CN211444154U - High-speed transportation of photovoltaic glass turns to stereo set - Google Patents

Abstract

The utility model discloses a high-speed transport of photovoltaic glass turns to three-dimensional unit, including the former piece glass rollgang that sets gradually, pendulum rod burst glass rollgang, a double-layer glass rollgang, No. two pendulum rod burst glass rollgang, collect the glass rollgang, No. two double-layer glass rollgang's a tip and the side butt joint of a double-layer glass rollgang tip department form 90 dog-ears, the tip that a lower glass rollgang is located dog-ear department is equipped with the glass steering gear, the tip top that a last glass rollgang is located dog-ear department is equipped with the vacuum and inhales the loop wheel machine. The utility model discloses in the department that turns to at rollgang shunts and sets up glass steering gear and vacuum suction crane in dog-ear department through setting up pendulum rod burst glass rollgang and double glazing rollgang on former piece rollgang, under not occupying other spaces, solves to turn to the department and transplants the slow problem of speed that turns to.

Description

High-speed transportation of photovoltaic glass turns to stereo set

Technical Field

The utility model relates to a photovoltaic glass carries the field, especially relates to a high-speed transport of photovoltaic glass turns to stereo set.

Background

With the development of the photovoltaic glass industry in China, the yield of ultrathin glass produced by a calendering process is gradually increased, and the problem of conveying speed of plate glass is increasingly prominent. The conveying speed of the original ultrathin photovoltaic glass sheet is high, the transplanting steering is realized by a vacuum suction crane in the prior art when the conveying steering is carried out, the transplanting steering speed of the vacuum suction crane is limited, the conveying speed of the original ultrathin photovoltaic glass sheet is limited by the steering conveying, and the conveying of the glass from the original sheet to deep processing needs a set of special conveying three-dimensional unit in a short time, so that the conveying problem of the original sheet to the deep processing of the ultrathin photovoltaic flat glass in high-speed production is solved.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a high-speed three-dimensional unit that turns to of carrying of photovoltaic glass.

The utility model discloses an innovation point lies in the utility model discloses in the department that turns to at rollgang shunt and set up glass steering gear and vacuum suction crane in dog-ear department through set up pendulum rod burst glass rollgang and double glass rollgang on former piece rollgang, under not occupying other spaces, solve and turn to the department and transplant the slow problem of steering speed, can solve glass high-speed production and transport the problem down to realize that glass concentrates fast and carry the deep-processing to produce the line, reduction production energy consumption, saving cost, improvement production efficiency.

In order to realize the purpose of the utility model, the technical proposal of the utility model is that: a photovoltaic glass high-speed conveying steering stereo unit comprises an original glass conveying roller way, a swing rod fragmentation glass conveying roller way, a double-layer glass conveying roller way, a second swing rod fragmentation glass conveying roller way and a collecting glass conveying roller way which are sequentially arranged, wherein the original glass conveying roller way, the swing rod fragmentation glass conveying roller way and the first double-layer glass conveying roller way are positioned on the same straight line, the second double-layer glass conveying roller way, the second swing rod fragmentation glass conveying roller way and the collecting glass conveying roller way are positioned on the same straight line, and the first swing rod fragmentation glass conveying roller way comprises a rack, two support rods which are arranged in parallel on the rack and a plurality of rollers which are perpendicular to the two support rods and are arranged at equal intervals along the length direction of the support rods; one ends of the two support rods are hinged with the rack, the other ends of the two support rods are connected with the rack through a swing rod assembly, the swing rod assembly comprises a rotating shaft arranged in parallel with the roller, a swing rod and a motor, the swing rod is fixed on the rotating shaft and perpendicular to the rotating shaft, the motor drives the rotating shaft to rotate, one end of the swing rod is fixedly connected with the rotating shaft, and the other end of the swing rod is hinged with; the structure of the swing rod fragmentation glass conveying roller way II is the same as that of the swing rod fragmentation glass conveying roller way I; one end part of the second double-layer glass conveying roller way is butted with the side edge at the end part of the first double-layer glass conveying roller way to form a 90-degree break angle, the first double-layer glass conveying roller way is divided into a first upper glass conveying roller way and a first lower glass conveying roller way, the second double-layer glass conveying roller way is divided into a second upper glass conveying roller way and a second lower glass conveying roller way, and the height of the second lower glass conveying roller way is higher than that of the first lower glass conveying roller way; after swinging, the swinging end of the first swinging rod slicing glass conveying roller way is butted with the first upper glass conveying roller way and the first lower glass conveying roller way respectively; the swing end of the second swing rod slicing glass conveying roller way is in butt joint with the second upper glass conveying roller way and the second lower glass conveying roller way after swinging; the end part of the first lower glass conveying roller way, which is positioned at the break angle, is provided with a glass steering machine, and the upper end part of the first upper glass conveying roller way, which is positioned at the break angle, is provided with a vacuum suction crane for transferring the photovoltaic glass from the first upper glass conveying roller way to the second double-layer glass conveying roller way.

