CN214518791U - Full-automatic production line of photovoltaic frame - Google Patents

Abstract

The utility model relates to a technical field of photovoltaic module production discloses a full-automatic production line of photovoltaic frame, be automatic saw cutting section including automatic feeding section right side, automatic saw cutting section one side is connected with wearing angle sign indicating number towards riveting section one side, it is connected with the section of punching a hole to wear the opposite side that the angle sign indicating number dashed riveting section, the section right side of punching a hole is the finished product section, can realize the automatic feeding of six a set of work materials, saw cut, detect work material length, wear the angle sign indicating number and dash after the riveting, automatic once with the work material upset, send punching device again and punch a hole, then length location detection device gained data when finishing according to saw cutting section, obtain the finished product after the qualified products are sorted out to the finished product section. The beneficial effects of the utility model are that, the qualified product of being convenient for relay of automated inspection work piece length, the worker material number of times of overturning has also reduced worker material location number of times less in the course of working, has improved production efficiency and machining precision, has realized full automated processing, has reduced manufacturing cost.

Description

Full-automatic production line of photovoltaic frame

Technical Field

The utility model relates to a technical field of photovoltaic module production especially relates to a full-automatic production line of photovoltaic frame.

Background

Photovoltaic power generation is one of clean energy, has the advantages of no pollution, long service life, low maintenance cost and the like, and is paid attention and developed in recent years. The photovoltaic frame is photovoltaic power generation's supporting component, and the quantity is bigger and bigger, and current production photovoltaic frame's technique, partial technological degree of automation is low, and some production lines can not carry out product length automated inspection and non-qualification separation automatically, and some production lines need overturn the product twice just can accomplish the two-sided processing of photovoltaic frame in the course of working, and the upset number of times has increased many times and has fixed a position also influenced the machining precision, consequently need improve production technology and improvement degree of automation.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a full automatic production line of photovoltaic frame for overcoming above-mentioned prior art not enough.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a full-automatic production line of photovoltaic frame, includes automatic feeding section, automatic saw dissection, wears angle sign indicating number towards riveting section, the section of punching a hole and finished product section, and automatic feeding section right side is automatic saw dissection, and automatic saw dissection one side is connected with wearing angle sign indicating number towards riveting section one side, and the opposite side of wearing angle sign indicating number towards riveting section is connected with the section of punching a hole, and the section right side of punching a hole is the finished product section.

Preferably, the automatic feeding section is equipped with coil stock synchronizer and six a set of worker material levels on including the pay-off support body, the top of pay-off support body is fixed with material feeding unit, the last pay-off servo motor that is equipped with of material feeding unit, the right-hand pay-off clamping device that is of material feeding unit, pay-off clamping device's right side is location detection switch, the right side of location detection switch holds up the device for the pay-off.

Preferably, the automatic saw cut section saw cuts the device including fixing saw cutting the left side on the support body and saw cutting the device with the right side, the right side of saw cutting the device on the right side is equipped with the aircraft nose and removes locking device and tails conveyer, is located that the left side saw cuts the device and the right side saw cuts the device in the middle of be equipped with saw cut discharging device and saw cut discharging device on the right side, saw cut the device on the left side and saw cut the device on the right side and be equipped with left closing device and right closing device, saw cut discharging device and saw cut discharging device below on the right side and be equipped with conveyer, saw cut the device on the left side and be connected with left worker's feed arrangement, saw cut the device on the right side inside and be connected with right worker's feed arrangement.

Preferably, it rivets a section to wear angle sign indicating number towards include and rivet a truss on dashing and be equipped with left length location detection device and right length location detection device, it is equipped with length location device to dash to rivet a truss right side, one side of left side length location detection device and right length location detection device is equipped with moves the material device, it is equipped with left angle sign indicating number device and right angle sign indicating number device to move the material device both sides, it gets the device to be equipped with left angle sign indicating number to wear angle sign indicating number device left side, it gets the device to be equipped with right angle sign indicating number to wear angle sign indicating number device right side, it rivets a device to wear angle sign indicating number device one side to be equipped with a left side towards, it rivets a device to wear angle sign indicating number device one side to be equipped with the right side towards.

