CN218289347U - Novel aluminium alloy automatic sequencing and material loading device - Google Patents

Abstract

The utility model relates to a solar energy aluminium alloy frame production technical field especially relates to a novel aluminium alloy automatic sequencing and material loading device, including aluminium alloy material loading support, long stroke conveyer belt, the aluminium alloy is rotatory to be snatched the mechanism, aluminium alloy translation transfer mechanism and aluminium alloy lateral shifting transfer mechanism, long stroke conveyer belt sets up on aluminium alloy material loading support, the aluminium alloy is rotatory to be snatched the mechanism and includes the mounting bracket, rotation axis mechanism and snatch the air clamp, aluminium alloy translation transfer mechanism includes the support body, translation mechanism, a plurality of jacking cylinders and polylith prop up the piece, be provided with the material draw-in groove on the piece, aluminium alloy lateral shifting transfer mechanism includes support frame and follow-up roller, the support frame sets up on aluminium alloy material loading support, a plurality of follow-up rollers are all installed on the support frame, be fit for multiple aluminium alloy specification with this mode, the quantity that can store the aluminium alloy is many, it is few to need manual operation time, stable in structure and fault rate are lower.

Description

Novel aluminium alloy automatic sequencing and material loading device

Technical Field

The utility model relates to a solar energy aluminium alloy frame production technical field especially relates to a novel aluminium alloy automatic sequencing and material loading device.

Background

Solar energy is renewable green energy and is a new energy field which is highly valued by the nation. In recent years, the solar power generation industry is rapidly developed, a large number of photovoltaic power generation stations are built in various places, and the demand of solar panels is rapidly increased. The aluminum profile frame is used as a component of the solar cell panel, and generally extruded aluminum profiles are adopted and then are subjected to processing such as cutting and punching.

In the prior art, the solar module frame is mainly manufactured by manually feeding, cutting off an aluminum profile at a required angle through a sawing machine, punching holes on two sides through a punch press, inserting angle codes at two ends, riveting and the like, so that the defects of low production efficiency, high cost and the like exist, some automatic or semi-automatic production lines are introduced into some factories at present, but the problems of low production efficiency, high equipment failure rate, poor universality and the like exist.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a novel aluminium alloy automatic sequencing and material loading device, it adopts the angle that artifical material loading back rethread sawing machine required with the aluminium alloy to cut off to aim at solving among the prior art most of solar energy component frame, punch a hole in both sides through the punch press, insert process flows such as angle sign indicating number riveting again at both ends, there are production efficiency low, shortcomings such as high cost, also there are some automatic or semi-automatization's production lines that partial mill begins to have introduced successively at present, but there is production efficiency low mostly, equipment fault rate is high, the poor technical problem of commonality.

In order to realize the above-mentioned purpose, the utility model discloses a novel aluminium alloy is automatic to be arranged in an order and material loading device, including aluminium alloy material loading support, long stroke conveyer belt, aluminium alloy rotation snatch mechanism, aluminium alloy translation transfer mechanism and aluminium alloy lateral shifting transfer mechanism, long stroke conveyer belt sets up on the aluminium alloy material loading support, the aluminium alloy rotation snatchs the mechanism and includes mounting bracket, rotation axis mechanism and snatch the air clamp, the mounting bracket sets up on the aluminium alloy material loading support, rotation axis mechanism sets up on the mounting bracket, it is a plurality of it all sets up to snatch the air clamp rotation axis mechanism is last, aluminium alloy translation transfer mechanism includes support body, translation mechanism, a plurality of jacking cylinder and polylith piece, the support body sets up on the aluminium alloy material loading support, translation mechanism and a plurality of jacking cylinder all installs on the support body, jacking cylinder's output with correspond prop up piece fixed connection, be provided with the material draw-in groove on the piece, aluminium alloy lateral shifting transfer mechanism includes support frame and follow-up roller, the support frame sets up on the aluminium alloy material loading support, a plurality of follow-up roller all install on the support frame.

