CN204372826U - A kind of casing, artificial light source and array of source and solar cell test system - Google Patents

Abstract

The utility model discloses a kind of casing for artificial light source, also discloses a kind of artificial light source and array of source and a kind of solar cell test system in addition.Wherein, described casing comprises roof, diapire and sidewall, and their common spatial accommodations formed, and light-source generation device is disposed therein.Arrange switching door in a wherein sidewall locations of described casing, one end of described switching door is by hinged or be pivoted and be connected on casing.The switching door that described casing is arranged is positioned at the illumination side of described light-source generation device.Described switching door is provided with radiator structure towards the side of spatial accommodation, and described radiator structure comprises substrate and by the outwardly a plurality of strip projected parts of substrate surface.Described strip projected parts can intercept light and expose on described substrate, reduce the distortion of substrate, form heat dissipation channel between adjacent strip projected parts, this heat dissipation channel has the effect of water conservancy diversion thermal current, in casing, thermal current can be evacuated along this heat dissipation channel, reaches the effect of heat radiation, cooling.

Description

A kind of casing, artificial light source and array of source and solar cell test system

Technical field

The utility model relates to artificial light source field, is specifically related to a kind of casing for artificial light source.Also relate to a kind of artificial light source and array of source in addition, and solar cell test system.

Background technology

Present stage, the energy more and more lacked, and tapped a new source of energy and became the recent tendency of energy field.At new energy field, solar energy is a kind of reproducible new forms of energy totally, is more and more subject to the favor of people, is the desirable eco-friendly power source meeting future society demand.Solar energy power generating utilizes solar cell that solar energy is converted into electric energy.Complete in solar cell manufacture and need to carry out parameter testing to it, in this test process, need sunshine as light source.But sunshine had among one day have by force weak, it is also unstable and cannot control via artificial mode, test so usually the solar cell after having manufactured can not be moved to outdoor, general conventional test mode carrys out simulated solar irradiation to obtain the relevant product performance of solar cell at indoor use artificial light source.

Described artificial light source can produce uniform parallel rays, and in order to the light of simulated solar irradiation, the temperature of parallel rays that this artificial light source produces is higher, and institute must have high temperature resistant for the casing placing artificial light source placement and have better heat radiation function.Meanwhile, this casing needs opening, and the light produced for artificial light source is sent by this opening.But the high temperature sent in order to avoid artificial light source, high strength light are irradiated to personnel, and cause accidents such as burning, the opening part of general casing arranges a door, when personnel before light source by time, this door can be closed, thus prevent personnel from being burnt.This door arranges multiple copper pipe in a block plate, the water of certain volume is loaded in copper pipe, the water being positioned at copper pipe can circulate with the external world, realizes cooling effect by water, but, under the light of high-temperature and high strength irradiates, not only door easily deforms, and needs often to change, and, artificial light source itself has a lot of electric wire, uses water can cause danger to a certain degree as cooling source.

Utility model content

The utility model provides a kind of casing for artificial light source, the problems referred to above existed with the outer case solving existing artificial light source.

The utility model provides a kind of artificial light source in addition, to solve the problems referred to above that existing artificial light source exists.

The utility model provides a kind of array of source in addition, to solve the little problem of existing artificial light source illumination zone.

The utility model also provides a kind of solar cell test system, is inconvenient to the problem that controls to solve in existing solar cell test system to artificial light source.

The utility model provides a kind of casing for artificial light source, this casing comprises roof, diapire and connects the sidewall of roof and diapire, above-mentioned roof, diapire and sidewall form the spatial accommodation of casing jointly, light-source generation device is arranged in described spatial accommodation, it is characterized in that, arrange switching door in a wherein sidewall locations of described casing, one end of described switching door is by hinged or be pivoted and be connected on casing; Wherein, the switching door described casing arranged is positioned at the illumination side of described light-source generation device.Described switching door is provided with radiator structure towards the side of spatial accommodation, and described radiator structure comprises substrate and by the outwardly a plurality of strip projected parts of substrate surface.