Preferably, the section of punching a hole includes left punch press loading attachment and right punch press loading attachment, left side punch press loading attachment and right punch press loading attachment overturn the work material once when being used for the pay-off, left side punch press loading attachment and right punch press loading attachment's top is equipped with punching device, punching device one side is equipped with punch press discharging device, punching device opposite side is equipped with finished product material output device.

Preferably, a qualified product pushing device is arranged in the finished product section, an unqualified product pushing device is arranged opposite to the qualified product pushing device, a position detection switch is arranged on the right side of the qualified product pushing device, a qualified product turnover device is arranged on one side of the position detection switch, and an unqualified product turnover device is arranged opposite to the qualified product turnover device.

The utility model has the advantages that:

compared with the prior art, the utility model discloses can realize automatic feeding, automated inspection work material length, saw cut, wear the angle sign indicating number and dash after the riveting point, once the work material upset is automatic, send the punch press again and punch a hole, obtain the finished product after separating the certified products. The automatic detection of the length of the work material is convenient for sorting out qualified products, the turnover frequency of the work material is less, the production efficiency and the processing precision are improved, the full-automatic processing is realized, and the production cost is reduced.

Drawings

Fig. 1 is a top view of a schematic structural diagram of the present invention;

fig. 2 is a top view of the automatic feeding section of the present invention;

FIG. 3 is a top view of the automatic sawing section of the present invention;

FIG. 4 is a top view of the through-corner code punching-riveting point section of the present invention;

fig. 5 is a top view of the punching section of the present invention;

fig. 6 is a top view of the finished product section of the present invention.

In the figure: a-automatic feeding section, B-automatic sawing section, C-punching riveting point section through corner code, D-punching section, E-finished product section, 1-feeding frame body, 2-coiling material synchronizing device, 3-feeding device, 4-feeding servo motor, 5-feeding clamping device, 6-positioning detection switch, 7-feeding supporting device, 8-six groups of material processing positions, 9-left sawing device, 10-left feeding device, 11-left sawing discharging device, 12-right sawing discharging device, 13-right feeding device, 14-right sawing device, 15-machine head moving locking device, 16-sawing frame body, 17-tailing conveying device, 18-right pressing device, 19-left pressing device and 20-right length positioning detection device, 21-punching riveting point truss, 22-material moving device, 23-right corner brace picking and placing device, 24-right corner brace penetrating device, 25-length positioning device, 26-right punching riveting point device, 27-finished product output device, 28-qualified product pushing device, 29-position detection switch, 30-qualified product transferring device, 31-punching device, 32-right punch feeding device, 33-punch discharging device, 34-left punch feeding device, 35-left punching riveting point device, 36-left corner brace penetrating device, 37-left length positioning detection device, 38-left corner brace picking and placing device, 39-conveying device, 40-unqualified product pushing device and 41-unqualified product transferring device.

Detailed Description

The present invention will be further described with reference to fig. 1, wherein the following description is provided for the purpose of illustration only and is not intended to limit the scope of the present invention.

Referring to fig. 1-6, the utility model provides a technical scheme: the utility model provides a full-automatic production line of photovoltaic frame, includes automatic feeding section A, automatic saw dissection B, wears angle sign indicating number towards riveting point section, section D and finished product section E punch a hole, and automatic feeding section A right side is automatic saw dissection B, and automatic saw dissection B one side is connected with wearing angle sign indicating number towards riveting point section C one side, and the opposite side of wearing angle sign indicating number towards riveting point section C is connected with the section D that punches a hole, and the section D right side that punches a hole is finished product section E.

Automatic feeding section A includes that it is equipped with coil stock synchronizer 2 and six a set of worker material levels 8 on the pay-off support body 1, the top of pay-off support body 1 is fixed with material feeding unit 3, be equipped with pay-off servo motor 4 on the material feeding unit 3, the right-hand pay-off clamping device 5 that is of material feeding unit 3, the right side of pay-off clamping device 5 is location detection switch 6, location detection switch 6's right side holds up device 7 for the pay-off.

