CN105356850A - Auxiliary connection device used for solar energy assembly test and operation method - Google Patents

Abstract

The invention discloses an auxiliary connection device used for a solar energy assembly test and an operation method. The auxiliary connection device includes an insulation block, metal conductors embedded in the insulation block and a cylinder arranged above the insulation block; one side face of the insulation block is provided with a groove for clamping an aluminium alloy frame of a solar energy assembly; an upper surface and one side face of each metal conductor extend out of the insulation block, and the side face of the metal conductor, which extends out of the insulation block, is provided with a conductive terminal in an outward extending manner; the conductive terminals are used for being connected with a junction box lead-out wire of the solar energy assembly, and an upper face of each metal conductor, which extends out of the insulation block, is used for being connected with a tester; and an adjusting telescopic rod used for adjusting the height of the insulation block is arranged between the insulation block and the cylinder. The auxiliary connection device used for the solar energy assembly test which is disclosed by the invention is strong in universality and is easy to operate, and does not need repeated manual wiring and wire removal, thereby saving a great deal of manpower.

Description

A kind of ancillary attachement devices for solar assembly test and method of operation thereof

Technical field

The present invention relates to solar assembly test field, be specifically related to a kind of ancillary attachement devices for solar assembly test and method of operation thereof.

Background technology

Solar components needs to carry out the test such as several data, image before finished product packing, by just packing cartonning after test.Manually be connected on the p-wire of tester by solar components line box lead-out wire, the testing button connected in rear click computer is tested, and manually again after having tested lead-out wire and p-wire is removed.In test process, need connection and the dismounting of manually repeatedly carrying out p-wire; And solar components needs to carry out data test through multiple tester, all need to carry out manually repeatedly p-wire being connected and removing.

Therefore, further research and develop highly versatile, the general aid for solar assembly test simple to operate becomes the technical problem that those skilled in the art remain unsolved.

Summary of the invention

For the problems referred to above, the object of this invention is to provide a kind of ancillary attachement devices for solar assembly test and method of operation thereof.This ancillary attachement devices highly versatile, simple to operate, do not need artificial wiring repeatedly and take out stitches, saving a large amount of manpowers.

For achieving the above object, the present invention adopts following technical scheme:

For an ancillary attachement devices for solar assembly test, comprise collets, be embedded in the metallic conductor of described collets and be arranged on the upper cylinder of described collets; One side of described collets is provided with the groove of the aluminum alloy frame of clamping solar components; Upper surface and a side of described metallic conductor extend beyond described collets respectively, the side facing epitaxy extending beyond described collets of described metallic conductor is stretched and is had conducting terminal, described conducting terminal is for connecting the line box lead-out wire of described solar components, and the upper surface extending beyond described collets of described metallic conductor is arranged for connecting test instrument; The adjustable telescopic rod for regulating described collets height is provided with between described collets and described cylinder.

Further, described collets are cuboids.

Further, described collets are made up of a kind of or at least two kinds the composition in polytetrafluoroethylene, polypropylene and polyethylene.

Further, the quantity of described metallic conductor is two, and two described metallic conductors are embedded in described collets side by side.

Further, described metallic conductor is made up of a kind of or at least two kinds the composition in copper, aluminium, tin and gun-metal.

Further, described conducting terminal and described metallic conductor are formed in one.

Further, the shape of described conducting terminal is cylinder.

Another object of the present invention is to provide a kind of method of operation of the ancillary attachement devices for above-mentioned solar assembly test, comprises the following steps:

1) aluminum alloy frame of solar components is snapped fit onto in the groove of collets, and the lead-out wire of the line box of solar components is connected on the conducting terminal of metallic conductor;

2) described ancillary attachement devices is moved to together with solar components the top of tester, and regulate the height of adjustable telescopic rod to make collets be pressed together on above described tester by starting cylinder, now the upper surface extending beyond described collets of described metallic conductor contacts with described tester, make the electrical connection of described solar components and described tester, thus test;

3), after having tested, start cylinder and be pulled upwardly described collets by described adjustable telescopic rod, and then disconnect the electrical connection of described solar components and described tester.

Owing to adopting above technical scheme, the present invention compared with prior art tool has the following advantages:

Solar components to be tested is connected to ancillary attachement devices by the ancillary attachement devices for solar assembly test of the present invention, and ancillary attachement devices and solar components can synchronizing movings.Only need the ancillary attachement devices being connected to solar components be moved on tester during test, can test be completed, simple to operate, need not manually wiring and taking out stitches.When multiple tester carries out data test, the ancillary attachement devices of mobile link solar components is only needed to test successively to each tester, do not need artificial wiring repeatedly and take out stitches, save a large amount of manpowers and embody the highly versatile of ancillary attachement devices of the present invention.

Accompanying drawing explanation

Fig. 1 is the structural representation of the ancillary attachement devices for solar assembly test of the present invention;

Fig. 2 is the metallic conductor of the ancillary attachement devices for solar assembly test of the present invention and the structural representation of collets.

Description of reference numerals:

1 cylinder, 2 adjustable telescopic rods, 3 collets, 4 metallic conductors, 5 conducting terminals, 6 grooves.

