CN-224233648-U - High-efficient upset check out test set of photovoltaic module

Abstract

The utility model relates to the technical field of photovoltaic module inspection, and provides a photovoltaic module high-efficiency overturning inspection device which comprises a base, wherein vertical brackets are arranged on the left side and the right side of the top of the base, a transverse installation groove is arranged in the base, a distance adjusting mechanism which synchronously drives the vertical brackets on two sides to move relatively and reversely is arranged in the transverse installation groove, the installation frame is installed on the top of the vertical support on both sides, a photovoltaic panel side locating piece is installed on the inner side of the installation frame on both sides in a rotating mode, and a turnover driving motor for driving the photovoltaic panel side locating piece to turn over is installed in the center of the outer side face of the installation frame on the left side. The equipment realizes efficient, stable and accurate overturning inspection operation of the photovoltaic module. The photovoltaic panel detection device not only improves the working efficiency and reduces the labor cost, but also can ensure that the quality and the performance of the photovoltaic panel are comprehensively detected, and has important significance for improving the production quality and the benefit of the photovoltaic industry.

Inventors

• ZHANG JIANMING

Assignees

• 无锡宏昌晟新能源科技有限公司

Dates

Publication Date

20260512

Application Date

20250428

Claims (7)

1. 1. The utility model provides a high-efficient upset check out test set of photovoltaic module, includes base (1), its characterized in that, the left and right sides at base (1) top all is provided with vertical support (2), the inside transverse installation groove (11) that is provided with of base (1), the internally mounted of transverse installation groove (11) has synchronous drive both sides vertical support (2) are relative and opposite movement's roll-over mechanism (3), both sides mounting bracket (4) are all installed on vertical support (2) top, both sides a photovoltaic board side setting element (5) are all installed in the inboard rotation of mounting bracket (4), the left side mounting bracket (4) lateral surface center installs and drives this side upset driving motor (6) of photovoltaic board side setting element (5) upset.
2. 2. The efficient turnover inspection equipment for photovoltaic modules according to claim 1, characterized in that, The photovoltaic panel side positioning piece (5) specifically comprises the following structure: a c-shaped steel frame (51) rotatably arranged on the inner side surface of the mounting frame (4); A plurality of guide rollers (52) which are distributed along the inner length direction of the c-shaped steel frame (51) and used for propping up the edge of the photovoltaic panel to be inspected; Edge clamping plates (53) which are distributed in the c-shaped steel frame (51) and are used for clamping the upper end and the lower end of the edge of the photovoltaic panel to be inspected are distributed in parallel up and down; The vertical mounting groove (511) is arranged in the center of the inner side end surface of the inner side of the c-shaped steel frame (51); And the clamping driving pieces (54) are distributed in the vertical mounting grooves (511) and used for synchronously driving the upper edge clamping plate (53) and the lower edge clamping plate to move oppositely.
3. 3. The photovoltaic module high-efficiency turnover inspection equipment according to claim 1, characterized in that the distance-adjusting mechanism (3) specifically comprises the following structure: A first double-shaft speed reducing motor (31) arranged at the inner center position of the transverse installation groove (11); the first driving screw rods (32) are respectively butted with the output ends at the two sides of the first double-shaft speed reducing motor (31); the two sides of the first screw rod sleeve (33) are respectively sleeved on the two sides of the first driving screw rod (32) and are respectively and slidably clamped in the first screw rod sleeve (33) in the transverse installation groove (11), and the top pipe walls of the first screw rod sleeve (33) are respectively butted with the bottom ends of the two sides of the vertical support (2).
4. 4. The photovoltaic module high-efficiency turnover inspection apparatus of claim 2, characterized in that said clamping drive (54) comprises in particular the following structure: A second double-shaft speed reduction motor (541) installed at an inner central position of the vertical installation groove (511); A second driving screw rod (542) respectively connected to the upper and lower output ends of the second double-shaft speed reducing motor (541); The upper and lower parts of the second screw rod sleeve (543) are respectively sleeved on the upper and lower parts of the second driving screw rod (542) and are both in sliding clamping connection with the second screw rod sleeve (543) in the vertical installation groove (511), and the outer side pipe walls of the second screw rod sleeve (543) are respectively in butt joint with the centers of the inner side edges of the upper and lower parts of the edge clamping plates (53).
5. 5. The efficient overturning inspection device for the photovoltaic module according to claim 2, wherein the vertical mounting grooves (511) are formed in the left end and the right end of the inside of the c-shaped steel frame (51), and guide assemblies (55) which are matched with the edge clamping plates (53) at the upper side and the lower side and move oppositely are arranged in the vertical mounting grooves (511) at the two sides.
6. 6. The photovoltaic module high-efficiency turnover inspection apparatus of claim 5, characterized in that said guiding module (55) comprises in particular the following structure: a guide bar 551 installed inside the vertical installation groove 511 at the side; And the guide sleeves (552) are respectively sleeved at the upper end and the lower end of the guide rod (551) in a sliding manner, and the outer side tube walls of the guide sleeves (552) at the upper end and the lower end are respectively butted with the end parts of the edge clamping plates (53) at the upper side and the lower side.
7. 7. The efficient overturning inspection device for the photovoltaic module according to claim 2, wherein a plurality of through holes for the guide roller (52) to pass through are uniformly formed in the edge clamping plate (53).

