CN103466305B - A kind of compound type board falling device - Google Patents

Abstract

The present invention relates to plate glass production technical field, specifically a kind of compound type board falling device, comprise little driving cylinder, drive cylinder, small crank, big crank, little hollow shaft, large hollow shaft, pivoted arm and rotating shaft greatly, it is characterized in that described compound type board falling device is made up of four slabbing plate roller-ways, each slabbing plate roller-way has the cylinder of to control separately lifting, and four described slabbing plate roller-ways are divided into first group little slabbing plate roller-way, second group of large slabbing plate roller-way, the 3rd group little slabbing plate roller-way, the 4th group of large slabbing plate roller-way.The present invention compared with the existing technology, its advantage is: this device is made up of four slabbing plate roller-ways, four slabbing plate roller-ways both can single movement also can synchronization action, meet the conveying of different size glass board or the technological requirement of the plate fragmentation that falls, production technology is more flexible, reduces economic operation cost.

Description

A kind of compound type board falling device

[technical field]

The present invention relates to plate glass production technical field, specifically a kind of compound type board falling device.

[background technology]

In plate glass float line, the plate breaker decline plate roller-way that falls of use is in the past made up of monolithic or biplate, can only carry one piece or two pieces of glass board simultaneously.When inferior-quality glass board being detected, the plate roller-way that falls of respective regions declines, and nonconformity plate is transported to crusher and carries out fragmentation, while grade glass plate by corresponding fall plate roller-way be delivered to next process.When but if in manufacturing line, conveying has inclined cutting plate or three glass sheets simultaneously, this fall plate breaker just can not meet technological requirement.

[summary of the invention]

Object of the present invention is exactly to solve device structure more complicated in prior art and can not meet the inclined cutting plate of combinations produce in manufacturing line or produce the deficiency of technological requirement of three glass sheets, providing a kind of compound type board falling device that a kind of structure is simple, economic operation cost is low.

For achieving the above object, design a kind of compound type board falling device, comprise little driving cylinder, large driving cylinder, small crank, big crank, little hollow shaft, large hollow shaft, pivoted arm and rotating shaft, it is characterized in that described compound type board falling device is made up of four slabbing plate roller-ways, each slabbing plate roller-way has the cylinder of to control separately lifting, four described slabbing plate roller-ways are respectively second group little slabbing plate roller-way 9, first group of large slabbing plate roller-way 8, 3rd group little slabbing plate roller-way 12, 4th group of large slabbing plate roller-way 13, described first group large slabbing plate roller-way 8, second group little slabbing plate roller-way 9 and the 3rd group little slabbing plate roller-way 12, 4th group of large slabbing plate roller-way 13 is arranged symmetrically with along rollgang line of centers 11, described first group little driving cylinder 1 and second group of large driving cylinder 2 control the lifting of second group little slabbing plate roller-way 9 and first group of large slabbing plate roller-way 8 respectively by two hollow shaft transmitting torques of different size concentric, the 3rd group of described little driving cylinder 21 and the 4th group of large driving cylinder 20 control the lifting of the 3rd group little slabbing plate roller-way 12 and the 4th group of large slabbing plate roller-way 13 respectively by two hollow shaft transmitting torques of different size concentric, first group little driving cylinder 1 exports one end and connects first group of small crank 3 one end, first group of small crank 3 other end connects first group little hollow shaft 5, first group little hollow shaft 5 is connected with the first pivoted arm 10, first pivoted arm 10 and the first rotating shaft 24 link, second group little slabbing plate roller-way 9 rotates along the first rotating shaft 24, and the first pivoted arm 10 drives second group little slabbing plate roller-way 9 to be elevated, second group of large driving cylinder 2 exports one end and connects second group of big crank 4 one end, second group of big crank 4 other end connects second group of large hollow shaft 6, second group of large hollow shaft 6 is connected with the second pivoted arm 7, the second described pivoted arm 7 is made up of two pivoted arms, second pivoted arm 7 and the second rotating shaft 25 link, first group of large slabbing plate roller-way 8 rotates along the second rotating shaft 25, and the second pivoted arm 7 drives first group of large slabbing plate roller-way 8 to be elevated, first group little hollow shaft 5 passes in the middle of second group of large hollow shaft 6, 3rd group of little driving cylinder 21 exports one end and connects the 3rd group of small crank 19 one end, 3rd group of small crank 19 other end connects the 3rd group of little hollow shaft 17,3rd group of little hollow shaft 17 is connected with the 3rd pivoted arm 14,3rd pivoted arm 14 and the 3rd rotating shaft 23 link, 3rd group little slabbing plate roller-way 12 rotates along the 3rd rotating shaft 23, and the 3rd pivoted arm 14 drives the 3rd group little slabbing plate roller-way 12 to be elevated, 4th group of large driving cylinder 20 exports one end and connects the 4th group of big crank 18 one end, 4th group of big crank 18 other end connects the 4th group of large hollow shaft 16,4th group of large hollow shaft 16 is connected with the 4th pivoted arm 15, the 4th described pivoted arm 15 is made up of two pivoted arms, 4th pivoted arm 15 and the 4th rotating shaft 22 link, 4th group of large slabbing plate roller-way 13 rotates along the 4th rotating shaft 22, and the 4th pivoted arm 15 drives the 4th group of large slabbing plate roller-way 13 to be elevated, 3rd group of little hollow shaft 17 passes in the middle of the 4th group of large hollow shaft 16.