Furthermore, the glass steering gear comprises more than two rows of liftable belt conveyors, the conveying direction of the belt conveyors is perpendicular to the conveying direction of the first lower glass conveying roller way, and the belt conveyors are positioned between the rollers of the first lower glass conveying roller way.

The utility model has the advantages that: the utility model discloses in the department that turns to at rollgang shunts and sets up glass at dog-ear department and turns to machine and vacuum suction crane through setting up pendulum rod burst glass rollgang and double glass rollgang on former piece rollgang, under not occupying other spaces, solve and turn to the department and transplant the slow problem of speed of turning to, can solve the transport problem under the high-speed production of glass to realize that glass concentrates fast and carries the deep-processing to produce the line, reduction production energy consumption, saving cost, improvement production efficiency.

Drawings

Fig. 1 is a top view of the present invention.

FIG. 2 is a schematic view of the raw glass run at one side of the table.

Fig. 3 is a schematic view at one side of a converging glass run table.

FIG. 4 is a schematic cross-sectional view of a first swing rod piece glass conveying roller way.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings.

Example 1: as shown in fig. 1, 2, 3 and 4, a photovoltaic glass high-speed conveying steering stereo set comprises a raw glass conveying roller way 1, a first swing rod fragment glass conveying roller way 2, a first double-layer glass conveying roller way 3, a second double-layer glass conveying roller way 4, a second swing rod fragment glass conveying roller way 5 and a collecting glass conveying roller way 6 which are arranged in sequence, wherein the raw glass conveying roller way 1, the first swing rod fragment glass conveying roller way 2 and the first double-layer glass conveying roller way 3 are positioned on the same straight line, the second double-layer glass conveying roller way 4, the second swing rod fragment glass conveying roller way 5 and the collecting glass conveying roller way 6 are positioned on the same straight line, the first swing rod piece glass conveying roller way 2 comprises a rack 2.1, two support rods 2.2 arranged on the rack 2.1 in parallel and a plurality of rollers 2.3 which are perpendicular to the two support rods 2.2 and are arranged at equal intervals along the length direction of the support rods 2.2; one end of each of the two supporting rods 2.2 is hinged with the frame 2.1, the other end of each of the two supporting rods is connected with the frame 2.1 through a swing rod assembly, the swing rod assembly comprises a rotating shaft 2.5 arranged in parallel with the roller 2.3, a swing rod 2.6 fixed on the rotating shaft 2.5 and perpendicular to the rotating shaft 2.5, and a motor driving the rotating shaft 2.6 to rotate, one end of the swing rod 2.6 is fixedly connected with the rotating shaft 2.5, and the other end of the swing rod is hinged with the supporting rod 2.; the second swing rod piece glass conveying roller way 5 and the first swing rod piece glass conveying roller way 2 are identical in structure; one end part of a second double-layer glass conveying roller way 4 is butted with the side edge at the end part of a first double-layer glass conveying roller way 2 to form a 90-degree break angle, the first double-layer glass conveying roller way 2 is divided into a first upper glass conveying roller way 7 and a first lower glass conveying roller way 8, the second double-layer glass conveying roller way 4 is divided into a second upper glass conveying roller way 9 and a second lower glass conveying roller way 10, and the height of the second lower glass conveying roller way 10 is higher than that of the first lower glass conveying roller way 8; the swing end of the first swing rod slicing glass conveying roller way 2 swings and then is respectively butted with a first upper glass conveying roller way 7 and a first lower glass conveying roller way 8; the swinging end of the second swing rod fragment glass conveying roller way 5 swings and then is respectively butted with a second upper glass conveying roller way 9 and a second lower glass conveying roller way 10; the end part of the first lower glass conveying roller way 8, which is positioned at the break angle, is provided with a glass steering machine 11, the glass steering machine 11 comprises more than two rows of liftable belt conveyors, and the conveying direction of the belt conveyors is vertical to the conveying direction of the first lower glass conveying roller way 8 and is positioned between the rollers of the first lower glass conveying roller way 8; and a vacuum suction crane 12 for transferring the photovoltaic glass from the first upper glass conveying roller way 7 to the second double-layer glass conveying roller way 9 is arranged above the end part of the first upper glass conveying roller way 7 at the folding angle.

