KR101259832B1 - Lift type glass direction switch device - Google Patents

Abstract

The present invention relates to a lift-type plate glass redirection device, the conveying roller of the traveling direction roller unit mounted on the lifting frame is driven to move the lifting frame in the state in which the plate glass is moved into the inside, mounted on the fixed frame, the traveling direction The discharge roller is driven in a state where the bottom surface of the plate glass is in close contact with the discharge roller of the direction changing roller portion arranged at a predetermined interval from the bottom of the roller portion so that the plate glass is discharged at right angles to the direction in which the plate glass enters the traveling direction roller portion. It can be discharged in the state of changing the direction by moving up and down.
Lift-type plate glass redirection device according to the present invention, the device for lifting and transporting the plate glass is separated from the device for changing the direction of the light weight, the flow of the plate glass is not generated when discharged so that the direction of the plate glass is damaged damage to the plate glass It can prevent, and can move the plate glass up and down quickly has the advantage of improving the efficiency.

Description

Lift type glass direction switch device

The present invention relates to a plate glass direction switching device, and more particularly, the feed roller of the traveling direction roller unit mounted on the lifting frame is driven and the lifting frame moves up and down in a state where the plate glass enters the inside, and is mounted on the fixed frame. The lift roller is driven in a state where the bottom surface of the plate glass is in close contact with the discharge roller of the direction change roller unit arranged at a predetermined interval apart from the bottom of the traveling direction roller part so that the plate glass is discharged in a direction perpendicular to the direction in which the plate glass enters the traveling direction roller part. It is to provide a type plate direction changer.

In general, the plate glass redirection device is a diverter method for advancing the plate glass conveyed on the workbench in a traveling direction, or by switching the direction in a right angle direction, and advancing the plate glass conveyed on the workbench in the advancing direction; Or it can be divided largely by the turn method to rotate in place to transfer the desired direction.

On the other hand, when conveying the plate glass in the upper layer to the bottom according to the height between floors by entering the plate glass using the lift-type plate glass transfer device to discharge the plate glass in the opposite direction of the entry direction after the downward movement, the discharged plate glass is a separate plate glass direction switching device As the glass passes through, the direction of the pane is changed and transferred.

In addition, the plate glass enters the traveling direction roller part by using a lift plate glass direction changing device which is integrally equipped with a direction changing roller part which moves up and down in a state spaced apart by a cylinder from the lower part of the traveling direction roller part. In the state in which the direction change roller part was moved up and down at the same time, the direction change roller part was moved up and down by the cylinder, and was driven while supporting the bottom surface of the plate glass.

However, as described above, the lift plate glass direction change device in which the traveling direction roller part and the direction change roller part are integrally mounted to the frame has a heavy weight because the device for discharging by discharging the plate glass is lifted and transferred. There is a risk of damage to the plate glass flows due to the flow generated in the device itself as the lifting roller is moved up and down by the cylinder in the state of moving up and down to a fixed position. There is a problem of poor work efficiency.

The present invention is to solve the above problems, an object of the present invention is to move the conveying roller of the traveling direction roller unit mounted on the elevating frame to move the elevating frame in the state in which the plate glass enters the inside, the fixed frame The discharge roller is driven in a state in which the bottom surface of the plate glass is in close contact with the discharge roller of the direction switching roller part which is mounted on the bottom surface of the traveling roller part at a predetermined interval and is discharged at right angles to the direction in which the plate glass enters the traveling roller part. As a result, to provide a lift-type plate glass redirection device that can be discharged in a state of changing the direction by moving the plate glass quickly.

In order to achieve the object of the present invention as described above, the lifting plate-shaped glass turning apparatus according to the present invention, the lifting frame is fixed to the lifting device fixed bar formed on one side; A plurality of rotary shaft support parts formed opposite to each other at both ends of the elevating frame and spaced apart at predetermined intervals along a longitudinal direction, and are mounted between the rotary shaft support parts at both ends, and one end of which is exposed from the rotary shaft support part to form a rotating roller; It is provided, the traveling direction roller unit is installed on the outer circumferential surface of the rotary shaft spaced apart at predetermined intervals and the feed roller is integrally rotated; A fixed frame fixedly disposed at a bottom surface to be spaced apart from the lifting frame by a predetermined interval; The rotating roller is mounted on the fixed frame in the same configuration as the traveling direction roller part, and is arranged in a direction perpendicular to the moving direction of the traveling roller part, and in which a discharge shaft is mounted on the outer circumferential surface and spaced apart at predetermined intervals. part; And a driving unit provided at one end of the elevating frame and the fixed frame to transmit rotational power to the rotating roller of the rotating shaft.

