CN203561577U - Stripping force testing device for photovoltaic module - Google Patents

Stripping force testing device for photovoltaic module Download PDF

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Publication number
CN203561577U
CN203561577U CN201320739307.4U CN201320739307U CN203561577U CN 203561577 U CN203561577 U CN 203561577U CN 201320739307 U CN201320739307 U CN 201320739307U CN 203561577 U CN203561577 U CN 203561577U
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CN
China
Prior art keywords
photovoltaic module
feedstock
test
along
support
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn - After Issue
Application number
CN201320739307.4U
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Chinese (zh)
Inventor
张飞飞
陈沁�
顾斌锋
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Powerld Photovoltaic Technology (suzhou) Co Ltd
Original Assignee
Powerld Photovoltaic Technology (suzhou) Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Powerld Photovoltaic Technology (suzhou) Co Ltd filed Critical Powerld Photovoltaic Technology (suzhou) Co Ltd
Priority to CN201320739307.4U priority Critical patent/CN203561577U/en
Application granted granted Critical
Publication of CN203561577U publication Critical patent/CN203561577U/en
Withdrawn - After Issue legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The utility model relates to a stripping force testing device for a photovoltaic module. The stripping force testing device comprises a testing worktable, a conveying mechanism, a bracket, a photovoltaic module fixing piece, a testing stretching piece and a weighing sensor, wherein the conveying mechanism is arranged on a tabletop of the testing worktable along a feeding direction; the bracket is arranged on the testing worktable and is located above the tabletop of the testing worktable; the photovoltaic module fixing piece and the testing stretching piece are respectively arranged on the bracket; the top of the testing stretching piece is connected with the weighing sensor. According to the stripping force testing device for the photovoltaic module, the photovoltaic module is arranged on the conveying mechanism; the testing stretching piece and the photovoltaic module fixing piece are moved to the part above the photovoltaic module and then the photovoltaic module fixing piece is driven to press the photovoltaic module; a photovoltaic module material to be tested is clamped by the testing stretching piece; then the testing stretching piece is driven to upwards strip the photovoltaic module material to be tested; in a stripping process, a material hook drives the photovoltaic module to move forwards along the feeding direction so that the photovoltaic module material to be tested and the photovoltaic module keep vertical; finally, the stripping force of the photovoltaic module is measured by the weighing sensor.