Described first group little driving cylinder 1 drives first group little hollow shaft 5 to rotate by first group of small crank 3, the first pivoted arm 10 be connected with first group little hollow shaft 5 along with synchronization action, thus drives second group little slabbing plate roller-way 9 to rotate lifting around the first rotating shaft 24.

Described second group large driving cylinder 2 drives second group of large hollow shaft 6 to rotate by second group of big crank 4, the second pivoted arm 7 be connected with second group of large hollow shaft 6 along with synchronization action, thus drives first group of large slabbing plate roller-way 8 to rotate lifting around the second rotating shaft 25.

The 3rd group of described little driving cylinder 21 drives the 3rd group of little hollow shaft 17 to rotate by the 3rd group of small crank 19, the 3rd pivoted arm 14 be connected with the 3rd group of little hollow shaft 17 along with synchronization action, thus drives the 3rd group little slabbing plate roller-way 12 to rotate lifting around the 3rd rotating shaft 23.

The 4th group of described large driving cylinder 20 drives the 4th group of large hollow shaft 16 to rotate by the 4th group of big crank 18, the 4th pivoted arm 15 be connected with the 4th group of large hollow shaft 16 along with synchronization action, thus drives the 4th group of large slabbing plate roller-way 13 to rotate lifting around the 4th rotating shaft 22.

Described second group little slabbing plate roller-way 9, first group of large slabbing plate roller-way the 8, the 3rd group little slabbing plate roller-way the 12, the 4th group of large slabbing plate roller-way 13 each freedom cylinder controls separately lifting, four slabbing plate roller-way energy single movement or synchronization actions.

A kind of control method of compound type board falling device, it is characterized in that described control method is that four slabbing plate roller-ways are controlled separately by four cylinders respectively, and for every side cylinder arrangement voltage stabilizing storage tank is to regulate four cylinder energy synchronization actions, assembly drop plate principle of work is as follows: first group little driving cylinder 1 drives first group little hollow shaft 5 to rotate by first group of small crank 3, the first pivoted arm 10 be connected with first group little hollow shaft 5 along with synchronization action, thus drives second group little slabbing plate roller-way 9 to rotate lifting action around the first rotating shaft 24; Second group of large driving cylinder 2 drives second group of large hollow shaft 6 to rotate by second group of big crank 4, and the second pivoted arm 7 on second group of large hollow shaft 6 along with synchronization action, thus drives first group of large slabbing plate roller-way 8 to rotate lifting action around the second rotating shaft 25; 3rd group of little driving cylinder 21 drives the 3rd group of little hollow shaft 17 to rotate by the 3rd group of small crank 19, the 3rd pivoted arm 14 be connected with the 3rd group of little hollow shaft 17 along with synchronization action, thus drives the 3rd group little slabbing plate roller-way 12 to rotate lifting action around the 3rd rotating shaft 23; 4th group of large driving cylinder 20 drives the 4th group of large hollow shaft 16 to rotate by the 4th group of big crank 18, the 4th pivoted arm 15 on 4th group of large hollow shaft 16 along with synchronization action, thus drives the 4th group of large slabbing plate roller-way 13 to rotate lifting action around the 4th rotating shaft 22.