The mounting frame comprises two supporting columns and a first cross beam, the two supporting columns are arranged between the aluminum profile feeding support and the first cross beam, and the rotating shaft mechanism is arranged on the first cross beam.

The support frame comprises a second cross beam and a plurality of supporting pieces, the second cross beam is arranged between the aluminum profile feeding support and the plurality of supporting pieces, and the follow-up rollers are arranged on the corresponding supporting pieces.

The support piece comprises a vertical plate and two supporting plates, the vertical plate is arranged on the second cross beam, the two supporting plates are arranged on the vertical plate, and two ends of the follow-up roller are arranged on the two supporting plates.

The jacking cylinder comprises a mounting plate and a cylinder body, the mounting plate is arranged on the frame body, and the cylinder body is mounted on the mounting plate.

The utility model discloses a novel aluminium alloy automatic sequencing and loading device, the long stroke conveyer belt is provided with a relevant matched induction mechanism, firstly, the flat surface of the aluminium alloy raw material is manually placed on the long stroke conveyer belt, the long stroke conveyer belt is started according to the set working mode, the aluminium alloy is driven by the long stroke conveyer belt to move forwards until the sensor at the end of the long stroke conveyer belt is triggered, the long stroke conveyer belt stops running, then the rotating shaft device rotates to the material taking position, at the moment, the grabbing air clamp is in the open state, the long stroke conveyer belt continues to operate until the aluminium alloy is attached to the grabbing air clamp at one side, the long stroke conveyer belt stops running, then the grabbing air clamp is closed to clamp the aluminium alloy, the rotating shaft device rotates to the material placing position, the grabbing air clamp is opened, the aluminium alloy falls in the material clamping groove, the jacking cylinder on the aluminum profile translation transfer mechanism is positioned at the jacking position, the aluminum profile translation transfer mechanism moves forwards by a distance of a material distance, the rotary shaft device rotates to the material placing position again, and in the same way, a next aluminum profile is grabbed to the material clamping groove on the aluminum profile translation transfer mechanism, at the moment, two aluminum profiles are stored on the aluminum profile translation transfer mechanism, the aluminum profile translation transfer mechanism continues to move forwards and moves to the position right above the aluminum profile transverse movement transfer mechanism, then the jacking cylinder in the aluminum profile translation transfer mechanism descends to the bottom, in the descending process of the jacking cylinder, the two aluminum profiles just fall on the follow-up roller of the aluminum profile transverse movement transfer mechanism, and the aluminum profile translation transfer mechanism returns to the position where the first aluminum profile is placed, the jacking cylinder on the aluminum profile translation transfer mechanism ascends to the upper jacking position, at the moment, two aluminum profiles falling on the follow-up roller are dragged by other mechanisms, and the follow-up roller assists in conveying the aluminum profiles to the next procedure; the aluminum profile automatic sorting and feeding device is sequentially circulated, so that the aluminum profile automatic sorting and feeding device is suitable for various aluminum profile specifications, can store a large number of aluminum profiles, needs less manual operation time, is stable in structure and has a lower failure rate.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the description below are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is the layout schematic diagram of the novel aluminum profile automatic sequencing and feeding device of the utility model.

Fig. 2 is a top view of the novel aluminum profile automatic sequencing and feeding device of the present invention.

Fig. 3 is the structural schematic diagram of the aluminum profile rotating and grabbing mechanism of the present invention.

Fig. 4 is a schematic structural diagram of the aluminum profile translation transfer mechanism of the present invention.

Fig. 5 is a schematic structural view of the transfer mechanism for transverse movement of aluminum profiles.

1-aluminum profile feeding support, 2-long stroke conveying belt, 3-aluminum profile rotating grabbing mechanism, 4-aluminum profile translating and transferring mechanism, 5-aluminum profile transverse moving and transferring mechanism, 6-mounting frame, 7-rotating shaft mechanism, 8-grabbing air clamp, 9-frame body, 10-translating mechanism, 11-jacking air cylinder, 12-supporting block, 13-supporting frame, 14-follow-up roller, 15-supporting column, 16-first cross beam, 17-second cross beam, 18-supporting member, 19-vertical plate, 20-supporting plate, 21-mounting plate, 22-air cylinder body and 23-material clamping groove.