Description

Photovoltaic module peel test force device
Technical field
The utility model relates to field of solar energy, relates in particular to a kind of photovoltaic module peel test force device.
Background technology
At present, solar photovoltaic assembly comprises laminate and the metal edge frame that is arranged at laminate two ends, and laminate comprises cell piece, the glass that is arranged at respectively cell piece both sides and backboard, is also provided with EVA layer between cell piece and glass, backboard.
Solar photovoltaic assembly is the core in solar power system, is also most important part in solar power system.Its effect is to convert solar energy into electrical energy, or is sent in accumulator and stores, or promotes loaded work piece.Along with the development of new energy technology, photovoltaic module is applied in various products more and more, also with regard to making, the test of photovoltaic module performance is become to particularly important.Stability and the quality of peeling force in solar photovoltaic assembly between laminate to product has very important effect, in prior art, lacks the device of test light photovoltaic assembly peeling force.
Utility model content
The purpose of this utility model is to overcome the defect that prior art exists, and a kind of photovoltaic module peel test force device is provided.
The technical scheme that realizes the utility model object is: photovoltaic module peel test force device, comprise test table, connecting gear, support, photovoltaic module fixture, test tensioning member and LOAD CELLS, described connecting gear is arranged on described test table table top along feedstock direction, described support is arranged on described test table and is positioned at described table surface top, described photovoltaic module fixture, described test tensioning member are arranged at respectively on described support, and described test tensioning member top is connected with described LOAD CELLS.
Further, the vertical rack that is provided with the longitudinal support consistent with feedstock direction on described support and is connected with described longitudinal support, described longitudinal support horizontally slips in feedstock direction along horizontal vertical, described vertical rack slidably reciprocates and along vertically sliding up and down perpendicular to feedstock direction along feedstock direction, described photovoltaic module fixture is fixedly installed on described vertical rack, and described test tensioning member is movably set on described vertical rack and on described vertical rack along vertically sliding up and down perpendicular to feedstock direction.
Further, described photovoltaic module fixture comprises fixed mount and the fixed idler whell that is arranged at described fixed mount below.
Further, also comprise the first cylinder for driving described longitudinal support to horizontally slip in feedstock direction along horizontal vertical, for the second cylinder of driving described vertical rack to slidably reciprocate along feedstock direction, for driving described vertical rack along the 3rd cylinder vertically sliding up and down perpendicular to feedstock direction and for driving described test tensioning member along the four-cylinder vertically sliding up and down perpendicular to feedstock direction.
Further, described test tensioning member comprises stretching bar, be arranged at the material chuck and the material hook being connected with described stretching bar of described stretching bar below, and described stretching masthead portion is connected with described LOAD CELLS, and described stretching bar is also connected with described four-cylinder.
Further, described connecting gear comprises at least two delivery units that are arranged in parallel, and described delivery unit comprises transmission support and is arranged at the some delivery rollers on described transmission support, described delivery roller axle center and feedstock direction horizontal vertical.
Further, also comprise sampling worktable, on described sampling worktable, be provided with light source.
The utlity model has positive effect: in the utility model, photovoltaic module is positioned on connecting gear, test tensioning member and photovoltaic module fixture are moved to photovoltaic module top, then drive photovoltaic module fixture to push down photovoltaic module and use test tensioning member gripping photovoltaic module material to be measured, then drive test tensioning member upwards to peel off photovoltaic module material to be measured, when peeling off, the moving photovoltaic module of material hook strip moves forward and makes tested photovoltaic module material and photovoltaic module keep vertical along feedstock direction, finally by LOAD CELLS, measured the peeling force of this photovoltaic module.
Accompanying drawing explanation
For content of the present utility model is more easily expressly understood, according to specific embodiment also by reference to the accompanying drawings, the utility model is described in further detail below, wherein:
Fig. 1 is structural representation of the present utility model.
Wherein: 1, test table, 2, support, 3, transmit support, 4, delivery roller, 5, material chuck, 6, stretching bar, 7, longitudinal support, 8, vertical rack, 9, fixed mount, 10, fixed idler whell.
Embodiment
Embodiment 1
As shown in Figure 1, the utility model the first embodiment provides a kind of photovoltaic module peel test force device, comprise test table 1, connecting gear, support 2, photovoltaic module fixture, test tensioning member and LOAD CELLS, connecting gear is arranged on test table 1 table top along feedstock direction, support 2 is arranged on test table 1 and is positioned at worktable 1 table top top, photovoltaic module fixture, test tensioning member are arranged at respectively on support 2, and test tensioning member top is connected with LOAD CELLS.
In the present embodiment, photovoltaic module fixture comprises fixed mount 9 and the fixed idler whell 10 that is arranged at fixed mount 9 belows, and fixed idler whell 10 reduces the friction force of photovoltaic module and fixed mount 10, the movement of photovoltaic module in convenient test tensioning member drawing process; Test tensioning member comprises stretching bar 6, is arranged at the material chuck 5 of stretching bar 6 belows and the material hook being connected with stretching bar 6, and stretching bar 6 tops are connected with LOAD CELLS; Connecting gear comprises two delivery units that are arranged in parallel, delivery unit comprises transmission support 3 and is arranged at the some delivery rollers 4 that transmit on support, delivery roller 4 axle center and feedstock direction horizontal vertical, delivery roller 4 reduces photovoltaic module and the friction force that transmits support 3, the movement of photovoltaic module in convenient test tensioning member drawing process.
The vertical rack 8 that is provided with the longitudinal support consistent with feedstock direction 7 on the present embodiment medium-height trestle 2 and is connected with longitudinal support 7, longitudinal support 7 horizontally slips in feedstock direction along horizontal vertical, vertical rack 8 slidably reciprocates and along vertically sliding up and down perpendicular to feedstock direction along feedstock direction, fixed mount 9 is fixedly installed on vertical rack 8, and stretching bar 6 is movably set on vertical rack 8 and on vertical rack 8 along vertically sliding up and down perpendicular to feedstock direction.
In the present embodiment, photovoltaic module is positioned on connecting gear, drive longitudinal support 7 and vertical rack 8, test tensioning member and photovoltaic module fixture are moved to photovoltaic module top, then drive vertical rack 8 to move down to make photovoltaic module fixture to push down photovoltaic module and hook photovoltaic module metal edge frame one end with material hook, use material chuck 5 gripping photovoltaic module material to be measured simultaneously, then drive stretching bar 6 upwards to peel off photovoltaic module material to be measured, when peeling off, the moving photovoltaic module of material hook strip moves forward and makes tested photovoltaic module material and photovoltaic module keep vertical along feedstock direction, finally by LOAD CELLS, measured the peeling force of this photovoltaic module.
Embodiment 2
As the second preferred embodiment, all the other are identical with embodiment 1, difference is, the present embodiment also comprises the first cylinder for driving longitudinal support 7 to horizontally slip in feedstock direction along horizontal vertical, for the second cylinder of driving vertical rack 8 to slidably reciprocate along feedstock direction, for driving vertical rack 7 along the 3rd cylinders that vertically slide up and down perpendicular to feedstock direction, for driving stretching bar 6 along the four-cylinders that vertically slide up and down perpendicular to feedstock direction and sampling worktable, on sampling worktable, be provided with light source.
In the present embodiment, utilize air cylinder driven work, compared to prior art, save manpower, improved measuring accuracy, increased sampling worktable, convenient test is used.
Above-described specific embodiment; the purpose of this utility model, technical scheme and beneficial effect are further described; institute is understood that; the foregoing is only specific embodiment of the utility model; be not limited to the utility model; all within spirit of the present utility model and principle, any modification of making, be equal to replacement, improvement etc., within all should being included in protection domain of the present utility model.