Alternatively, described strip projected parts is obliquely installed on the substrate.

Preferably, described strip projected parts is vertically set on described substrate.

Alternatively, the height bearing of trend of described strip projected parts is by the outwardly direction of substrate surface, and the length bearing of trend of each strip projected parts is be through to its opposite end from one end of substrate.

Preferably, the length bearing of trend of described each strip projected parts is be through to its opposite end from one end of substrate, and specifically the length bearing of trend of strip projected parts is be through to substrate position corresponding to roof from the substrate position that diapire is corresponding.

Alternatively, when described switching door is light-blocking state, the height bearing of trend of the strip projected parts on the direction of the light that described light-source generation device produces and described switching door is not parallel.

Preferably, the height bearing of trend of the strip projected parts on the direction of the light that described light-source generation device produces and described switching door is not parallel, and specifically, both directions are mutually vertical.

Alternatively, the vertical height of described strip projected parts and density cooperatively interact to arrange and meet the light that described light-source generation device produces and expose on the side of this strip projected parts.

Preferably, all strip projected parts are vertically highly identical, and the density being positioned at the strip projected parts in switching door centre position is greater than the density of the strip projected parts being positioned at switching door marginal position.

Alternatively, the substrate of described radiator structure and the door-plate of described switching door are structure as a whole.

Alternatively, the substrate of described radiator structure and the door-plate of described switching door are split-type structural, and described substrate and described door-plate are fixedly connected by bolt.

Preferably, described substrate and described strip projected parts are structure as a whole.

Alternatively, the substrate of described radiator structure is not identical with the material of strip projected parts; The material of described strip projected parts is aluminium alloy.

Alternatively, the hinged end of described switching door or pivot link are arranged on the position that the diapire of described casing or sidewall are connected with switching door.

Alternatively, the switching door side in casing arranges light barrier, and described light barrier comprises the transparent area allowing light therethrough and the light-blocking region stopping light therethrough.

Preferably, the transparent area of described light barrier and light-blocking region are in alternately structure distribution.

Preferably, described light barrier is at least two-layer light-blocking structure, and every layer of light-blocking structure all comprises light-blocking region and transparent area, and by adjusting the position adjustments light penetration of every layer of light-blocking structure.

Preferably, the duty cycle range of described transparent area and described light-blocking region is more than or equal to 4:1, and be less than or equal to 9:1.

The utility model also provides a kind of artificial light source, comprise the above-mentioned casing for artificial light source, described light-source generation device is arranged in the spatial accommodation of described casing, specifically, this light-source generation device has supporting seat, described light-source generation device is fixed on described casing by described supporting seat, makes it be arranged in the spatial accommodation of described casing.

The utility model also provides a kind of array of source, comprises above-mentioned artificial light source, and described artificial light source edge anyhow two dimensions is arranged as array.

Preferably, the switching door of the artificial light source in this array of source can carry out opening and closing movement simultaneously.

The utility model also provides a kind of solar cell test system in addition, comprises above-mentioned artificial light source and/or above-mentioned array of source.

Compared with prior art, the utility model wherein has the following advantages on the one hand: the utility model provides a kind of casing for artificial light source, this casing comprises roof, diapire and connects the sidewall of roof and diapire, above-mentioned roof, diapire and sidewall form the spatial accommodation of casing jointly, and light-source generation device is arranged in described spatial accommodation.Arrange switching door in a wherein sidewall locations of described casing, one end of described switching door is by hinged or be pivoted and be connected on casing; Wherein, the switching door described casing arranged is positioned at the illumination side of described light-source generation device.Described switching door is provided with radiator structure towards the side of spatial accommodation, and described radiator structure comprises substrate and by the outwardly a plurality of strip projected parts of substrate surface.Strip projected parts on the switching door that above-mentioned casing has has the effect of heat radiation, heat conduction, the parallel rays that artificial light source produces can be radiated on this strip projected parts, this strip projected parts is heated and can produces distortion at height bearing of trend, but this distortion can not affect the shape of substrate or door-plate, also play thermolysis simultaneously, thus extend the service life of switching door.Meanwhile, have spacing between adjacent two strip projected parts, can form heat dissipation channel, the heat in casing can be evacuated along this heat dissipation channel.In addition, described radiator structure realizes thermolysis by the structure of strip projected parts, eliminates the danger with water for cooling.In a word, the radiator structure on above-mentioned casing has safe and reliable heat radiation, cooling effect.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model artificial light source;