The working process is as follows: when a glass raw sheet is transported on a raw sheet glass conveying roller way 1 and passes through a first swing rod fragmentation glass conveying roller way 2, a photoelectric sensor arranged at the first swing rod fragmentation glass conveying roller way 2 senses glass, the first swing rod fragmentation glass conveying roller way 2 is determined to be in butt joint with a first upper glass conveying roller way 7 or a first lower glass conveying roller way 8 according to signals fed back by a vacuum suction crane 12 and a glass steering machine 11, the first swing rod fragmentation glass conveying roller way 2 completes the shunting of the glass raw sheet through the up-and-down swinging, the glass conveyed to the first upper glass conveying roller way 7 is transferred to a second upper glass conveying roller way 9 at a second double-layer glass conveying roller way 4 through the vacuum suction crane 12, the glass conveyed to the first lower glass conveying roller way 8 is lifted and transferred to a second lower glass conveying roller way 10 through the glass steering machine 11, and then the glass collection is completed through a second swing rod fragmentation glass conveying roller way 5, the collected glass is processed deeply through a collected glass conveying roller 6.

When the swing rod I divides the glass conveying roller bed 2, the motor drives the rotating shaft 2.5 to rotate, the rotating shaft 2.5 rotates to drive the swing rod 2.6 to rotate, and the swing rod 2.6 rotates to drive one end of the supporting rod 2.2 to swing up and down.

The described embodiments are only some, but not all embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Claims (2)

1. The photovoltaic glass high-speed conveying and steering three-dimensional unit is characterized by comprising an original glass conveying roller way, a first swing rod divided glass conveying roller way, a first double-layer glass conveying roller way, a second swing rod divided glass conveying roller way and a collecting glass conveying roller way which are sequentially arranged, wherein the original glass conveying roller way, the first swing rod divided glass conveying roller way and the first double-layer glass conveying roller way are positioned on the same straight line; one ends of the two support rods are hinged with the rack, the other ends of the two support rods are connected with the rack through a swing rod assembly, the swing rod assembly comprises a rotating shaft arranged in parallel with the roller, a swing rod and a motor, the swing rod is fixed on the rotating shaft and perpendicular to the rotating shaft, the motor drives the rotating shaft to rotate, one end of the swing rod is fixedly connected with the rotating shaft, and the other end of the swing rod is hinged with; the structure of the swing rod fragmentation glass conveying roller way II is the same as that of the swing rod fragmentation glass conveying roller way I; one end part of the second double-layer glass conveying roller way is butted with the side edge at the end part of the first double-layer glass conveying roller way to form a 90-degree break angle, the first double-layer glass conveying roller way is divided into a first upper glass conveying roller way and a first lower glass conveying roller way, the second double-layer glass conveying roller way is divided into a second upper glass conveying roller way and a second lower glass conveying roller way, and the height of the second lower glass conveying roller way is higher than that of the first lower glass conveying roller way; after swinging, the swinging end of the first swinging rod slicing glass conveying roller way is butted with the first upper glass conveying roller way and the first lower glass conveying roller way respectively; the swing end of the second swing rod slicing glass conveying roller way is in butt joint with the second upper glass conveying roller way and the second lower glass conveying roller way after swinging; the end part of the first lower glass conveying roller way, which is positioned at the break angle, is provided with a glass steering machine, and the upper end part of the first upper glass conveying roller way, which is positioned at the break angle, is provided with a vacuum suction crane for transferring the photovoltaic glass from the first upper glass conveying roller way to the second double-layer glass conveying roller way.

2. The high-speed conveying and steering three-dimensional unit for photovoltaic glass according to claim 1, wherein the glass steering machine comprises more than two rows of liftable belt conveyors, the conveying direction of each belt conveyor is perpendicular to the conveying direction of the first lower glass conveying roller way, and each belt conveyor is positioned between the rollers of the first lower glass conveying roller way.

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