In the lift-type plate glass turning apparatus according to the present invention, the drive unit is provided with a plurality of drive rollers spaced at regular intervals in close contact orthogonal to the rotation roller of the rotary shaft, the rotary shaft passing through the center of the drive roller is It is mounted, characterized in that one end of the rotary shaft is connected to the motor.

In the lift-type plate glass turning apparatus according to the present invention, both ends of the rotating shaft is characterized in that it further comprises a feed roller provided with supporting jaws for supporting the both sides of the plate glass to enter the traveling direction roller portion in close contact.

In the lift-type plate glass turning apparatus according to the present invention, the conveying roller of the traveling direction roller portion is formed relatively smaller than the diameter of the discharge roller diameter of the direction changing roller portion to cross each other between the rotating shaft by the height difference of the rotating shaft It is characterized in that interference does not occur.

Lift type plate glass redirection device according to the present invention is configured as described above, the device for lifting and transporting the plate glass is separate from the device for changing the direction is light weight, the flow is not generated when discharged so that the direction of the plate glass is switched There is an advantage that can prevent the damage to the plate glass, and can be moved up and down the plate glass quickly to improve the work efficiency.

1 is a perspective view showing a lift-type plate glass turning device according to the present invention.
Fig. 2 is an exploded perspective view of Fig. 1; Fig.
3a and 3b is an operating state of FIG.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a lift plate-shaped glass turning apparatus according to the present invention, Figure 2 is an exploded perspective view of Figure 1, Figures 3a and 3b is an operating state of FIG.

Lifting frame 10 is fixed bar 11 formed on one side is fixed to the lift device 100 is moved up and down.

The lifting frame 10 is moved up and down by the lift apparatus 100 by mounting a traveling direction roller unit 20 into which the glass plate G enters.

The lifting frame 10 forms an opening 12 in a direction in which the plate glass G enters and a discharge direction.

The advancing direction roller portion 20 is provided with a plurality of rotary shaft support portions 21 formed opposite to each other at both ends of the lifting frame 10 at regular intervals along the longitudinal direction, and between the rotary shaft support portions 21 at both ends. Rotating shaft 22 having one end is exposed from the rotating shaft support portion 21 to form the rotating roller (22a) is provided, and is mounted to be spaced apart at predetermined intervals on the outer peripheral surface of the rotating shaft 22 integrally rotated feed The roller 23 is installed.

The traveling direction roller unit 20 is mounted on the lifting frame 10 to move up and down.

The moving direction roller unit 20 is the feed roller 23 of the rotary shaft 22 is integrated with the rotary shaft 22 as the rotary roller 22a of the rotary shaft 22 is rotated by the drive unit 50. The shaft is rotated to enter the pane.

The moving direction roller unit 20 is equipped with a bearing (B) on the outer circumferential surface of the rotary shaft 22 coupled to the rotary shaft support 21 to increase the rotational force.

Both ends of the rotating shaft 22 are further provided with a feed roller (23 ') provided with a support jaw (23a) for closely supporting both sides of the plate glass (G) entering the roller in the traveling direction (20).

The conveying roller 23 of the traveling roller portion 20 is formed to be smaller than the diameter of the discharge roller 41 of the direction changing roller portion 40 is the cross that crosses each other by the height difference of the rotating shaft 22 There is no interference between the rotating shaft (22).

The fixed frame 30 is fixedly disposed on the bottom surface to be spaced apart from the lifting frame 10 by a predetermined interval.

The fixing frame 30 is fixedly installed at the position where the plate glass (G) is discharged.

The direction change roller part 40 is mounted on the fixed frame 30 in the same configuration as the traveling direction roller part 20, and is arranged in a direction perpendicular to the conveying direction of the traveling direction roller part 20, but on the outer circumferential surface thereof. Rotating shafts 22 on which the discharge rollers 41 are spaced apart at predetermined intervals are continuous.

The direction change roller portion 40 is mounted to the top of the fixed frame 30 is fixed.

The turning roller portion 40 is equipped with a bearing (B) on the outer circumferential surface of the rotary shaft 22 coupled to the rotary shaft support 21 to increase the rotational force.

The direction change roller portion 40 is formed when the diameter of the discharge roller 41 is larger than the diameter of the feed roller 23 when the moving direction roller unit 20 having the plate glass (G) moves up and down The bottom surface of the plate glass (G) is in close contact with the outer peripheral surface of the discharge roller 41 is discharged so that the direction of the plate glass (G) is switched by the drive of the discharge roller (41).

The driving unit 50 is provided at one end of the lifting frame 10 and the fixed frame 30 to transmit rotational power to the rotation roller 22a of the rotation shaft 22.

