CN213949789U - Double-layer steering device for thin plate on production line - Google Patents

Abstract

The utility model provides a double-deck device that turns to of sheet metal on production line, it includes frame (1), is equipped with upper rollgang (1 a) and lower floor's rollgang (1 b), its characterized in that on frame (1): an upper layer steering device (2) matched with the upper layer conveying roller way (1 a) in a matching way is arranged on the rack (1), and a lower layer steering device (3) correspondingly matched with the lower layer conveying roller way (1 b) is arranged on the rack (1). The utility model discloses simple structure, convenient to use, easy installation are maintained, have realized that 90 of double-deck sheet metal turn to the transport, have reduced equipment quantity and have improved productivity and efficiency.

Description

Double-layer steering device for thin plate on production line

The technical field is as follows:

the utility model belongs to the technical field of the material is carried and specifically relates to a double-deck device that turns to of sheet metal on production line.

Background art:

in the photovoltaic glass production line, because glass or sheet metal all are the transport of individual layer, not only equipment is more also can occupy a large amount of places simultaneously, and the work load of inefficiency and maintenance is great. In order to improve the condition, the two single-layer conveying lines can be combined into an upper conveying line and a lower conveying line, wherein the upper conveying line and the lower conveying line are independent power systems, so that the upper conveying line and the lower conveying line can be freely transmitted. The arc transition roller ways are mostly adopted for transition during the conveying of thin plates or glass in the prior art, and the rear arc transition roller ways have the problem of large occupied area.

The utility model has the following contents:

the utility model discloses be exactly in order to overcome not enough among the prior art, provide a double-deck device that turns to of sheet metal on the production line.

The application provides the following technical scheme:

the utility model provides a double-deck device that turns to of sheet metal on production line, it includes the frame, is equipped with upper rollgang and lower floor rollgang, its characterized in that in the frame: an upper layer steering device correspondingly matched with the upper layer conveying roller way is arranged on the frame, and a lower layer steering device correspondingly matched with the lower layer conveying roller way is arranged on the frame.

On the basis of the technical scheme, the following technical scheme can be provided:

the upper steering device comprises a first air cylinder arranged on the top of the frame, a first crank arm is hinged to an output shaft of the first air cylinder, a first hinge seat is hinged to the first crank arm, and a first lifting frame is fixedly connected to the bottom of the first hinge seat;

a plurality of pairs of first supporting seats are arranged on the first lifting frame, each pair of first supporting seats and the roller of the upper-layer conveying roller way are distributed in a staggered mode, and a first conveying belt is arranged on each pair of first supporting seats;

the first lifting frame is provided with a first transmission motor, the first lifting frame is further provided with a transmission shaft, each first transmission belt is in transmission fit with the transmission shaft through a first transmission device, and the end part of one end of the transmission shaft is in transmission fit with the first transmission motor through a second transmission device.

The lower layer steering device comprises a second cylinder arranged at the bottom of the rack, a second crank arm is hinged to an output shaft of the second cylinder, a second hinge seat is hinged to the second crank arm, and a second lifting frame is fixedly connected to the second hinge seat;

a plurality of pairs of second supporting seats are arranged on the second lifting frame, each pair of second supporting seats and the roller of the lower-layer conveying roller way are distributed in a staggered mode, and a second conveying belt is arranged on each pair of second supporting seats;

and a second transmission motor is also arranged on the second lifting frame, the second transmission motor is a bidirectional synchronous motor, a transmission output shaft is arranged at the output end of the second transmission motor, and the second conveyor belt on each pair of second supporting seats is in transmission fit with the transmission output shaft through a third rotating device.

The conveying direction of the upper layer conveying roller way is the same as that of the lower layer conveying roller way, and the conveying direction of the upper layer steering device is perpendicular to that of the lower layer steering device.

Utility model advantage:

the utility model discloses simple structure, convenient to use, easy installation are maintained, have realized that 90 of double-deck sheet metal turn to the transport, have reduced equipment quantity and have improved productivity and efficiency.

Description of the drawings:

fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a view in the direction A of FIG. 1;

FIG. 3 is a schematic view of the second conveyor belt of FIG. 2;

fig. 4 is a schematic view of the structure of the first conveyor belt of fig. 2.

The specific implementation mode is as follows:

as shown in fig. 1-4, a double-layer steering device for thin plates on a production line comprises a frame 1, wherein an upper layer rollgang 1a and a lower layer rollgang 1b are arranged on the frame 1, and the upper layer rollgang 1a and the lower layer rollgang 1b are provided with independent transmission devices. The upper layer rollgang 1a and the lower layer rollgang 1b have the same structure as a single layer rollgang in the prior art, and only the two single layer rollgang are arranged on the frame 1 in a state of being parallel up and down. Therefore, the specific structures of the upper and lower tables 1a and 1b will not be described here.