Fig. 2 is the structural representation of the utility model for the heat abstractor of the casing switching door of artificial light source;

Fig. 3 is the top view of Fig. 2;

Fig. 4 is the another kind of structural representation of the utility model for the heat abstractor of the casing switching door of artificial light source;

Fig. 5 is the structural representation of the artificial light source in the utility model embodiment with light barrier;

Fig. 6 is the structural representation of light barrier in Fig. 5.

Wherein, 101, roof, 102, diapire, 103, sidewall, 104, switching door, 105-1, xenon lamp, 105-2, paraboloidal mirror, 105-3, supporting seat, 106, light, 107, light barrier, 107-1, light-blocking region, 170-2, transparent area.

Detailed description of the invention

The utility model provides a kind of casing for artificial light source, and described artificial light source can produce uniform directional light, with the directional light simulating nature light produced, carries out the simulated experiment of natural daylight.Above-mentioned artificial light source can be adopted in the test macro of solar cell as test light source.

Fig. 1 is the structural representation of the utility model artificial light source.

As shown in Figure 1, described artificial light source comprises light-source generation device and is arranged on its outer casing, and described light-source generation device is for generation of parallel rays 106, and this light-source generation device is arranged in the spatial accommodation of described casing.

Described light-source generation device adopts xenon lamp 105-1 as light source, described xenon lamp 105-1 is arranged at the focal position place of a paraboloidal mirror 105-2, the light 106 that described light source is produced is penetrated along parallel direction by described paraboloidal mirror 105-2, the direction irradiated at described light 106 arranges lens arra, and described lens arra can make to have more uniformity by the light 106 of this lens arra.

Parallel rays 106 through described lens arra is penetrated by the aperture position place on casing.Described light-source generation device has supporting seat 105-3, and described xenon lamp 105-1 and paraboloidal mirror 105-2 can be fixed on described casing by this supporting seat 105-3.

Described casing comprises roof 101, diapire 102 and connects the sidewall 103 of roof 101 and diapire 102, and above-mentioned roof 101, diapire 102 and sidewall 103 form the spatial accommodation of casing jointly, and described light-source generation device is arranged in described spatial accommodation.One of them sidewall 103 position of described casing needs to arrange opening, and this opening exposes in the space outside casing for the light 106 making described light-source generation device and produce.

The light source that described artificial light source uses is xenon lamp 105-1, and radiation spectrum Energy distribution and the natural daylight of described xenon lamp 105-1 are close, and colour temperature is about 6000K, and its light 106 temperature of launching is very high, is radiated at for a long time on human body and can causes damage to human body.When operating personnel are in light 106 environment that artificial light source produces, need light 106 to intercept, being just unlikely to making operating personnel cause damage.

Light 106 is intercepted, so the aperture position place of described casing needs to arrange a switching door 104 when operating to make operating personnel.One end of described switching door 104 is by hinged or be pivoted the mode connect and be connected on casing, and this switching door 104 can do opening and closing movement along described movable end.

When described switching door 104 is in light-blocking state, light-source generation device in casing is also at lasting generation light 106, and produce very large heat simultaneously, in order to prevent, heat is too high to cause damage to box body wall, general described switching door 104 is not exclusively closed, namely, when closed described switching door 104, between the sidewall 103 that this switching door 104 is adjacent, there is certain space, the heat that light-source generation device is produced is dissipated into outside casing by this space, thus reduces the damage to casing itself.

Described switching door 104 is when light-blocking state, and this switching door 104 can leave 30 ° of spaces for heat radiation.