Automatic saw dissection B saw cut device 9 and right side saw cut device 14 including fixing on saw cutting the support body 16, the right side of saw cutting device 14 on the right side is equipped with the aircraft nose and removes locking device 15 and tails conveyer 17, is located that saw cutting device 9 and right side saw cutting device 14 middle be equipped with saw cut discharging device 11 on the left side and saw cut discharging device 12 on the right side, saw cutting device 9 on the left side and saw cutting device 14 on the right side and be equipped with left closing device 19 and right closing device 18, saw cut discharging device 11 on the left side and saw cut discharging device 12 below on the right side and be equipped with conveyer 39, saw cut the inside and the worker of left side of device 9 and be connected with worker's feed arrangement 10 on the left side, saw cut 14 inside and right worker's feed arrangement 13 on the right side and be connected.

Wear angle sign indicating number towards rivet some section C includes and is being equipped with left length location detection device 37 and right length location detection device 20 on punching rivet some truss 21, it is equipped with length location device 25 to punch rivet some truss 21 right side, one side of left side length location detection device 37 and right length location detection device 20 is equipped with moves material device 22, it is equipped with left angle sign indicating number device 36 and right angle sign indicating number device 24 to move material device 22 both sides, it is equipped with left angle sign indicating number and puts device 38 to wear the angle sign indicating number device 36 left side, it is equipped with right angle sign indicating number and puts device 23 to wear the angle sign indicating number device 24 right side on the right side, it is equipped with left side and punches rivet some device 35 to wear angle sign indicating number device 38 one side on a left side, it is equipped with right side and punches rivet some device 26 to wear angle sign indicating number device 24 one side on the right side.

Punching hole section D includes left punch press loading attachment 34 and right punch press loading attachment 32, work material upset once when left punch press loading attachment 34 and right punch press loading attachment 32 are used for the pay-off, left punch press loading attachment 34 and right punch press loading attachment 32's top is equipped with punching device 31, punching device 31 one side is equipped with punch press discharging device 33, punching device 31 opposite side is equipped with finished product material output device 27.

The finished product section E is internally provided with a qualified product pushing device 28, the qualified product pushing device 28 is oppositely provided with an unqualified product pushing device 40, the right side of the qualified product pushing device 28 is provided with a position detection switch 29, one side of the position detection switch 29 is provided with a qualified product turnover device 30, and the qualified product turnover device 30 is oppositely provided with an unqualified product turnover device 41.

The utility model discloses a theory of operation: putting a group of six work materials on a coil material synchronizer 2, the coil material synchronizer 2 sends the work materials to a positioning detection switch 6, further, a feeding clamping device 5 on a feeding device 3 clamps the work materials, then, an automatic servo motor 4 is started, the feeding device 3 automatically sends the work materials to a specified position on the right side of an automatic feeding section, a left pressing device 19 and a right pressing device 18 of a sawing section start to act, a left saw cutting device 9 and a right saw cutting device 14 on a saw cutting frame body 16 automatically and simultaneously complete saw cutting action, the cut tail materials are sent to the specified position through a tail material conveyer 17, the left saw cutting discharging device 11 and the right saw cutting discharging device 12 support the work materials, then send the work materials to a conveyer 39 arranged below, the conveyer 39 conveys the work materials to a corner code punching riveting point section, and a left length positioning detector 37 and a right length positioning detector 20 detect the lengths, the material moving device 22 conveys the work materials to the left corner brace penetrating device 36 and the right corner brace penetrating device 24 for corner brace penetrating processing, and then conveys the work materials to the left riveting point punching device 35 and the right riveting point punching device 26 for riveting point punching processing, the material moving device 22 conveys the work materials to the left punch feeding device 34 and the right punch feeding device 32, the punch feeding devices turn over the work materials once and convey the work materials to the punching device 31 for punching, the punch discharging device 33 conveys the products to the finished product material output device 27, the finished product material output device 27 conveys the qualified products to the qualified product pushing device 28 in the finished product section, the qualified product pushing device 28 conveys the products to the qualified product turnover device 30, the unqualified product pushing device 40 conveys the products to the unqualified product turnover device 41, and therefore the production process of the photovoltaic frame is achieved in a full-automatic mode.