Claims (7)

1. photovoltaic module peel test force device, it is characterized in that, comprise test table, connecting gear, support, photovoltaic module fixture, test tensioning member and LOAD CELLS, described connecting gear is arranged on described test table table top along feedstock direction, described support is arranged on described test table and is positioned at described table surface top, described photovoltaic module fixture, described test tensioning member are arranged at respectively on described support, and described test tensioning member top is connected with described LOAD CELLS.
2. photovoltaic module peel test force device according to claim 1, it is characterized in that, the vertical rack that is provided with the longitudinal support consistent with feedstock direction on described support and is connected with described longitudinal support, described longitudinal support horizontally slips in feedstock direction along horizontal vertical, described vertical rack slidably reciprocates and along vertically sliding up and down perpendicular to feedstock direction along feedstock direction, described photovoltaic module fixture is fixedly installed on described vertical rack, described test tensioning member is movably set on described vertical rack and on described vertical rack along vertically sliding up and down perpendicular to feedstock direction.
3. photovoltaic module peel test force device according to claim 1 and 2, is characterized in that, described photovoltaic module fixture comprises fixed mount and is arranged at the fixed idler whell of described fixed mount below.
4. photovoltaic module peel test force device according to claim 3, it is characterized in that, also comprise the first cylinder for driving described longitudinal support to horizontally slip in feedstock direction along horizontal vertical, for the second cylinder of driving described vertical rack to slidably reciprocate along feedstock direction, for driving described vertical rack along the 3rd cylinder vertically sliding up and down perpendicular to feedstock direction and for driving described test tensioning member along the four-cylinder vertically sliding up and down perpendicular to feedstock direction.
5. photovoltaic module peel test force device according to claim 4, it is characterized in that, described test tensioning member comprises stretching bar, is arranged at the material chuck and the material hook being connected with described stretching bar of described stretching bar below, described stretching masthead portion is connected with described LOAD CELLS, and described stretching bar is also connected with described four-cylinder.
6. photovoltaic module peel test force device according to claim 5, it is characterized in that, described connecting gear comprises at least two delivery units that are arranged in parallel, described delivery unit comprises transmission support and is arranged at the some delivery rollers on described transmission support, described delivery roller axle center and feedstock direction horizontal vertical.
7. photovoltaic module peel test force device according to claim 6, is characterized in that, also comprises sampling worktable, on described sampling worktable, is provided with light source.
CN201320739307.4U 2013-11-21 2013-11-21 Stripping force testing device for photovoltaic module Withdrawn - After Issue CN203561577U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201320739307.4U CN203561577U (en) 2013-11-21 2013-11-21 Stripping force testing device for photovoltaic module

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201320739307.4U CN203561577U (en) 2013-11-21 2013-11-21 Stripping force testing device for photovoltaic module

Publications (1)

Publication Number Publication Date
CN203561577U true CN203561577U (en) 2014-04-23

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN201320739307.4U Withdrawn - After Issue CN203561577U (en) 2013-11-21 2013-11-21 Stripping force testing device for photovoltaic module

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103575649A (en) * 2013-11-21 2014-02-12 普德光伏技术(苏州)有限公司 Device for testing release force of photovoltaic module
CN107870099A (en) * 2017-11-07 2018-04-03 普德光伏技术(苏州)有限公司 A kind of photovoltaic module EVA degree of cross linking sampling methods

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103575649A (en) * 2013-11-21 2014-02-12 普德光伏技术(苏州)有限公司 Device for testing release force of photovoltaic module
CN103575649B (en) * 2013-11-21 2015-12-16 普德光伏技术(苏州)有限公司 Release force of photovoltaic module proving installation
CN107870099A (en) * 2017-11-07 2018-04-03 普德光伏技术(苏州)有限公司 A kind of photovoltaic module EVA degree of cross linking sampling methods

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Date Code Title Description
GR01 Patent grant
C14 Grant of patent or utility model
AV01 Patent right actively abandoned

Granted publication date: 20140423

Effective date of abandoning: 20151216

C25 Abandonment of patent right or utility model to avoid double patenting