An upper layer steering device 2 matched with the upper layer conveying roller way 1a in an aligning way is arranged on the frame 1. The upper steering device 2 comprises a first lifting frame 2d, the first lifting frame 2d is of a frame structure and comprises a lifting frame bottom plate 21d located below the upper conveying roller way 1a, vertical rods 22d are vertically connected to two ends of the lifting frame bottom plate 21d, the upper ends of the vertical rods 22d upwards extend out of a distance from the gaps of rollers of the upper conveying roller way 1a, and a top plate 23d is fixedly connected to the upper ends of the vertical rods 22d above the upper conveying roller way 1a in a crossing mode.

The end parts of the two ends of the top plate 23d are respectively and fixedly connected with a first hinged seat 2c, a first crank arm 2b is hinged on the hinged seat 2c at one end of the top plate 23d, and a third crank arm 2k is hinged on the hinged seat 2c at the other end. The first crank arm 2b is L-shaped and comprises a shorter section and a longer section, and the end part of the shorter section is hinged with the hinge seat 2 c.

The third crank arm 2k is of a triangular structure, one end of the third crank arm is hinged to the hinge base 2c, the other end of the third crank arm is hinged to the pull rod 2j, and one end of the pull rod 2j is hinged to the middle of the longer section of the first crank arm 2 b. The top of the frame 1 is provided with a first cylinder 2a, and an output shaft of the first cylinder 2a is hinged with the end part of the longer section of the first crank arm 2 b.

Be equipped with a plurality of pairs of first support seat 2e on crane bottom plate 21d, every pair of first support seat 2e all along upper rollgang 1 a's roller axial distribution, and with upper rollgang 1 a's roller is crisscross the distribution, all be equipped with first conveyer belt 2g on every pair of first support seat 2e, the direction of delivery of first conveyer belt 2g and upper rollgang 1 a's direction of delivery mutually perpendicular.

And the lifting frame bottom plate 21d is also provided with a transmission shaft 2h, and each first transmission belt 2g is in transmission fit with the transmission shaft 2h through a first transmission device. The first transmission device comprises a power wheel 2n which is fixed on the first supporting seat 2e and forms power transmission fit with the first transmission belt 2g, a driven wheel 2m is fixed on the transmission shaft 2h, a first synchronous belt 2v which is correspondingly matched with the power wheel 2n and the driven wheel 2m is sleeved on the power wheel 2n and the driven wheel 2m, and the first transmission belt 2g can be driven through the rotation of the transmission shaft 2 h.

The top plate 23d is provided with a first transmission motor 2f, and one end part of the transmission shaft 2h forms transmission fit with the first transmission motor 2f through a second transmission device. The second transmission device comprises a second transmission wheel 12h connected to one end of the transmission shaft 2h, a motor transmission wheel 12f is connected to an output shaft of the first transmission motor 2f, and a transmission synchronous belt 2t is sleeved on the second transmission wheel 12h and the motor transmission wheel 12 f.

The first lifting frame 2d is also provided with a first induction switch 2x correspondingly matched with the thin plate or the glass plate conveyed on the upper layer conveying roller way 1a, and the first induction switch 2x forms electric signal control matching with the first transmission motor 2f and the first air cylinder 2a through a cable.

And a lower layer steering device 3 correspondingly matched with the lower layer conveying roller way 1b is arranged on the rack 1. The lower floor turn to device 3 include and be equipped with second crane 3d in lower floor rollgang 1b below, be connected with a articulated seat of second 3c respectively at second crane 3d bottom both ends tip, it has second turning arm 3b to articulate in one of them articulated seat of second 3c, it has fourth turning arm 13b to articulate on another articulated seat of second 3c, second turning arm 3b the same with first turning arm 2b structure, fourth turning arm 13b is the same with third turning arm 2k structure, also articulates between fourth turning arm 13b and second turning arm 3b has second pull rod 3 k. A second cylinder 3a is arranged at the bottom of the machine frame 1 below the second lifting frame 3d, and an output shaft of the second cylinder 3a is hinged with the end part of the longer section of the second crank arm 3 b.

Be equipped with many pairs of second supporting seat 3e on second crane 3d, every pair of second supporting seat 3e along lower floor's rollgang 1b roller axial distribution, every pair of second supporting seat 3e with lower floor's rollgang 1b roller be crisscross distribution, all be equipped with second conveyer belt 3g on every pair of second supporting seat 3e, the direction of delivery of second conveyer belt 3g and lower floor's rollgang 1b direction of delivery mutually perpendicular.

The second lifting frame 2d is also provided with a second transmission motor 3f, the second transmission motor 3f is a bidirectional synchronous motor, the output end of the second transmission motor 3f is provided with a transmission output shaft, and the second conveyor belt 3g on each pair of second supporting seats 3e is in transmission fit with the transmission output shaft through a third rotating device. The third rotating device is the same structure as the first transmission device and is also a belt wheel synchronous belt transmission device, so that the description is omitted.

One of the second supporting seats 3e is connected with a second inductive switch 3x, and the second inductive switch 3x forms electric signal control matching with a second transmission motor 3f and a second cylinder 3a through a cable.