The present invention compared with the existing technology, its advantage is: this device is made up of four slabbing plate roller-ways, each slabbing plate roller-way has a cylinder to control separately lifting, four slabbing plate roller-ways both can single movement also can synchronization action, meet the conveying of different size glass board or the technological requirement of the plate fragmentation that falls, production technology is more flexible, improves yield rate and the yields of glass, guarantee productivity effect maximizes, and reduces economic operation cost.

[accompanying drawing explanation]

Fig. 1 is front view of the present invention;

Fig. 2 is birds-eye view of the present invention;

As shown in the figure, in figure: 1. first group little driving cylinder 2. second groups of large driving cylinders, 3. first groups of small cranks 4. second groups of big cranks, 5. first groups little hollow shafts, 6. second groups of large slabbing plate roller-ways of large hollow shaft 7. second pivoted arm 8. first groups, 9. second groups little slabbing plate roller-way 10. first pivoted arm 11. rollgang line of centerss 12. the 3rd group little slabbing plate roller-way 13. the 4th group of large slabbing plate roller-way 14. the 3rd pivoted arm 15. the 4th pivoted arm 16. the 4th group of large hollow shaft 17. the 3rd group of little hollow shaft 18. the 4th group of big crank 19. the 3rd group of small crank 20. the 4th group of large driving cylinder 21. the 3rd group of little driving cylinder 22. the 4th rotating shaft 23. the 3rd rotating shaft 24. first rotating shaft 25. second rotating shaft;

Fig. 2 is specified to be Figure of abstract of the present invention.

[detailed description of the invention]

Below in conjunction with accompanying drawing, the invention will be further described, and the structure of this device and principle are very clearly concerning the people of this specialty.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

Embodiment 1

As Fig. 1, shown in Fig. 2, compound type board falling device comprises little driving cylinder, large driving cylinder, small crank, big crank, little hollow shaft, large hollow shaft, pivoted arm and rotating shaft, compound type board falling device is made up of four slabbing plate roller-ways, each slabbing plate roller-way has the cylinder of to control separately lifting, four slabbing plate roller-ways are respectively second group little slabbing plate roller-way 9, first group of large slabbing plate roller-way 8, 3rd group little slabbing plate roller-way 12, 4th group of large slabbing plate roller-way 13, first group of large slabbing plate roller-way 8, second group little slabbing plate roller-way 9 and the 3rd group little slabbing plate roller-way 12, 4th group of large slabbing plate roller-way 13 is arranged symmetrically with along rollgang line of centers 11, first group little driving cylinder 1 and second group of large driving cylinder 2 control the lifting of second group little slabbing plate roller-way 9 and first group of large slabbing plate roller-way 8 respectively by two hollow shaft transmitting torques of different size concentric, 3rd group of little driving cylinder 21 and the 4th group of large driving cylinder 20 control the lifting of the 3rd group little slabbing plate roller-way 12 and the 4th group of large slabbing plate roller-way 13 respectively by two hollow shaft transmitting torques of different size concentric, first group little driving cylinder 1 exports one end and connects first group of small crank 3 one end, first group of small crank 3 other end connects first group little hollow shaft 5, first group little hollow shaft 5 is connected with the first pivoted arm 10, first pivoted arm 10 and the first rotating shaft 24 link, second group little slabbing plate roller-way 9 rotates along the first rotating shaft 24, and the first pivoted arm 10 drives second group little slabbing plate roller-way 9 to be elevated, second group of large driving cylinder 2 exports one end and connects second group of big crank 4 one end, second group of big crank 4 other end connects second group of large hollow shaft 6, second group of large hollow shaft 6 is connected with the second pivoted arm 7, second pivoted arm 7 is made up of two pivoted arms, second pivoted arm 7 and the second rotating shaft 25 link, first group of large slabbing plate roller-way 8 rotates along the second rotating shaft 25, and the second pivoted arm 7 drives first group of large slabbing plate roller-way 8 to be elevated, first group little hollow shaft 5 passes in the middle of second group of large hollow shaft 6, 3rd group of little driving cylinder 21 exports one end and connects the 3rd group of small crank 19 one end, 3rd group of small crank 19 other end connects the 3rd group of little hollow shaft 17,3rd group of little hollow shaft 17 is connected with the 3rd pivoted arm 14,3rd pivoted arm 14 and the 3rd rotating shaft 23 link, 3rd group little slabbing plate roller-way 12 rotates along the 3rd rotating shaft 23, and the 3rd pivoted arm 14 drives the 3rd group little slabbing plate roller-way 12 to be elevated, 4th group of large driving cylinder 20 exports one end and connects the 4th group of big crank 18 one end, 4th group of big crank 18 other end connects the 4th group of large hollow shaft 16,4th group of large hollow shaft 16 is connected with the 4th pivoted arm 15,4th pivoted arm 15 is made up of two pivoted arms, 4th pivoted arm 15 and the 4th rotating shaft 22 link, 4th group of large slabbing plate roller-way 13 rotates along the 4th rotating shaft 22, and the 4th pivoted arm 15 drives the 4th group of large slabbing plate roller-way 13 to be elevated, 3rd group of little hollow shaft 17 passes in the middle of the 4th group of large hollow shaft 16.