The drive unit 50 is provided with a plurality of drive rollers 51 are in close contact orthogonal to the rotation roller 22a of the rotary shaft 22 and spaced at a predetermined interval, and penetrates the center of the drive roller 51. The rotating shaft 52 is mounted, and one end of the rotating shaft 52 is connected to the motor 53.

As the driving unit 50 is driven by the motor 53, the driving roller 51 is rotated by the rotational force of the rotating shaft 52, and the driving shaft 51 of the rotating shaft 22 closely orthogonal to the driving roller 51. As the rotation roller 22a is rotated, the rotation shaft 22 is axially rotated integrally with the feed roller 23.

Lift-type plate glass redirection device according to the present invention configured as described above is operated as follows.

First, the fixing frame 30 is installed at the position where the plate glass G is discharged, and the direction change roller part 40 is mounted to the upper portion of the fixing frame 30, and fixed to the lifting device 100 to move up and down. The lifting frame 10 is provided above the fixed frame 30, the plate glass (G) into the elevating frame 10, the traveling direction roller unit to move up and down integrally with the elevating frame 10 ( When the driving unit 50 provided at one end of the traveling direction roller unit 20 is introduced in order to enter the plate glass G into the traveling direction roller unit 20 while the mounting unit 20 is mounted, the driving unit 50 The rotary shaft 22 is rotated by receiving the rotational roller 22a formed at one end of the rotating shaft 22 of the traveling direction roller unit 20 and the feeding roller 23 mounted on the outer circumferential surface of the rotating shaft 22. It is axially rotated integrally to enter the plate glass (G) into the elevating frame (10), the elevating frame Lim (10) is moved up and down by the lift device 100 is close to the direction change roller portion 40 of the fixed frame 30 while the feed roller 23 of the traveling direction roller portion 20 is The discharge roller 41 enters between the discharge rollers 41 of the redirection roller unit 40 so that the discharge rollers 41 support the bottom surface of the plate glass G, and the rotary shafts 22 on which the discharge rollers 41 are mounted. The rotating roller 22a receives the rotational force by the driving unit 50 provided at one end of the fixed frame 30, and the rotating shaft 22 is integrally formed with the discharge roller 41 mounted on the outer circumferential surface of the rotating shaft 22. Rotated to discharge the direction of the plate glass (G) in the direction perpendicular to the traveling direction roller portion 20. At this time, the lifting frame 10 is fixed to the fixing bar 11 formed on one side of the lift device 100 is fixed.

In addition, the lifting frame 10 forms an opening 12 in a direction in which the plate glass G enters and discharges.

On the other hand, the traveling direction roller portion 20 is a bearing (B) is mounted on the outer circumferential surface of the rotary shaft 22 coupled to the rotary shaft support 21, the rotational force of the rotary shaft 22 is increased.

In addition, both ends of the rotating shaft 22 of the traveling direction roller unit 20 are provided with support jaws 23a 'that closely support both sides of the plate glass G entering the traveling direction roller unit 20. A roller 23 'may be further provided to prevent the plate glass G from being separated.

In addition, the rotation shaft 22 of the traveling direction roller unit 20 is the motor 53 of the drive unit 50 in the state in which the rotation roller 22a is in close contact with the drive roller 51 of the drive unit 50 orthogonally. As the drive shaft 51 is transmitted as the driving force of the motor 53 is transmitted as the drive shaft 51 is rotated, the rotating roller 22a is rotated to rotate the rotating shaft 22 of the traveling direction roller unit 20. ) Is axially rotated integrally with the feed rollers (23, 23 ').

In addition, the feed roller 23 of the traveling direction roller unit 20 is formed smaller than the diameter of the discharge roller 41 of the direction change roller unit 40 so that the feed roller 23 is the discharge roller 41 The bottom surface of the plate glass G, which is in close contact with the outer circumferential surface of the conveying roller 23 when it enters through, is in close contact with the outer circumferential surface of the discharge roller 41, and discharged so that the direction of the plate glass G is switched.

In addition, it is possible to prevent the interference between the rotating shaft 22 crossing each other by the height difference of the rotating shaft 22 of the moving direction roller section 20 and the direction changing roller section 40.

On the other hand, the fixed frame 30 may be fixed by the user to pre-select the position where the plate glass (G) is discharged.

Subsequently, the direction change roller part 40 has a bearing (B) mounted on the outer circumferential surface of the rotating shaft 22 coupled to the rotating shaft support 21 to increase the rotational force of the rotating shaft 22.

In addition, the rotation shaft 22 of the direction change roller portion 40 is the motor 53 of the drive unit 50 in the state in which the rotation roller 22a is in close contact with the drive roller 51 of the drive unit 50 orthogonally. As the rotation shaft 52 is transmitted as the driving force of the motor 53 is received as the driving roller 51 is rotated, the rotation roller 22a is rotated to rotate the rotation shaft 22 of the direction change roller part 40. ) Is rotated integrally with the discharge roller 41.