Because light-source generation device operationally continues the light 106 producing high heat, so the material of described wall box 103, roof 101 and diapire 102 should be high temperature resistant and have the material of heat dissipating, generally alloy material can be selected.Further, also louvre can be set on roof 101, for evacuating the heat in casing.

The position that the diapire 102 that the hinged end of described switching door 104 or pivot link are arranged on described casing is connected with switching door 104, namely described switching door 104 is upper and lower folding, and its aperture position is the upper end of casing, facilitates hot gas in casing upwards to evacuate.

The position that the sidewall 103 that the hinged end of described switching door 104 or pivot link also can be arranged on described casing is connected with switching door 104, namely described switching door 104 is opening and closing left and right, this open-close ways meets the custom of daily life, and can reach the effect of evacuating heat in casing.

Described switching door 104 is when light-blocking state, there is light 106 direct projection of high heat on described switching door 104, in order to place the distortion of switching door 104, at described switching door 104, the side of spatial accommodation can be provided with radiator structure, this radiator structure, for evacuating the heat in casing, reduces the distortion that switching door 104 occurs because high strength light 106 irradiates.

Fig. 2 is the structural representation of the utility model for the heat abstractor of the casing switching door 104 of artificial light source.Fig. 3 is the top view of Fig. 2.Fig. 4 is the another kind of structural representation of the utility model for the heat abstractor of the casing switching door 104 of artificial light source.

As shown in Figure 2, described radiator structure comprises substrate and by the outwardly multiple strip projected parts of substrate surface.

Described substrate is a metallic plate adapted with the openings of sizes of casing, and the thickness of this metallic plate can adjust as required, and the aluminium alloy of 5mm thickness generally can be adopted as its material.

When high strength light 106 direct irradiation on the substrate time, making substrate that concavo-convex distortion occurs, exposing on this substrate to place light 106, so arrange described strip projected parts on the substrate.

Described strip projected parts exposes to this strip projected parts for the light 106 ensureing described light-source generation device and produce.

Described strip projected parts is the bulge-structure outwardly by described substrate surface of strip, and this strip projected parts is generally rectangular structure, and also can be set to long column shape according to specific needs, its shape is unrestricted.

Described switching door 104 is light-blocking state, and described light-source generation device is in running order, when the uniform parallel rays 106 that light-source generation device produces exposes on this switching door 104, because switching door 104 is provided with described radiator structure towards side, magazine ac space, the strip projected parts of this radiator structure can stop light 106 to expose on described substrate, prevent the distortion of substrate, and light 106 exposes on described strip projected parts, cause the distortion of strip projected parts short transverse can not affect the shape of described substrate, thus solve the problem that high strength light 106 causes substrate deformation.

Described strip projected parts has height bearing of trend and length bearing of trend.Described height bearing of trend is strip projected parts by the outwardly direction of substrate surface, and the distortion of above-mentioned strip projected parts is generally the distortion on this height bearing of trend.Described length bearing of trend is length direction or the width of substrate, i.e. the sides aligned parallel of described length bearing of trend and described substrate.

The length bearing of trend of each strip projected parts can be through to its opposite end from one end of substrate, then form a heat dissipation channel between two adjacent strip projected parts.Hot gas in casing is dissipated into outside casing by this heat dissipation channel.

Each strip projected parts also can be segmentation at length bearing of trend, two sections can be divided into, equally also epimere heat dissipation channel can be formed between two adjacent strip projected parts of epimere, although this epimere heat dissipation channel is not up/down perforation, the passage formed can distribute the hot gas in casing equally.

Described strip projected parts also can be multistage at length bearing of trend, as long as can form passage between adjacent strip projected parts, makes the hot gas in casing be distributed to casing outward by this passage, repeats no more herein.

The flow direction of the hot gas in casing is from bottom to top, so in order to better coordinate it to flow to, preferably, described strip projected parts can be set to the substrate position of roof 101 correspondence being through to casing from the substrate position of diapire 102 correspondence of casing at length bearing of trend, namely the length bearing of trend of strip projected parts is direction from down to up, facilitates thermal current in casing to dispel the heat outside casing heat along this heat dissipation channel from down to up.