First group little driving cylinder 1 drives first group little hollow shaft 5 to rotate by first group of small crank 3, and the first pivoted arm 10 be connected with first group little hollow shaft 5 along with synchronization action, thus drives second group little slabbing plate roller-way 9 to rotate lifting around the first rotating shaft 24.

Second group of large driving cylinder 2 drives second group of large hollow shaft 6 to rotate by second group of big crank 4, and the second pivoted arm 7 be connected with second group of large hollow shaft 6 along with synchronization action, thus drives first group of large slabbing plate roller-way 8 to rotate lifting around the second rotating shaft 25.

3rd group of little driving cylinder 21 drives the 3rd group of little hollow shaft 17 to rotate by the 3rd group of small crank 19, the 3rd pivoted arm 14 be connected with the 3rd group of little hollow shaft 17 along with synchronization action, thus drives the 3rd group little slabbing plate roller-way 12 to rotate lifting around the 3rd rotating shaft 23.

4th group of large driving cylinder 20 drives the 4th group of large hollow shaft 16 to rotate by the 4th group of big crank 18, the 4th pivoted arm 15 be connected with the 4th group of large hollow shaft 16 along with synchronization action, thus drives the 4th group of large slabbing plate roller-way 13 to rotate lifting around the 4th rotating shaft 22.

Second group little slabbing plate roller-way, 9, first group of large slabbing plate roller-way the 8, the 3rd group little slabbing plate roller-way the 12, the 4th group of large slabbing plate roller-way 13 each freedom cylinder controls separately lifting, four slabbing plate roller-way energy single movement or synchronization actions.