Detailed Description

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below by referring to the drawings are exemplary intended for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. In addition, in the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

Please refer to fig. 1 to 5, the utility model provides a novel aluminium alloy automatic sequencing and material loading device, including aluminium alloy material loading support 1, long stroke conveyer belt 2, aluminium alloy rotation snatch mechanism 3, aluminium alloy translation transfer mechanism 4 and aluminium alloy lateral shifting transfer mechanism 5, long stroke conveyer belt 2 sets up on the aluminium alloy material loading support 1, aluminium alloy rotation snatch mechanism 3 includes mounting bracket 6, rotary mechanism 7 and snatchs air clamp 8, mounting bracket 6 sets up on the aluminium alloy material loading support 1, rotary mechanism 7 sets up on mounting bracket 6, it is a plurality of snatch air clamp 8 all sets up on the rotary mechanism 7, aluminium alloy translation transfer mechanism 4 includes support body 9, translation mechanism 10, a plurality of jacking cylinder 11 and polylith brace 12, support body 9 sets up on the aluminium alloy material loading support 1, translation mechanism 10 and a plurality of jacking cylinder 11 all install on support body 9, jacking cylinder 11's output and corresponding brace 12 fixed connection, be provided with material draw-in groove 23 on brace 12, lateral shifting includes along with 5 and the support frame 13 sets up on the aluminium alloy roller support frame 13, the roll roller 14 all sets up on the support frame 14.

In this embodiment, a relevant matching induction mechanism is arranged on the long-stroke conveyer belt 2, firstly, the flat surface of an aluminum profile raw material is manually placed on the long-stroke conveyer belt 2, the long-stroke conveyer belt 2 is started according to a set working mode, the aluminum profile is driven by the long-stroke conveyer belt 2 to move forwards until a sensor at the tail end of the long-stroke conveyer belt 2 is triggered, the long-stroke conveyer belt 2 stops moving, then, the rotating shaft mechanism 7 rotates to a material taking position, at this time, the grabbing air clamp 8 is in an open state, the long-stroke conveyer belt 2 continues to move until one edge of the aluminum profile abuts against the grabbing air clamp 8, the long-stroke conveyer belt 2 stops moving, then, the grabbing air clamp 8 is closed to clamp the aluminum profile, the rotating shaft mechanism 7 rotates to a material placing position, and the grabbing air clamp 8 is opened, aluminum profiles fall on the material clamping grooves 23, then the jacking air cylinder 11 on the aluminum profile translation transfer mechanism 4 is located at an upper jacking position, the aluminum profile translation transfer mechanism 4 moves forwards by a distance of a material distance, the rotating shaft mechanism 7 rotates to a material placing position again, and in the same way, a next aluminum profile is grabbed to the material clamping grooves 23 on the aluminum profile translation transfer mechanism 4, at the moment, two aluminum profiles exist on the aluminum profile translation transfer mechanism 4, the aluminum profile translation transfer mechanism 4 continues to move forwards and moves to a position right above the aluminum profile transverse movement transfer mechanism 5, then the jacking air cylinder 11 in the aluminum profile translation transfer mechanism 4 descends to the bottom, and in the descending process of the jacking air cylinder 11, two aluminum profiles just fall on the follow-up roller 14 of the aluminum profile transverse movement transfer mechanism 5, after the aluminum profile translation transfer mechanism 4 returns to the position where the first aluminum profile is placed, the jacking cylinder 11 on the aluminum profile translation transfer mechanism 4 rises to the jacking position, at the moment, two aluminum profiles falling on the follow-up roller 14 are dragged by other mechanisms, and the follow-up roller 14 assists in conveying the aluminum profiles to the next procedure; the aluminum profile automatic sorting and feeding device is sequentially circulated, so that the aluminum profile automatic sorting and feeding device is suitable for various aluminum profile specifications, can store a large number of aluminum profiles, needs less manual operation time, is stable in structure and has a lower failure rate.