The above, only do the utility model discloses the better embodiment, nevertheless the utility model discloses a protection scope is not limited to this, and any technical personnel who is familiar with this technical field are in the utility model discloses an in the technical scope, according to the utility model discloses a technical scheme and utility model design equivalence replacement or change all should be covered within the protection scope of the utility model.

Claims (6)

1. The utility model provides a full-automatic production line of photovoltaic frame, includes automatic feeding section (A), automatic saw dissection (B), wears angle sign indicating number towards riveting point section (C), section (D) and finished product section (E) punch a hole, its characterized in that: the right side of the automatic feeding section (A) is an automatic sawing section (B), one side of the automatic sawing section (B) is connected with one side of the corner code punching and riveting point section (C), the other side of the corner code punching and riveting point section (C) is connected with the punching section (D), and the right side of the punching section (D) is a finished product section (E).

2. The full-automatic production line of photovoltaic frame of claim 1, characterized in that, automatic feeding section (A) is equipped with coil stock synchronizer (2) and six a set of worker material levels (8) on including pay-off support body (1), the top of pay-off support body (1) is fixed with material feeding unit (3), be equipped with pay-off servo motor (4) on material feeding unit (3), the right-hand pay-off clamping device (5) that is of material feeding unit (3), the right side of pay-off clamping device (5) is location detection switch (6), the right side of location detection switch (6) holds up device (7) for the pay-off.

3. The full-automatic production line of photovoltaic rims of claim 1, the automatic sawing section (B) comprises a left sawing device (9) and a right sawing device (14) which are fixed on a sawing frame body (16), a machine head moving locking device (15) and a tailing conveying device (17) are arranged on the right side of the right sawing device (14), a left sawing discharging device (11) and a right sawing discharging device (12) are arranged between the left sawing device (9) and the right sawing device (14), a left pressing device (19) and a right pressing device (18) are arranged above the left sawing device (9) and the right sawing device (14), a conveying device (39) is arranged below the left saw cutting and discharging device (11) and the right saw cutting and discharging device (12), the left sawing device (9) is connected with the left feeding device (10) inside, and the right sawing device (14) is connected with the right feeding device (13) inside.

4. The full-automatic production line of photovoltaic frames as claimed in claim 1, wherein the corner-crossing code punching and riveting point section (C) comprises a left length positioning detection device (37) and a right length positioning detection device (20) arranged on a punching and riveting point truss (21), the length positioning device (25) arranged on the right side of the punching and riveting point truss (21), a material moving device (22) arranged on one side of the left length positioning detection device (37) and the right length positioning detection device (20), a left corner-crossing code device (36) and a right corner-crossing code device (24) arranged on two sides of the material moving device (22), a left corner-crossing code taking and placing device (38) arranged on the left side of the left corner-crossing code device (36), a right corner-crossing code taking and placing device (23) arranged on the right side of the right corner-crossing code device (24), and a left punching and riveting point device (35) arranged on one side of the left corner-crossing code device (36), and a right punching riveting point device (26) is arranged on one side of the right corner penetrating device (24).

5. The full-automatic production line of photovoltaic frame according to claim 1, characterized in that, the punching section (D) comprises a left punching machine feeding device (34) and a right punching machine feeding device (32), the left punching machine feeding device (34) and the right punching machine feeding device (32) are used for turning the work material once when feeding, a punching device (31) is arranged above the left punching machine feeding device (34) and the right punching machine feeding device (32), a punching machine discharging device (33) is arranged on one side of the punching device (31), and a finished product material output device (27) is arranged on the other side of the punching device (31).

6. The full-automatic production line of photovoltaic frames as claimed in claim 1, wherein a qualified product pushing device (28) is arranged in the finished product section (E), a defective product pushing device (40) is arranged opposite to the qualified product pushing device (28), a position detection switch (29) is arranged on the right side of the qualified product pushing device (28), a qualified product turnover device (30) is arranged on one side of the position detection switch (29), and a defective product turnover device (41) is arranged opposite to the qualified product turnover device (30).

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