When described switching door 104 is light-blocking state, the light 106 that the height bearing of trend of described strip projected parts and described light-source generation device produce is not parallel, because if both are parallel direction, described strip projected parts can not stop light 106, light 106 is made to be directed on described substrate, cause substrate deformation, so, the height bearing of trend of strip projected parts is arranged not identical with the direction of described light 106.

Because described switching door 104 is incomplete closure state when light-blocking state, so this strip projected parts can be vertically installed on described substrate.

Similarly, as shown in Figure 4, described strip projected parts also can be arranged on the substrate obliquely, but this angle of inclination needs the height bearing of trend ensureing strip projected parts to arrange not identical with the direction of described light 106.

Above-mentioned switching door 104, when light-blocking state, makes switching door 104 be 30 ° with the angle of perpendicular.The angle of inclination between described strip projected parts and described substrate is illustrated according to this angle.

The light 106 that described light-source generation device produces is radiated on described switching door 104 in parallel, this light 106 hangs down with perpendicular, namely this light 106 is 60 ° with the angle of described substrate, so, now, the angle of described strip projected parts and described substrate can not be 60 °, and described like this light 106 is not identical with the direction of described strip projected parts.

Preferably, the direction of the light 106 of described light-source generation device generation is mutually vertical with the height bearing of trend of the strip projected parts on described switching door 104.Or the angle of described strip projected parts and described substrate is acute angle, the angle between the direction of described light 106 and described substrate is obtuse angle.The height bearing of trend arranging above-mentioned strip projected parts in this way can the contact area of increasing light 106 and described strip projected parts, and then reduces the probability that light 106 exposes to described substrate, plays the thermolysis of described strip projected parts to greatest extent.

In order to ensure that described light 106 exposes on this strip projected parts, be by the above-mentioned angle arranging strip projected parts, light 106 is exposed on this strip projected parts on the one hand.On the other hand, can be coordinated by the height of described strip projected parts and density and light 106 is exposed on this strip projected parts, and not be directed on described substrate.

Described strip projected parts height one timing, its density is larger, and the probability that described light 106 exposes on substrate is less.Correspondingly, when the density of described strip projected parts is specific, it is highly higher, and the probability that described light 106 exposes on substrate is less.

The light 106 produced due to described light-source generation device is not completely uniform, light 106 intensity of possible center is large, density is also large, light 106 intensity of casing periphery is little, density is also little, so, according to above-mentioned light 106 feature, also can make switching door 104 center strip projected parts density large, the strip projected parts density of peripheral position is little.Or center strip projected parts height be greater than the height of the strip projected parts of peripheral position.

Described substrate and described strip projected parts are structure as a whole.Material between the two can be identical, is aluminum alloy material.Also can adopt different materials between the two, the material of described strip projected parts can be have heat radiation and the metal material of high-temperature stability.

The conveniently installation of above-mentioned radiator structure, the door-plate of the substrate of described radiator structure and described switching door 104 can be cast into integrative-structure by forging type, this radiator structure is the switching door 104 of this casing.

Or in order to save cost, the door-plate of the substrate of described radiator structure and described switching door 104 is set to split-type structural, described substrate and described door-plate are fixedly connected by bolt.When described radiator structure deform and affect its normally use time, described radiator structure can be disassembled from described door-plate, separately change described radiator structure, thus save replacement cost.

The casing for artificial light source that the utility model provides, switching door 104 side on this casing is provided with radiator structure, this radiator structure comprises substrate and is arranged on the strip projected parts on substrate, the light 106 that light-source generation device produces exposes on described strip projected parts, thus obstruct light 106 is directed on described substrate, reduce the probability of described substrate deformation, and, heat dissipation channel can be formed between adjacent strip projected parts, this heat dissipation channel has the effect of water conservancy diversion thermal current, in casing, thermal current can be evacuated to outside casing along this heat dissipation channel, be reached for casing heat radiation, the effect of cooling.