Embodiment 2

The control method of compound type board falling device, four slabbing plate roller-ways are controlled separately by four cylinders respectively, and for every side cylinder arrangement voltage stabilizing storage tank is to regulate four cylinder energy synchronization actions, assembly drop plate principle of work is as follows: first group little driving cylinder 1 drives first group little hollow shaft 5 to rotate by first group of small crank 3, the first pivoted arm 10 be connected with first group little hollow shaft 5 along with synchronization action, thus drives second group little slabbing plate roller-way 9 to rotate lifting action around the first rotating shaft 24; Second group of large driving cylinder 2 drives second group of large hollow shaft 6 to rotate by second group of big crank 4, and the second pivoted arm 7 on second group of large hollow shaft 6 along with synchronization action, thus drives first group of large slabbing plate roller-way 8 to rotate lifting action around the second rotating shaft 25; 3rd group of little driving cylinder 21 drives the 3rd group of little hollow shaft 17 to rotate by the 3rd group of small crank 19, the 3rd pivoted arm 14 be connected with the 3rd group of little hollow shaft 17 along with synchronization action, thus drives the 3rd group little slabbing plate roller-way 12 to rotate lifting action around the 3rd rotating shaft 23; 4th group of large driving cylinder 20 drives the 4th group of large hollow shaft 16 to rotate by the 4th group of big crank 18, the 4th pivoted arm 15 on 4th group of large hollow shaft 16 along with synchronization action, thus drives the 4th group of large slabbing plate roller-way 13 to rotate lifting action around the 4th rotating shaft 22.

Claims (7)

1. a compound type board falling device, comprise little driving cylinder, large driving cylinder, small crank, big crank, little hollow shaft, large hollow shaft, pivoted arm and rotating shaft, it is characterized in that described compound type board falling device is made up of four slabbing plate roller-ways, each slabbing plate roller-way controls separately lifting by a cylinder, four described slabbing plate roller-ways are respectively second group little slabbing plate roller-way (9), first group of large slabbing plate roller-way (8), 3rd group little slabbing plate roller-way (12), 4th group of large slabbing plate roller-way (13), described first group large slabbing plate roller-way (8), second group little slabbing plate roller-way (9) and the 3rd group little slabbing plate roller-way (12), 4th group of large slabbing plate roller-way (13) is arranged symmetrically with along rollgang line of centers (11), described little driving cylinder comprises first group little driving cylinder (1) and the 3rd group little driving cylinder (21), described large driving cylinder comprises second group of large driving cylinder (2) and the 4th group of large driving cylinder (20), and described first group little driving cylinder (1) and second group of large driving cylinder (2) control the lifting of second group little slabbing plate roller-way (9) and first group of large slabbing plate roller-way (8) respectively by two hollow shaft transmitting torques of different size concentric, described the 3rd group little driving cylinder (21) and the 4th group of large driving cylinder (20) control the lifting of the 3rd group little slabbing plate roller-way (12) and the 4th group of large slabbing plate roller-way (13) respectively by two hollow shaft transmitting torques of different size concentric, first group little driving cylinder (1) exports one end and connects first group of small crank (3) one end, first group of small crank (3) other end connects first group of little hollow shaft (5), first group of little hollow shaft (5) is connected with the first pivoted arm (10), first pivoted arm (10) and the first rotating shaft (24) link, second group little slabbing plate roller-way (9) is rotated along the first rotating shaft (24), and the first pivoted arm (10) drives second group little slabbing plate roller-way (9) lifting, second group of large driving cylinder (2) exports one end and connects second group of big crank (4) one end, second group of big crank (4) other end connects second group of large hollow shaft (6), second group of large hollow shaft (6) is connected with the second pivoted arm (7), described the second pivoted arm (7) is made up of two pivoted arms, second pivoted arm (7) and the second rotating shaft (25) link, first group of large slabbing plate roller-way (8) is rotated along the second rotating shaft (25), and the second pivoted arm (7) drives first group of large slabbing plate roller-way (8) lifting, first group of little hollow shaft (5) is passed in the middle of second group of large hollow shaft (6), 3rd group little driving cylinder (21) exports one end and connects the 3rd group of small crank (19) one end, 3rd group of small crank (19) other end connects the 3rd group of little hollow shaft (17), 3rd group of little hollow shaft (17) is connected with the 3rd pivoted arm (14), 3rd pivoted arm (14) and the 3rd rotating shaft (23) link, 3rd group little slabbing plate roller-way (12) is rotated along the 3rd rotating shaft (23), and the 3rd pivoted arm (14) drives the 3rd group little slabbing plate roller-way (12) lifting, 4th group of large driving cylinder (20) exports one end and connects the 4th group of big crank (18) one end, 4th group of big crank (18) other end connects the 4th group of large hollow shaft (16), 4th group of large hollow shaft (16) is connected with the 4th pivoted arm (15), the 4th described pivoted arm (15) is made up of two pivoted arms, 4th pivoted arm (15) and the 4th rotating shaft (22) link, 4th group of large slabbing plate roller-way (13) is rotated along the 4th rotating shaft (22), and the 4th pivoted arm (15) drives the 4th group of large slabbing plate roller-way (13) lifting, 3rd group of little hollow shaft (17) is passed in the middle of the 4th group of large hollow shaft (16).

