CN203722579U - A crystalline silicon small-piece battery test tool - Google Patents

Abstract

The utility model relates to a crystalline silicon small-piece battery test tool composed of a position control mechanism, probes, a platform surface and a support. The platform surface and the support are subjected to insulation processing. A battery piece clamping groove is arranged in the platform surface. The position control mechanism is erected on the platform surface. The probes are connected to the position control mechanism and is positioned above the battery piece clamping groove. The position control mechanism moves and controls the probes to be in contact with the battery piece placed in the battery piece clamping groove. Compared with crystalline silicon small-piece battery test tools in the prior art, the crystalline silicon small-piece battery test tool of the utility model can conveniently and flexibly test a small-piece battery, of which the dimension is less than a standard battery; a light source which an existing test machine has is used as the light source; the tool making is simple; the processing costs are low; the position of the probe is adjustable; and the crystalline silicon small piece battery test tool can test different kinds of main-grid-shaped small piece batteries.

Description

A kind of crystal silicon small pieces battery testing frock

Technical field

The utility model relates to a kind of solar cell test device, especially relates to a kind of crystal silicon small pieces battery testing frock.

Background technology

Increasingly active along with industrial development and mankind's activity, the mankind increase increasingly to the consumption of the energy, and the shortage increasingly of underground non-reproducible fossil energy, energy supply and demand contradiction intensifies day by day, and oneself becomes one of key issue affecting human survival and development energy problem.Compare with many regenerative resources such as wind power generation, ocean power generation, biomass power generations, solar energy power generating has spatter property, fail safe, popularity, noiseless, pollution-free, energy is available anywhere, without consume fuel, mechanical rotating part, easy maintenance, can unattended operation, the construction period is short, scale is random, can be easily and many unrivaled advantages such as building combines.Solar cell is to utilize photovoltaic effect solar energy to be converted into the semiconductor device of electric energy, is then assembled into the device of different voltage, electric current and power, thereby makes people obtain new forms of energy.Solar cell is widely used in space technology, military depot, navigation mark, household electrical appliances and other shorts of electricity without electric outlying district, and wherein crystalline silicon battery plate is due to the commercially produced product that becomes main flow with low cost.

In practical application, package assembling is generally used the standard specification crystal-silicon battery slice of 5 cun and 6 cun.In some particular application, need cell piece to have certain flexibility to meet service condition as unmanned plane etc., except requiring cell piece to have thinner thickness (≤130 μ m), cell piece area also will suitably reduce (≤1800mm ²), namely use thin silicon plate let silion cell.On production line, the probe of existing cell slice test separator row and feed belt only can be realized the electrical property measurement of 5 cun and 6 cun standard cell sheets, and thin silicon plate let silion cell needs in addition design test frock targetedly.

Utility model content

The purpose of this utility model is exactly that a kind of convenient, flexible, the crystal silicon small pieces battery testing frock that can test multiple main grid shape small pieces battery is provided in order to overcome the defect that above-mentioned prior art exists.

The purpose of this utility model can be achieved through the following technical solutions:

A crystal silicon small pieces battery testing frock, is comprised of position control mechanism, probe, table top and support,

Described table top and support, through insulation processing, are provided with cell piece draw-in groove on table top,

Described position control mechanism is erected on table top, and described probe is connected on position control mechanism and is positioned at the top of cell piece draw-in groove, and position control mechanism motion control probe contacts with the cell piece in being placed on cell piece draw-in groove.

Described position control mechanism is comprised of rotary handle, linking springs, tie-beam, and described linking springs connects respectively rotary handle and tie-beam, on described tie-beam, is connected with probe.

Described rotary handle drives linking springs compression through rotating down pressing, controls probe move downward contact cell piece through tie-beam.

Described probe is provided with 2～8 groups, every group of two probes, and the joint of probe connects respectively the contact of front electrode main grid, and draw-in groove surface contacts with back of the body electric field.

Described probe is detachable to be movably connected on position control mechanism, and position is adjustable.

Compared with prior art, the utlity model has following advantage:

One, the small pieces battery that can convenient, flexible test size be less than standard cell;

Two, light source is used the light source of existing test machine, and frock making is easy, and processing cost is low;

Three, probe location is adjustable, can test the small pieces battery of multiple main grid shape (linear, hollow out segmentation, segmentation hollow out).

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

In figure, 1 is that rotary handle, 2 is that tie-beam, 3 is that table top, 4 is that support, 5 is that probe, 6 is cell piece draw-in groove.

Embodiment

Below in conjunction with the drawings and specific embodiments, the utility model is elaborated.

Embodiment

A kind of crystal silicon small pieces battery testing frock, its structure as shown in Figure 1, by position control mechanism, probe 5, table top 3 and support 4, formed, table top 3 and support 4 are through insulation processing, on table top 3, be provided with cell piece draw-in groove 6, position control mechanism is erected on table top 3, rotary handle 1, linking springs, tie-beam 2, consists of, linking springs connects respectively rotary handle 1 and tie-beam 2, is connected with probe 5 on tie-beam 2.Probe 5 is provided with two groups, the joint of probe 5 connects respectively front electrode main grid and back of the body electric field, in addition, the detachable top that is movably connected on tie-beam 2 and is positioned at cell piece draw-in groove of probe 5, position is adjustable, thereby can test the small pieces battery of multiple main grid shape (linear, hollow out segmentation, segmentation hollow out).Frock is placed to test machine light source below, by on two groups of probe joint connecting wire test machines that contact with back of the body electric field with front electrode main grid, small pieces battery is positioned in cell piece draw-in groove 6, rotary handle 1 drives linking springs compression through rotating down pressing, through tie-beam 2 control probes 5, move downward contact and be arranged on the cell piece in cell piece draw-in groove 6, probe and cell piece are realized close contact, can carry out electric performance test.

Claims (5)

1. a crystal silicon small pieces battery testing frock, is characterized in that, this test fixture is comprised of position control mechanism, probe, table top and support,

Described table top and support, through insulation processing, are provided with cell piece draw-in groove on table top,

Described position control mechanism is erected on table top, and described probe is connected on position control mechanism and is positioned at the top of cell piece draw-in groove, and position control mechanism motion control probe contacts with the cell piece in being placed on cell piece draw-in groove.

2. a kind of crystal silicon small pieces battery testing frock according to claim 1, it is characterized in that, described position control mechanism is comprised of rotary handle, linking springs, tie-beam, and described linking springs connects respectively rotary handle and tie-beam, on described tie-beam, is connected with probe.

3. a kind of crystal silicon small pieces battery testing frock according to claim 2, is characterized in that, described rotary handle drives linking springs compression through rotating down pressing, controls probe move downward contact cell piece through tie-beam.

4. a kind of crystal silicon small pieces battery testing frock according to claim 1, is characterized in that, described probe is provided with 2～8 groups, every group of two probes, and the joint of probe connects respectively the contact of front electrode main grid, and draw-in groove surface contacts with back of the body electric field.

5. a kind of crystal silicon small pieces battery testing frock according to claim 1, is characterized in that, described probe is detachable to be movably connected on position control mechanism, and position is adjustable.