CN104297591A - Testing device for concentrating solar photoelectric receiver universal modules with radiators - Google Patents

Abstract

The invention relates to a testing device for concentrating solar photoelectric receiver universal modules with radiators, and belongs to the technical field of solar photovoltaic power generation. The testing device comprises a concentrating solar photoelectric conversion receiver module with a radiator, supporting block fixing plates, supporting blocks, conducting probes, a standard light source, wires, a standard light source control generator, an alternating current power supply, a computer, a display, an electrical property tester and a scanner. The testing system device is simple in structure, low in manufacturing cost, small in size, convenient to carry, move and maintain and low in maintenance cost. The size of the supporting block fixing plates can be quickly and easily adjusted according to the different sizes of products so as to meet the requirement of the different sizes of receiver modules with radiators. The testing system device is suitable for quickly and stably testing the concentrating solar photoelectric conversion receiver modules with radiators in a production line and can improve the production efficiency and reduce the repair rate of the products to the maximum degree, and therefore rejection caused by repair of the products can be controlled to the maximum degree. Due to the scanner, the serial numbers of the products and parameters obtained after testing can be conveniently matched in the testing process so that workers can view the data conveniently in the future, the workload of manual input can be reduced, and the labor cost can be lowered.

Description

With the condensing solar opto-electronic receiver general module proving installation of heating radiator

Technical field

The present invention relates to the condensing solar opto-electronic receiver general module proving installation of band heating radiator, belong to solar photovoltaic technology field.

Background technology

Although crystal-silicon battery slice and hull cell sheet utilize the Technical comparing of generating ripe, conversion ratio is too low, belongs to the first generation and second-generation technology.When solar irradiation is mapped to high power Fresnel ground lens, is irradiated on cell piece after amplifying and focusing on, accesses higher photoelectric efficiency via system transformation energy, belong to second-generation technology.Now, high concentration solar will provide a kind of more inexpensive new forms of energy, will be increasing in global installation amount and demand.And sun power is a kind of clean, efficiently and never new forms of energy of exhausting of sorrow, being also one of important regenerative resource, is that national governments are in the strategic important directions of sustainable development source.

Relative to low-concentration system, high concentration solar can obtain higher efficiency and higher cost performance.High power concentrator assembly is the core in electricity generation system, is also to be worth the highest part in electricity generation system.The quality of high power concentrator assembly and cost will directly affect quality and the cost of whole system.So need when producing a kind ofly to go to differentiate to be particularly important in the quality of the condensing solar opto-electronic conversion receiver module of non-mounted lens by quick, stable testing system device, after avoiding product mounted lens, product does not reach the repair rate after standard, because will cause the damage of receiver in the middle of reprocessing repeatedly.This testing system device is provided with scanner, can the numbering of product and corresponding parameter matching during test, to check and to save the input service of personnel in the future, so research and develop a set of fast and stable and the condensing solar opto-electronic conversion receiver general module testing system device of band heating radiator that can adapt to produce is necessary, also do not provide the system of this kind of device at present specially.

Summary of the invention

The object of the invention is the condensing solar opto-electronic receiver general module proving installation being to provide band heating radiator.

The condensing solar opto-electronic receiver general module proving installation of band heating radiator provided by the invention comprises: the condensing solar opto-electronic conversion receiver module of band heating radiator, back-up block fixed head, back-up block, conducting probe, standard sources, wire, standard sources control generator, AC power, computing machine and display, testing electrical property instrument, scanner, it is characterized in that described back-up block fixed head 2 needs to be fixed on base plate 4, back-up block 3 is fixed on back-up block fixed head 2, condensing solar opto-electronic conversion receiver module 1 with heating radiator is placed on back-up block 3, conducting probe 51, 52 are fixed on base plate 4, while cross conducting probe wire 71, 72 are connected with testing electrical property instrument 11, standard sources 6 is fixed on the relevant position of base plate 4, control generator 8 by standard sources wire 12 and standard sources to be connected, the data that testing electrical property instrument 9 is tested show after crossing software analysis in graphoscope 10, AC power 9 gives light source control generator 8 respectively, testing electrical property instrument and 11 computing machines and display 10 are powered, scanner 13 is connected on the corresponding interface of computing machine.

The condensing solar opto-electronic conversion receiver module l of described band heating radiator is high concentration solar photoelectric conversion receiver module, and size can be any size, and heating radiator also can be any shape.

Described back-up block fixed head 2 is square configuration, and vertical solid on base plate, and material can be any hard material.

Described back-up block 3 is square configuration, and material can be any hard material.

Described conducting probe 51,52 can be circular or other shape, and material can be copper, aldary or other material.

Described light source control generator 8 is the adjustable standard luminescent source of a luminous power.

Described computing machine and display 10 are provided with relevant test data composing software.

The advantage of the condensing solar opto-electronic receiver general module proving installation of band heating radiator of the present invention is mainly reflected in: 1. the structure of this testing system device is simple, and cost of manufacture is cheap.2. this testing system device volume is little, carries and conveniently moving.3. this testing system device is easy to maintenance, and maintenance cost is low.4. this testing system device according to the size of the size of product different rapid adjustment back-up block fixed head, can meet the band heat radiation receiver module of different size, only needs simple operation to complete during adjustment.5. this testing system device is applicable to the condensing solar opto-electronic conversion receiver module of quick, the stable calibration tape heating radiator of production line, can be maximum enhance productivity and reduce the repair rate of product, thus controls product ridge to greatest extent and reprocesses and the fraction defective that causes.6. when the access of scanner can make test the numbering of product with test out after parameter matching see so that in the future distant and out of sight and save the input service of manpower, reducing cost of labor.