In addition, in order to reduce light source all light 106 direct irradiation on the switching door 104 of this casing, can arrange a light-blocking structure, Fig. 5 is the structural representation of the artificial light source in the utility model embodiment with light barrier, and Fig. 6 is the structural representation of light barrier in Fig. 5.

As shown in Figure 5 and Figure 6, in described casing, arrange one near a side position of switching door 104 be in the light, 107, this light barrier comprises transparent area 107-2 and light-blocking region 107-1, described transparent area is used for light 106 can be penetrated, and described light-blocking region is for stopping penetrating of light 106.

Be radiated on described switching door 104 more uniformly to enable the light through light barrier, described light-blocking region and described transparent area can be set to alternating structure distribute, as shown in Figure 6, described light-blocking region and transparent area are a square structure, and both are arranged alternately.

When described light barrier be one deck be made up of light-blocking region and transparent area light-blocking structure time, it makes the transmitance of light be fixing, certainly can by arranging the light barrier of multiple different light rays transmitance, and the light barrier changing corresponding transmitance is as required not enough to make up this, but more there is choosing, can by the transmitance of light barrier described in the structural adjustment of the described light barrier of adjustment.

Described light barrier is set at least double-layer structure, and every one deck is the light-blocking structure including light-blocking region and transparent area, adjusts its light penetration by the position between adjusting every layer.For convenience of calculation, the transparent area that the light-blocking structure of every layer is arranged can be arranged on same position, when the alignment of every layer of light-blocking structure is arranged, the transmitance of light is maximum, adjusting the position of every layer of light-blocking structure, making to occur between adjacent two layers transparent area to interlock, for reducing the transmitance of light.

When described light barrier is individual layer light-blocking structure, the scope of the dutycycle of light-blocking region and transparent area can be set as required for being more than or equal to 4:1, and be less than or equal to 9:1.

When described light barrier is multilayer light-blocking structure, can adjust the relative position of every layer of light-blocking structure, adjustment light 106 is be more than or equal to 80% through the transmitance scope of light barrier, and is less than or equal to 90%.

The utility model also provides a kind of artificial light source, comprise the above-mentioned casing for artificial light source, and be arranged in the light-source generation device of casing, this light-source generation device has supporting seat 105-3, described light-source generation device is fixed on described casing by described supporting seat 105-3, makes it be arranged in the spatial accommodation of described casing.Casing in this artificial light source can ensure that operating personnel do not cause danger on operation light source, and this casing also has radiator structure, and thermal current in casing can be made effectively to evacuate, and prevents the too high situation causing danger of temperature in casing

The utility model also provides a kind of array of source, comprises above-mentioned artificial light source, and described artificial light source edge anyhow two dimensions is arranged as array.Arrange light source by array way, the range of exposures of light source can be increased, meet actual needs.

The switching door 104 of the artificial light source in described array of source can carry out opening and closing movement simultaneously.Artificial Control can be carried out to array of source more easily when actual experiment operates.

The utility model also provides a kind of solar cell test system, comprise above-mentioned artificial light source or array of source, also can be that both are combined, the light 106 that described artificial light source or array of source produce is the light 106 of simulating nature light, and this artificial light source and array of source have controllability more easily.

Although the utility model with preferred embodiment openly as above; but it is not for limiting the utility model; any those skilled in the art are not departing from spirit and scope of the present utility model; can make possible variation and amendment, the scope that therefore protection domain of the present utility model should define with the utility model claim is as the criterion.

Claims (22)

1. the casing for artificial light source, this casing comprises roof, diapire and connects the sidewall of roof and diapire, above-mentioned roof, diapire and sidewall form the spatial accommodation of casing jointly, light-source generation device is arranged in described spatial accommodation, it is characterized in that, arrange switching door in a wherein sidewall locations of described casing, one end of described switching door is by hinged or be pivoted and be connected on casing; Wherein, the switching door described casing arranged is positioned at the illumination side of described light-source generation device;

Described switching door is provided with radiator structure towards the side of spatial accommodation, and described radiator structure comprises substrate and by the outwardly a plurality of strip projected parts of substrate surface.