Further, the mounting frame 6 includes two pillars 15 and a first cross beam 16, the two pillars 15 are disposed between the aluminum profile feeding support 1 and the first cross beam 16, and the rotating shaft mechanism 7 is disposed on the first cross beam 16.

In this embodiment, by providing two support columns 15 and two first cross members 16, the first cross members 16 can be fixed to the aluminum profile feeding bracket 1 by the two support columns 15.

Further, the supporting frame 13 comprises a second beam 17 and a plurality of supporting pieces 18, the second beam 17 is arranged between the aluminum profile feeding support 1 and the plurality of supporting pieces 18, and the follow-up rollers 14 are arranged on the corresponding supporting pieces 18;

the supporting part 18 comprises a vertical plate 19 and two supporting plates 20, the vertical plate 19 is arranged on the second cross beam 17, the two supporting plates 20 are both arranged on the vertical plate 19, and two ends of the follow-up roller 14 are arranged on the two supporting plates 20.

In this embodiment, the vertical plates 19 can be fixed on the aluminum profile feeding bracket 1 by the second beam 17, and the two support plates 20 are used for installing the follow-up rollers 14.

Further, the mounting plate 21 is disposed on the frame body 9, and the cylinder body 22 is mounted on the mounting plate 21.

In this embodiment, the jacking cylinder 11 includes an installation plate 21 and a cylinder body 22, and by providing the installation plate 21 and the cylinder body 22, the cylinder body 22 can be fixed on the frame body 9 through the installation plate 21.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made without departing from the spirit and scope of the invention.

Claims (5)

1. A novel aluminum profile automatic sequencing and feeding device, which is characterized in that,

the aluminum profile conveying device comprises an aluminum profile feeding support, a long-stroke conveying belt, an aluminum profile rotating and grabbing mechanism, an aluminum profile translation transfer mechanism and an aluminum profile transverse movement transfer mechanism, wherein the long-stroke conveying belt is arranged on the aluminum profile feeding support;

the aluminium alloy is rotatory to be snatched the mechanism and includes mounting bracket, rotation axis mechanism and snatch the air clamp, the mounting bracket sets up on the aluminium alloy material loading support, rotation axis mechanism sets up on the mounting bracket, it is a plurality of snatch the air clamp and all set up rotation axis mechanism is last, aluminium alloy translation transfer mechanism includes support body, translation mechanism, a plurality of jacking cylinder and polylith piece, the support body sets up on the aluminium alloy material loading support, translation mechanism and a plurality of jacking cylinder is all installed on the support body, jacking cylinder's output with correspond a piece fixed connection, be provided with the material draw-in groove on the piece, aluminium alloy lateral shifting transfer mechanism includes support frame and follow-up roller, the support frame sets up on the aluminium alloy material loading support, it is a plurality of follow-up roller is all installed on the support frame.

2. A novel automatic sequencing and feeding device of aluminum profiles as claimed in claim 1,

the mounting bracket comprises two pillars and a first cross beam, the pillars are arranged between the aluminum profile feeding support and the first cross beam, and the rotating shaft mechanism is arranged on the first cross beam.

3. A novel automatic sequencing and feeding device of aluminum profiles as claimed in claim 2,

the support frame comprises a second cross beam and a plurality of supporting pieces, the second cross beam is arranged between the aluminum section bar feeding support and the plurality of supporting pieces, and the follow-up rollers are arranged on the corresponding supporting pieces.

4. A novel automatic sequencing and feeding device of aluminum profiles as claimed in claim 3,

the support piece comprises a vertical plate and two supporting plates, the vertical plate is arranged on the second cross beam, the two supporting plates are arranged on the vertical plate, and two ends of the follow-up roller are arranged on the two supporting plates.

5. A novel automatic sequencing and feeding device of aluminum profiles as claimed in claim 4,

the jacking cylinder comprises a mounting plate and a cylinder body, the mounting plate is arranged on the frame body, and the cylinder body is mounted on the mounting plate.

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