Accompanying drawing explanation

Fig. 1 is the condensing solar opto-electronic receiver general module proving installation planimetric map of band heating radiator.

Wherein: 1, be with the condensing solar opto-electronic conversion receiver module of heating radiator, 2, back-up block fixed head, 3, back-up block, 4, base plate, 51, conducting probe positive pole, 52, conducting probe negative pole, 6, standard sources, 71, conducting probe wire positive pole, 72, conducting probe wire negative pole, 8, standard sources controls generator, 9, AC power, 10, computing machine and display, 11, testing electrical property instrument, 12, standard sources wire, 13, scanner.

Specific embodiment

Below in conjunction with accompanying drawing to further instruction of the present invention.

With the condensing solar opto-electronic receiver general module proving installation of heating radiator, as shown in Fig. 1, it comprises 1, with the condensing solar opto-electronic conversion receiver module of heating radiator, 2, back-up block fixed head, 3, back-up block, 4, base plate, 51, conducting probe positive pole, 52, conducting probe negative pole, 6, standard sources, 71, conducting probe wire positive pole, 72, conducting probe wire negative pole, 8, standard sources controls generator, 9, AC power, 10, computing machine and display, 11, testing electrical property instrument, 12, standard sources wire, it is characterized in that back-up block fixed head 2 needs to be fixed on the upper of base plate 4, back-up block 3 is fixed on back-up block fixed head 2, condensing solar opto-electronic conversion receiver module 1 with heating radiator is placed on back-up block 3, conducting probe 51, 52 are fixed on base plate 4, by conducting probe wire 71, 72 are connected with testing electrical property instrument 11, standard sources 6 is fixed on the relevant position of base plate 4, control generator 8 by standard sources wire 12 and standard sources to be connected, the data that testing electrical property instrument 9 is tested show after crossing software analysis in graphoscope 10, AC power 9 gives light source control generator 8 respectively, testing electrical property instrument and 11 computing machines and display 10 are powered, scanner 13 is linked on the corresponding interface of computing machine.

During embody rule, see Fig. 1, first with scanner, the numbering of product is logged in the related software of computing machine.Back-up block 3 is adjusted to 2mm place lower than conducting probe 5, the condensing solar opto-electronic conversion receiver module of band heating radiator is placed 1 to be placed on back-up block 3, after condensing solar opto-electronic conversion receiver module 1 with heating radiator is placed, the pressure produced makes conducting probe 5 touch the test point of the condensing solar opto-electronic conversion receiver module of band heating radiator, then AC power 9 is opened, the standard sources 6 produced from light source control generator 8 shines directly into the cell piece of the condensing solar opto-electronic conversion receiver module of band heating radiator, test signal is by conducting probe 51, 52 and wire 71, 72 enter into electrical property test instrument 11, last test information and data, by after the data compilation software of computer, graphoscope 10 show and correspondingly with numbering to be saved in computing machine.

In the present invention; as Bank of Communications's embodiment, the shape of back-up block is square, and material can be any hard material and any size; the shape of conducting probe can be any shape and size, therefore the scope that the scope of the present invention limits with claims is as the criterion.

Claims (7)

1. be with the condensing solar opto-electronic receiver general module proving installation of heating radiator, it comprises the condensing solar opto-electronic conversion receiver module of band heating radiator, back-up block fixed head, back-up block, conducting probe, standard sources, wire, standard sources control generator, AC power, computing machine and display, testing electrical property instrument, scanner, it is characterized in that described back-up block fixed head needs to be fixed on base plate, back-up block is fixed on back-up block fixed head, condensing solar opto-electronic conversion receiver module with heating radiator is placed on back-up block, conducting probe is fixed on base plate, be connected with testing electrical property instrument by conducting probe wire, standard sources is fixed on the relevant position of base plate, control generator by standard sources wire and standard sources to be connected, show in graphoscope after the corresponding software analysis of data of testing electrical property instrument test, AC power controls generator to standard sources respectively, testing electrical property instrument, computing machine and monitor power supply, scanner is connected on the corresponding interface of computing machine.

2. according to the condensing solar opto-electronic receiver general module proving installation of the band heating radiator described in claim 1, the condensing solar opto-electronic conversion receiver module that it is characterized in that described band heating radiator is high concentration solar photoelectric conversion receiver module, size can be any size, and heating radiator also can be any shape.

3. the condensing solar opto-electronic receiver general module proving installation of the band heating radiator according to claim l, is characterized in that described back-up block fixed head is square configuration, and is vertically fixed on base plate, material can be any hard material.

4. the condensing solar opto-electronic receiver general module proving installation of the band heating radiator according to claim l, is characterized in that described back-up block is square configuration, and material can be any hard material.

5. the condensing solar opto-electronic receiver general module proving installation of the band heating radiator according to claim l, it is characterized in that described conducting probe can be circular or other shape, material can be copper, aldary or other material.

6., according to the condensing solar opto-electronic receiver general module proving installation of the band heating radiator described in claim 1, it is characterized in that described light source control generator is the adjustable standard luminescent source of a luminous power.

7., according to the condensing solar opto-electronic receiver general module proving installation of the band heating radiator described in claim 1, it is characterized in that described computing machine and display are provided with relevant test data composing software.