2. the casing for artificial light source according to claim 1, is characterized in that, described strip projected parts is obliquely installed on the substrate.

3. the casing for artificial light source according to claim 1, is characterized in that, described strip projected parts is vertically set on described substrate.

4. the casing for artificial light source according to any one of claim 1-3, it is characterized in that, the height bearing of trend of described strip projected parts is by the outwardly direction of substrate surface, and the length bearing of trend of each strip projected parts is be through to its opposite end from one end of substrate.

5. the casing for artificial light source according to claim 4, it is characterized in that, the length bearing of trend of described each strip projected parts is be through to its opposite end from one end of substrate, and specifically the length bearing of trend of strip projected parts is be through to substrate position corresponding to roof from the substrate position that diapire is corresponding.

6. the casing for artificial light source according to claim 4, is characterized in that, when described switching door is light-blocking state, the height bearing of trend of the strip projected parts on the direction of the light that described light-source generation device produces and described switching door is not parallel.

7. the casing for artificial light source according to claim 6, is characterized in that, the height bearing of trend of the strip projected parts on the direction of the light that described light-source generation device produces and described switching door is not parallel, and specifically, both directions are mutually vertical.

8. the casing for artificial light source according to claim 1, is characterized in that, the vertical height of described strip projected parts and density cooperatively interact arrange meet described light-source generation device produce light expose on the side of this strip projected parts.

9. the casing for artificial light source according to claim 8, is characterized in that, all strip projected parts are vertically highly identical, and the density being positioned at the strip projected parts in switching door centre position is greater than the density of the strip projected parts being positioned at switching door marginal position.

10. the casing for artificial light source according to claim 1, is characterized in that, the substrate of described radiator structure and the door-plate of described switching door are structure as a whole.

11. casings for artificial light source according to claim 1, is characterized in that, the substrate of described radiator structure and the door-plate of described switching door are split-type structural, and described substrate and described door-plate are fixedly connected by bolt.

12. casings for artificial light source according to claim 1, is characterized in that, described substrate and described strip projected parts are structure as a whole.

13. casings for artificial light source according to claim 1, it is characterized in that, the substrate of described radiator structure is not identical with the material of strip projected parts;

The material of described strip projected parts is aluminium alloy.

14. casings for artificial light source according to claim 1, is characterized in that, the hinged end of described switching door or pivot link are arranged on the position that the diapire of described casing or sidewall are connected with switching door.

15. casings for artificial light source according to claim 1, is characterized in that, the switching door side in casing arranges light barrier, and described light barrier comprises the transparent area allowing light therethrough and the light-blocking region stopping light therethrough.

16. casings for artificial light source according to claim 15, is characterized in that, the transparent area of described light barrier and light-blocking region are in replacing structure distribution.

17. casings for artificial light source according to claim 15, is characterized in that, described light barrier is at least two-layer light-blocking structure, and every layer of light-blocking structure all comprises light-blocking region and transparent area, and by adjusting the position adjustments light penetration of every layer of light-blocking structure.

18. casings for artificial light source according to claim 15, it is characterized in that, the duty cycle range of described transparent area and described light-blocking region is more than or equal to 4:1, and be less than or equal to 9:1.

19. 1 kinds of artificial light sources, it is characterized in that, comprise the casing for artificial light source described in any one of claim 1-18, described light-source generation device is arranged in the spatial accommodation of described casing, specifically, this light-source generation device has supporting seat, and described light-source generation device is fixed on described casing by described supporting seat, makes it be arranged in the spatial accommodation of described casing.

20. 1 kinds of array of source, is characterized in that, comprise artificial light source according to claim 19, and described artificial light source edge anyhow two dimensions is arranged as array.

21. array of source according to claim 20, is characterized in that, the switching door of the artificial light source in this array of source can carry out opening and closing movement simultaneously.

22. 1 kinds of solar cell test systems, is characterized in that, comprise artificial light source according to claim 19 and/or the array of source described in any one of claim 20-21.