Embodiment

In order to make object of the present invention, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

embodiment 1

The invention provides a kind of ancillary attachement devices for solar assembly test (as depicted in figs. 1 and 2).This ancillary attachement devices comprises cuboid collets 3, is embedded in the metallic conductor 4 of collets 3 and is arranged on the upper cylinder 1 of collets 3; Collets 3 are of a size of 80cm*40cm*60cm (the wide * of long * is high) and a side of collets 3 is provided with the groove 6 of the aluminum alloy frame (not shown) of clamping solar components; Metallic conductor 4 is of a size of 30cm*30cm*20cm (the wide * of long * is high), and the quantity of metallic conductor 4 is two and two metallic conductors 4 are embedded into collets 3 side by side.Upper surface and a side of metallic conductor 4 extend beyond collets 3 respectively; The upper surface of the metallic conductor 4 extending beyond collets 3 of metallic conductor 4 is for connecting test instrument (not shown).The side facing epitaxy extending beyond collets 3 of metallic conductor 4 stretches the conducting terminal 5 of the line box lead-out wire (not shown) for connecting solar components, and conducting terminal 5 and metallic conductor 4 are formed in one and the shape of conducting terminal 5 is cylinder.The adjustable telescopic rod 2 for regulating collets 3 height is provided with between collets 3 and cylinder 1.

Collets can be made up of a kind of or at least two kinds the composition in polytetrafluoroethylene, polypropylene and polyethylene in the present invention, and metallic conductor is made up of a kind of or at least two kinds the composition in copper, aluminium, tin and gun-metal.

Such as the material of collets 3 is polytetrafluoroethylene in one embodiment, and the material of metallic conductor 4 is copper, the lower and good conductivity with the ancillary attachement devices cost of above-mentioned materials for support;

Be the material of collets 3 are in another embodiment polytetrafluoroethylene, the material of metallic conductor 4 is aluminium, the light and good conductivity by the ancillary attachement devices quality of above-mentioned materials for support;

The material of collets 3 is polypropylene in another embodiment, and the material of metallic conductor 4 is tin.

The material of collets 3 is polyethylene in another embodiment, and the material of metallic conductor 4 is gun-metals.

Ancillary attachement devices for solar assembly test of the present invention is when operating:

The aluminum alloy frame of solar components is snapped fit onto in the groove 6 of collets 3, and the line box lead-out wire of solar components is connected on the conducting terminal 5 of metallic conductor 4; Ancillary attachement devices is moved to together with solar components the top of tester, and regulate the height of adjustable telescopic rod 2 to make collets 3 be pressed together on above tester by starting cylinder 1, now the upper surface extending beyond collets 3 of metallic conductor 4 contacts with tester, make the electrical connection of solar components and tester, test; After having tested, start cylinder 1 and be pulled upwardly collets 3 by adjustable telescopic rod 2, and then disconnect the electrical connection of solar components and tester.

The foregoing is only preferred embodiment of the present invention, be not used for limiting practical range of the present invention; If do not depart from the spirit and scope of the present invention, the present invention is modified or equivalent to replace, in the middle of the protection range that all should be encompassed in the claims in the present invention.

Claims (8)

1. for an ancillary attachement devices for solar assembly test, it is characterized in that, comprise collets, be embedded in described collets metallic conductor and be arranged on the upper cylinder of described collets; One side of described collets is provided with the groove of the aluminum alloy frame of clamping solar components; Upper surface and a side of described metallic conductor extend beyond described collets respectively, the side facing epitaxy extending beyond described collets of described metallic conductor is stretched and is had conducting terminal, described conducting terminal is for connecting the line box lead-out wire of described solar components, and the upper surface extending beyond described collets of described metallic conductor is arranged for connecting test instrument; The adjustable telescopic rod for regulating described collets height is provided with between described collets and described cylinder.

2. the ancillary attachement devices for solar assembly test according to claim 1, is characterized in that, described collets are cuboids.

3. the ancillary attachement devices for solar assembly test according to claim 1, is characterized in that, described collets are made up of a kind of or at least two kinds the composition in polytetrafluoroethylene, polypropylene and polyethylene.

4. the ancillary attachement devices for solar assembly test according to claim 1, is characterized in that, the quantity of described metallic conductor is two, and two described metallic conductors are embedded in described collets side by side.

5. the ancillary attachement devices for solar assembly test according to claim 1, is characterized in that, described metallic conductor is made up of a kind of or at least two kinds the composition in copper, aluminium, tin and gun-metal.

6. the ancillary attachement devices for solar assembly test according to claim 1, is characterized in that, described conducting terminal and described metallic conductor are formed in one.

7. the ancillary attachement devices for solar assembly test according to claim 1, is characterized in that, the shape of described conducting terminal is cylinder.

8. for a method of operation for the ancillary attachement devices of the solar assembly test according to any one of claim 1-7, it is characterized in that, comprise the following steps:

1) aluminum alloy frame of solar components is snapped fit onto in the groove of collets, and the lead-out wire of the line box of solar components is connected on the conducting terminal of metallic conductor;

2) described ancillary attachement devices is moved to together with solar components the top of tester, and regulate the height of adjustable telescopic rod to make collets be pressed together on above described tester by starting cylinder, now the upper surface extending beyond described collets of described metallic conductor contacts with described tester, make the electrical connection of described solar components and described tester, thus test;

3), after having tested, start cylinder and be pulled upwardly described collets by described adjustable telescopic rod, and then disconnect the electrical connection of described solar components and described tester.