinet 1 two can be at least installed Individual radiator fan 2, or, on the cabinet wall of 1 end end face of cabinet install four radiator fans 2, and each two radiator fan 2 it Between be mounted on LED 3；Additionally, the covering of the fan of the radiator fan 2 on the top end face cabinet wall of cabinet 1 is higher than the end face cabinet The shadow surface of the LED 3 on wall, so as to while LED 3 is just begun through to providing illumination and heat in cabinet 1, it is to avoid The radiator fan 2 of the top end face of cabinet 1 takes away excessive heat, has reached in the effective guarantee cabinet body temperature rate of climb Under the premise of save energy purpose；To reach during automatically control, the purpose of energy saving, described cabinet 1 be provided with cabinet 1 The timer of all circuit connections, so as to be closed in cabinet by the stopping of timer at the end of cell piece optical attenuation All circuits.

The shadow surface of described multiple LEDs 3 uniformly corresponds to the inner bottom surface of cabinet 1, i.e. LED 3 can be uniformly right The cell piece for being placed on the inner bottom surface of cabinet 1 is irradiated；To improve the temperature in cabinet 1, can pacify in the middle part of the inner bottom surface of cabinet 1 The infrared lamp thermal source that dress is connected with relevant temperature controller, so as to be improved the temperature in cabinet 1 using infrared lamp thermal source, and is led to The operation for being located at the temperature controller outside cabinet 1 to automatically control radiator fan 2 or LED 3 is crossed, being finally reached makes cabinet 1 The interior purpose in suitable temperature.

When implementing Monocrystalline silicon cell piece optical attenuation cabinet of the present invention, cell piece need to be only placed on the inner bottom of cabinet 1 Face, then carries out illumination using LED 3 to cell piece, and heat supply is carried out to cell piece using infrared lamp thermal source, and according to circumstances leads to Cross radiator fan 2 to be adjusted the temperature inside cabinet 1, after cell piece optical attenuation terminates, by it is artificial close circuit or It is that then taking out the cell piece in cabinet 1 can carry out corresponding subsequent operation using timer interrupt circuit.

Part not in the detailed description of the invention is prior art, therefore the present invention is not described in detail.

It is above enlightenment according to the desirable embodiment of the present invention, by above-mentioned description, related personnel completely can be with In the range of without departing from this invention technological thought, various change and modification is carried out.The technical scope of this invention The content being not limited in description, it is necessary to which technical scope is determined according to right.

Claims (5)

1. a kind of Monocrystalline silicon cell piece optical attenuation cabinet, is characterized in that：Described optical attenuation cabinet includes cabinet, radiator fan, LED With infrared lamp thermal source；Described cabinet front end surface is provided with cabinet door, divides on the rear end end face of cabinet and the cabinet wall of two side ends end face Radiator fan is not installed, it is evenly spaced on the top end face cabinet wall of cabinet to be mounted alternately with multiple radiator fans and LED；Institute The shadow surface of the multiple LED for stating uniformly corresponds to the inner bottom surface of cabinet；Described cabinet inner bottom surface middle part is mounted with and temperature control The infrared lamp thermal source of device connection processed, described cabinet is provided with the timer being connected with all circuits in cabinet, described radiating Fan is speed-regulating fan, and described radiator fan is provided with PID regulator.

2. Monocrystalline silicon cell piece optical attenuation cabinet according to claim 1, is characterized in that：The rear end end face cabinet wall of the cabinet It is above evenly spaced that at least four radiator fans are installed.

3. Monocrystalline silicon cell piece optical attenuation cabinet according to claim 1, is characterized in that：The item end end face cabinet wall of the cabinet On four radiator fans are installed, and be mounted on LED between each two radiator fan.

4. Monocrystalline silicon cell piece optical attenuation cabinet according to claim 1, is characterized in that：The top end face cabinet wall of the cabinet Shadow surface of the covering of the fan of the radiator fan of upper installation higher than the LED installed on the end face cabinet wall.

5., according to arbitrary described Monocrystalline silicon cell piece optical attenuation cabinet in claim 1-5, it is characterized in that：Described radiator fan It is located at outside cabinet with the controlling switch of LED, and radiating is automatically controlled by the temperature controller being connected with infrared lamp thermal source The switch of fan and LED.