The working process is as follows:

when the sheet metal 4 of carrying on upper rollgang 1a arrives the top that the upper strata turned to device 2, first inductive switch 2x sends electrical signal through the cable, first drive motor 2f starts all first conveyer belts 2g work, the output shaft withdrawal of first cylinder 2a drives first turning arm 2b simultaneously and rotates, thereby it rises to drive first crane 2d and makes first conveyer belt 2g bulge upper rollgang 1a with sheet metal 4 holds up on it, thereby transport sheet metal 4 to another ascending rollgang of side through first conveyer belt 2 g. After the sheet metal 4 is transported away from the upper steering device 2, the first inductive switch 2x sends a signal to the first transmission motor 2f and the first cylinder 2a again, the first transmission belt 2g stops working, the output shaft of the first cylinder 2a stretches out to drive the first crank arm 2b to rotate again, and the first lifting frame 2d is driven to descend and reset.

When the thin plate 4 conveyed on the lower-layer conveying roller way 1b reaches the position above the lower-layer steering device 3, the second induction switch 3x sends out an electric signal to the second transmission motor 3f and the second air cylinder 3a through cables. The second driving motor 3f starts to drive all the second conveyor belts 3g to work, and meanwhile, the output shaft of the second cylinder 3a stretches out to drive the second crank arm 3b to rotate, so that the second lifting frame 3d is driven to ascend, the second conveyor belts 3g ascend and protrude out of the lower layer of the conveying roller way 1b to lift up the upper thin plate 4 of the conveying roller way, and the thin plate 4 is transferred to the conveying roller way in the other direction through the second conveyor belts 3 g. Thereby completing the double-layer turning of the thin plate on the production line. When the thin plate 4 leaves the lower layer steering device 3, the second induction switch 3x sends an electric signal to the second transmission motor 3f and the second cylinder 3a again through the cable, the second conveyor belt 3g stops working, and meanwhile, the output shaft of the second cylinder 3a retracts to drive the second crank arm 3b to rotate again, so that the second lifting frame 3d is driven to descend and reset.

Claims (4)

1. The utility model provides a double-deck device that turns to of sheet metal on production line, it includes frame (1), is equipped with upper rollgang (1 a) and lower floor rollgang (1 b), its characterized in that on frame (1): an upper layer steering device (2) correspondingly matched with the upper layer conveying roller way (1 a) is arranged on the rack (1), and a lower layer steering device (3) correspondingly matched with the lower layer conveying roller way (1 b) is arranged on the rack (1).

2. The double-layer turning device for the sheet on the production line according to claim 1, wherein: the upper steering device (2) comprises a first cylinder (2 a) arranged on the rack (1), a first crank arm (2 b) is hinged to an output shaft of the first cylinder (2 a), a first hinge base (2 c) is hinged to the first crank arm (2 b), and a first lifting frame (2 d) is fixedly connected to the bottom of the first hinge base (2 c);

a plurality of pairs of first supporting seats (2 e) are arranged on the first lifting frame (2 d), rollers of each pair of first supporting seats (2 e) and the upper-layer conveying roller way (1 a) are distributed in a staggered mode, and a first conveying belt (2 g) is arranged on each pair of first supporting seats (2 e);

be equipped with first drive motor (2 f) on first crane (2 d), still be equipped with one transmission shaft (2 h) on first crane (2 d), every first conveyer belt (2 g) all through first transmission with transmission shaft (2 h) form the transmission cooperation, transmission shaft (2 h) one end tip form the transmission cooperation through second transmission and first drive motor (2 f).

3. The double-layer turning device for the sheet on the production line according to claim 1, wherein: the lower-layer steering device (3) comprises a frame (1) provided with a second cylinder (3 a), an output shaft of the second cylinder (3 a) is hinged with a second crank arm (3 b), the second crank arm (3 b) is hinged with a second hinge base (3 c), and the second hinge base (3 c) is fixedly connected with a second lifting frame (3 d);

a plurality of pairs of second supporting seats (3 e) are arranged on the second lifting frame (3 d), rollers of each pair of second supporting seats (3 e) and the lower layer conveying roller way (1 b) are distributed in a staggered mode, and second conveying belts (3 g) are arranged on each pair of second supporting seats (3 e);

the second lifting frame (3 d) is further provided with a second transmission motor (3 f), the second transmission motor (3 f) is a bidirectional synchronous motor, the output end of the second transmission motor (3 f) is provided with a transmission output shaft, and the second conveyor belt (3 g) on each pair of second supporting seats (3 e) is in transmission fit with the transmission output shaft through a third rotating device.

4. The double-layer turning device for the sheet on the production line according to claim 1, wherein: the conveying direction of the upper layer conveying roller way (1 a) is the same as that of the lower layer conveying roller way (1 b), and the conveying direction of the upper layer steering device (2) and that of the lower layer steering device (3) are perpendicular to that of the upper layer conveying roller way (1 a) and that of the lower layer conveying roller way (1 b).

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