CN206004620U - A kind of solar cell test machine - Google Patents

Abstract

The utility model discloses a kind of solar cell test machine, including computer, base, it is placed in the probe carriage above base and is placed in the xenon lamp above probe carriage, described probe carriage is provided with sliding tray, sliding tray is connected with some rows can be along the probe row of sliding tray movement, it is evenly equipped with several probe aperture on probe row, probe in the hole is provided with dismountable probe, probe row and calculating mechatronics, is connected with each other by wire between probe aperture.Compared with prior art, the solar cell test machine of this has the distribution that can freely set probe during test, do not need to take time to change probe row, probe row's quantity and spacing only need to be adjusted, adjust the distribution of probe, just can be switched fast and carry out testing three main grids, four main grids even many main grids crystal silicon battery, and main grid segmentation, main grid connect grid cell, have the advantages that easy and simple to handle.

Description

A kind of solar cell test machine

Technical field

This utility model is related to technical field of solar batteries, and more particularly, to a kind of test crystal silicon solar batteries photoelectricity turns Change the test machine of efficiency.

Background technology

Solaode is that one kind effectively absorbs solar radiant energy, converts optical energy into electric energy using photovoltaic effect Device, when solar irradiation is in quasiconductor P-N junction (P-N Junction), form new hole-electron to (V-E pair), In the presence of P-N junction electric field, hole flows to P area by N area, and electronics flows to N area by P area, is formed for electric current after connecting circuit.

The manufacturing process of crystal silicon solar batteries has 6 procedures, respectively making herbs into wool, diffusion, goes phosphorosilicate glass and back of the body knot, plating Film, silk screen printing, sintering.After battery completes to manufacture, using test machine, battery is carried out with the test of photoelectric transformation efficiency.

With technological improvement, and the demand in market is being continually changing, the design pattern of crystal silicon battery anelectrode increasing, Correspondingly, two main grid batteries, three main grid batteries, four main grid batteries, five main grid batteries and main grid eight sections of batteries, main grids are occurred in that Even grid cell etc..

Patent CN201520861795.5, discloses a kind of probe carriage assembly for cell piece, including support body, described Be provided with sliding tray in support body, be provided with described sliding tray a pair can along sliding tray slide probe row can by sliding tray Lai Adjust the distribution mode of probe row.

Patent CN201520926336.0, discloses a kind of universal many grid lines cell slice test probe row, including two Parallel locating rod, also includes at least 1 probe rod, the two ends of each probe rod are removably mounted at by securing member respectively In the nut bore of aforesaid two locating rods.Different battery varieties can be adapted to by adjusting the position of probe rod

The more conventional test machine of both technology, by adjusting probe row, but can not can accurately adjust probe Distribution mode.

Utility model content

Technical problem to be solved in the utility model is, provides a kind of crystal silicon solar batteries test machine, not only may be used So that position and the quantity of probe row are adjusted flexibly, can also accurately control distribution and the quantity of probe, can be switched fast, survey Try three main grids, four main grids even many main grids crystal silicon battery, and main grid segmentation, main grid connect the dissimilar solar-electricity such as grid cell The photoelectric transformation efficiency in pond.

For achieving the above object, the technical scheme that this utility model is adopted is：A kind of solar cell test machine, including Computer, base, it is placed in the probe carriage above base and is placed in xenon lamp above probe carriage, described probe carriage is provided with slip Groove, described sliding tray is connected with some rows and can be evenly equipped with several probes along the probe row of sliding tray movement on described probe row Hole, described probe in the hole is provided with dismountable probe, described probe row and calculating mechatronics, passes through wire phase between probe aperture Connect.

Compared with prior art, solar cell test machine of the present utility model, by being provided with sliding tray on probe carriage, Described sliding tray is connected with some rows and can be evenly equipped with several probe aperture along the probe row of sliding tray movement on described probe row, Described probe in the hole is provided with dismountable probe, has and can freely set the distribution of probe it is not necessary to take time more during test Change probe row, only need to adjust probe row's quantity and spacing, adjust the distribution of probe and carry out testing three masters it is possible to be switched fast Grid, four main grids even many main grids crystal silicon battery, and main grid segmentation, main grid connect grid cell, has the advantages that easy and simple to handle.