In addition, the discharge roller 41 of the direction change roller portion 40 is formed larger than the diameter of the feed roller 23 of the traveling direction roller portion 20 so that the feed roller 23 is the discharge roller 41 The bottom surface of the plate glass G, which is in close contact with the outer circumferential surface of the conveying roller 23 when it enters through, is in close contact with the outer circumferential surface of the discharge roller 41, and discharged so that the direction of the plate glass G is switched.

In addition, the direction change roller portion 40 can prevent the interference between the rotating shaft 22, which cross each other by the height difference of the rotating shaft 22 of the traveling direction roller portion 20.

On the other hand, as the drive unit 50 is driven by the motor 53, one end of the rotating shaft 52 is connected to the motor 53 is rotated, a plurality of drive rollers are mounted to be spaced apart a predetermined interval on the rotating shaft 52 The rotational force is transmitted to the rotational roller 22a of the rotational shaft 22 closely orthogonal to the drive roller 51 while the 51 is rotated, and as the rotational roller 22a is rotated, the rotational shaft 22 is rotated. This is rotated to rotate the feed roller 23 and the discharge roller 41.

Entering the plate glass (G) as described above by moving the lifting direction roller unit 20 is moved up and down integrally with the elevating frame (10) to the direction change roller unit 40 of the upper portion of the fixed frame (30) to enter the direction The structure for discharging the plate glass (G) in a direction perpendicular to the is, the device for lifting and transporting the plate glass (G) is separated from the device for changing the direction is light weight, flow during discharge so that the direction of the plate glass (G) is switched It does not occur, and the plate glass (G) can be moved up and down quickly to improve the work efficiency.

Lift-type plate glass redirection device according to the present invention described above is not limited to the above-described embodiment, without having to leave the gist of the present invention claimed in the claims Anyone who has grown up will have the technical spirit of the present invention to the extent that it can be variously modified and implemented.

10: elevating frame 11: fixed bar
12: opening 20: traveling roller portion
21: rotating shaft support 22: rotating shaft
22a: Rotating roller 23,23 ': Feeding roller
23a: support jaw 30: fixed frame
40: direction change roller portion 41: discharge roller
50: drive unit 51: drive roller
52: rotation shaft 53: motor
100: lift device B: bearing
G: plate glass

Claims (4)

A lifting frame (10) fixed and lifted by a fixed bar (11) formed at one side of the lift apparatus (100);
A plurality of rotary shaft support portions 21 formed opposite to each other at both ends of the elevating frame 10 are mounted to be spaced apart at predetermined intervals along the longitudinal direction, and are mounted between the rotary shaft support portions 21 at both ends thereof, and one end of the rotary shaft support portion ( The rotating shaft 22 exposed from the 21 to form the rotating roller (22a) is provided, the traveling direction is installed on the outer peripheral surface of the rotating shaft 22 spaced at a predetermined interval, the feed roller 23 is integrally axially rotated installed direction A roller unit 20;
A fixed frame 30 fixedly disposed at a bottom surface to be spaced apart from the lifting frame 10 by a predetermined interval;
Mounted on the fixed frame 30 in the same configuration as the traveling direction roller unit 20, arranged in a direction perpendicular to the conveying direction of the traveling direction roller unit 20, the discharge roller 41 is a predetermined interval on the outer peripheral surface A rotational roller unit 40 in which the rotating shaft 22 which is mounted to be spaced apart is continuous; And
A lift-type plate glass provided at one end of the elevating frame 10 and the fixed frame 30 to transmit rotational power to the rotating roller 22a of the rotating shaft 22; Redirection device. The method of claim 1,
The drive unit 50 is provided with a plurality of drive rollers 51 are in close contact orthogonal to the rotation roller 22a of the rotary shaft 22 and spaced at a predetermined interval, and penetrates the center of the drive roller 51. Lift shaft 52 is mounted, lift type plate glass redirection device, characterized in that one end of the rotary shaft 52 is connected to the motor (53). The method of claim 1,
Both end portions of the rotary shaft 22 is further provided with a feed roller 23 'provided with supporting jaw 23a for closely supporting both side surfaces of the plate glass G entering the traveling direction roller portion 20. Lift type plate glass turning device. The method of claim 1,
The conveying roller 23 of the traveling roller portion 20 is formed to be smaller than the diameter of the discharge roller 41 of the direction changing roller portion 40 is the cross that crosses each other by the height difference of the rotating shaft 22 Lift-type plate glass direction switching device characterized in that the interference between the rotating shaft (22) does not occur.

Images