Description

High-efficient upset check out test set of photovoltaic module Technical Field The utility model relates to the technical field of photovoltaic module inspection, in particular to efficient overturning inspection equipment for a photovoltaic module. Background With the increasing global demand for clean energy, the photovoltaic industry has evolved dramatically. As a key component for converting solar energy into electrical energy, the quality and performance of the photovoltaic module are critical. However, existing photovoltaic module inspection equipment has some disadvantages. On the one hand, many inspection devices have poor adaptability to different sizes of photovoltaic panels, and often can only operate on photovoltaic panels of specific specifications, thus limiting the application range. On the other hand, when inspecting the photovoltaic panel, the conveying and positioning operations are not convenient and smooth enough, which may result in low working efficiency. Some equipment is poor in stability when clamping the photovoltaic board, and the problem such as rocking appears in inspection or upset in-process easily, influences the accuracy of inspection result. In addition, the turnover function of part of the equipment is not perfect enough, the operation is not flexible enough, and the quick and comprehensive inspection is difficult to realize. These deficiencies limit the efficiency and quality improvement of the production and maintenance of the photovoltaic module to a certain extent. Therefore, the technical proposal specially provides a high-efficiency overturning inspection device for the photovoltaic module so as to solve the problems. Disclosure of utility model In order to overcome the defects of the prior art, the utility model aims to provide efficient overturning inspection equipment for a photovoltaic module. The technical scheme of the utility model is that the efficient overturning inspection device for the photovoltaic module comprises a base, wherein vertical supports are arranged on the left side and the right side of the top of the base, a transverse installation groove is formed in the base, distance adjusting mechanisms for synchronously driving the vertical supports on two sides to move relatively and reversely are arranged in the transverse installation groove, mounting frames are arranged at the top ends of the vertical supports on two sides, a photovoltaic panel side locating piece is rotatably arranged on the inner sides of the mounting frames on two sides, and an overturning driving motor for driving the photovoltaic panel side locating piece to overturn is arranged in the center of the outer side surface of the mounting frame on the left side; the photovoltaic panel side positioning piece specifically comprises the following structures: a c-shaped steel frame rotatably arranged on the inner side surface of the mounting frame; A plurality of guide rollers distributed along the length direction of the inside of the c-shaped steel frame and used for propping up the edge of the photovoltaic panel to be inspected; edge clamping plates which are distributed in the c-shaped steel frame and are vertically and parallelly distributed for clamping the upper end and the lower end of the edge of the photovoltaic panel to be inspected; the vertical mounting groove is arranged in the center of the inner side end surface of the c-shaped steel frame; And the clamping driving parts are distributed in the vertical mounting groove and used for synchronously driving the upper edge clamping plate and the lower edge clamping plate to move oppositely. Preferably, the distance adjusting mechanism specifically comprises the following structure: the first double-shaft speed reducing motor is arranged at the inner center position of the transverse installation groove; the first driving screw rods are respectively butted with the output ends at the two sides of the first double-shaft speed reducing motor; The first screw rod sleeves are respectively sleeved on the first driving screw rods at the two sides and are respectively and slidably clamped in the transverse installation grooves, and the top pipe walls of the first screw rod sleeves at the two sides are respectively butted with the bottom ends of the vertical supports at the two sides. Preferably, the clamping drive comprises in particular the following structure: the second double-shaft speed reducing motor is arranged at the center position inside the vertical mounting groove; A second driving screw rod respectively butted with the upper and lower output ends of the second double-shaft speed reducing motor; The upper and lower second driving screw rods are respectively in threaded sleeve joint with the second screw rod sleeve pipes in the vertical installation grooves in a sliding clamping manner, and the outer side pipe walls of the upper and lower second screw rod sleeve pipes are respectively in butt joint with the centers of the i