As the improvement of such scheme, described sliding tray cross section is in " returning " shape.

As the improvement of such scheme, described probe row is arranged for M, and the scope of M is：1 ＜ M ＜ 7.

As the improvement of such scheme, the quantity of described probe aperture is 3-350.

As the improvement of such scheme, a diameter of 0.5-2mm of described probe aperture.

As the improvement of such scheme, described probe material is gold, and purity is 99.99%.

Brief description

Fig. 1 is a kind of structural representation of this utility model crystal silicon solar batteries test machine；

Fig. 2 is the structural representation of this utility model probe carriage；

Fig. 3 is the structural representation of this utility model probe row.

The realization of this utility model function and advantage will be described further in conjunction with the embodiments referring to the drawings.

Specific embodiment

The utility model is described in further detail with preferred embodiment below in conjunction with the accompanying drawings.

As shown in Figure 1, Figure 2, Figure 3 shows, a kind of solar cell test machine, including computer 4, base 1, is placed on base 1 The probe carriage 2 of side and the xenon lamp 3 being placed in probe carriage 2 top, described probe carriage 2 is provided with sliding tray 21, and described sliding tray 21 is even It is connected to some rows and can arrange 5 along the probe of sliding tray 21 movement, described probe row 5 is evenly equipped with several probe aperture 51, described spy It is provided with dismountable probe 6, described probe row 5 and computer 4 electrically connect, and pass through wire 7 phase between probe aperture 51 in pin hole 51 Connect.

Preferably, described sliding tray 21 cross section is in " returning " shape, and probe row 5 both can also may be used laterally on probe carriage 2 With longitudinally, on probe carriage 2, operation is more flexible.

Preferably, described probe row 5 number is M row, and the scope of M is：1<M ＜ 7, the quantity of described probe aperture 51 is 3-350 Individual；The quantity and spacing of probe row 5 and probe 6 can flexibly be adjusted according to the quantity and spacing of test battery main grid

Preferably, a diameter of 0.5-2mm of described probe aperture 51.

Preferably, described probe 6 material is gold, and purity is 99.99%, pure gold material, and probe 6 resistance value is smaller, Can be higher by larger electric current, sensitivity.

During work, according to solaode to be tested, adjust quantity and the distribution mode of probe row 5 and probe 6, treating The solaode of test is placed in probe carriage 2 lower section and is contacted with probe 6, starts computer 4 and xenon lamp 3, and xenon lamp 3 is irradiated to too On positive lamp battery, solar cell working, and electric current is passed to and the probe 6 with solaode contact position, probe 6 passes through 7 tests of wire between linking probe hole 51 to electric current pass to probe row 5, probe is arranged 5 electric currents and is passed to and its electricity The computer 4 connecting, the electricity conversion of the amperometry solaode that computer 4 is tested by probe 6.

The foregoing is only preferred embodiment of the present utility model, not in order to limit this utility model, all this Any modification, equivalent or improvement made within the spirit of utility model and principle etc., should be included in this utility model Protection domain within.

Claims (6)

1. a kind of solar cell test machine it is characterised in that：Including computer, base, be placed in probe carriage above base and It is placed in the xenon lamp above probe carriage, described probe carriage is provided with sliding tray, and described sliding tray is connected with some rows can be along sliding tray The probe row of movement, described probe row is evenly equipped with several probe aperture, described probe in the hole is provided with dismountable probe, described Probe row and calculating mechatronics, are connected with each other by wire between probe aperture.

2. according to a kind of solar cell test machine described in claim 1 it is characterised in that：Described sliding tray cross section is in " returning " shape.

3. according to a kind of solar cell test machine described in claim 1 it is characterised in that：Described probe row is arranged for M, M Scope be：1 ＜ M ＜ 7.

4. according to a kind of solar cell test machine described in claim 1 it is characterised in that：The quantity of described probe aperture is 3- 350.

5. according to a kind of solar cell test machine described in claim 1 it is characterised in that：Described probe aperture a diameter of 0.5-2mm.

6. according to a kind of solar cell test machine described in claim 1 it is characterised in that：Described probe material is gold, pure Spend for 99.99%.