2. a kind of compound type board falling device as claimed in claim 1, it is characterized in that first group little described driving cylinder (1) drives the rotation of first group of little hollow shaft (5) by first group of small crank (3), the first pivoted arm (10) be connected with first group of little hollow shaft (5) along with synchronization action, thus drives second group little slabbing plate roller-way (9) to rotate lifting around the first rotating shaft (24).

3. a kind of compound type board falling device as claimed in claim 1, it is characterized in that second group of described large driving cylinder (2) drives the rotation of second group of large hollow shaft (6) by second group of big crank (4), the second pivoted arm (7) be connected with second group of large hollow shaft (6) along with synchronization action, thus drives first group of large slabbing plate roller-way (8) to rotate lifting around the second rotating shaft (25).

4. a kind of compound type board falling device as claimed in claim 1, it is characterized in that the 3rd group little described driving cylinder (21) drives the rotation of the 3rd group of little hollow shaft (17) by the 3rd group of small crank (19), the 3rd pivoted arm (14) be connected with the 3rd group of little hollow shaft (17) along with synchronization action, thus drives the 3rd group little slabbing plate roller-way (12) to rotate lifting around the 3rd rotating shaft (23).

5. a kind of compound type board falling device as claimed in claim 1, it is characterized in that the 4th group of described large driving cylinder (20) drives the rotation of the 4th group of large hollow shaft (16) by the 4th group of big crank (18), the 4th pivoted arm (15) be connected with the 4th group of large hollow shaft (16) along with synchronization action, thus drives the 4th group of large slabbing plate roller-way (13) to rotate lifting around the 4th rotating shaft (22).

6. a kind of compound type board falling device as claimed in claim 1, it is characterized in that second group little described slabbing plate roller-way (9), first group of large slabbing plate roller-way (8), the 3rd group little slabbing plate roller-way (12), the 4th group of large slabbing plate roller-way (13) each freedom cylinder control separately lifting, four slabbing plate roller-way energy single movement or synchronization actions.

7. the control method of a compound type board falling device as claimed in claim 1, it is characterized in that described control method is that four slabbing plate roller-ways are controlled separately by four cylinders respectively, and for every side cylinder arrangement voltage stabilizing storage tank is to regulate four cylinder energy synchronization actions, assembly drop plate principle of work is as follows: first group little driving cylinder (1) drives the rotation of first group of little hollow shaft (5) by first group of small crank (3), the first pivoted arm (10) be connected with first group of little hollow shaft (5) is along with synchronization action, thus drive second group little slabbing plate roller-way (9) to rotate lifting action around the first rotating shaft (24), second group of large driving cylinder (2) drives the rotation of second group of large hollow shaft (6) by second group of big crank (4), the second pivoted arm (7) on second group of large hollow shaft (6) along with synchronization action, thus drives first group of large slabbing plate roller-way (8) to rotate lifting action around the second rotating shaft (25), 3rd group little driving cylinder (21) drives the rotation of the 3rd group of little hollow shaft (17) by the 3rd group of small crank (19), the 3rd pivoted arm (14) be connected with the 3rd group of little hollow shaft (17) along with synchronization action, thus drives the 3rd group little slabbing plate roller-way (12) to rotate lifting action around the 3rd rotating shaft (23), 4th group of large driving cylinder (20) drives the rotation of the 4th group of large hollow shaft (16) by the 4th group of big crank (18), the 4th pivoted arm (15) on 4th group of large hollow shaft (16) along with synchronization action, thus drives the 4th group of large slabbing plate roller-way (13) to rotate lifting action around the 4th rotating shaft (22).