CN105501933A - Intelligent glass arrangement system - Google Patents

Abstract

The invention discloses an intelligent glass arrangement system which comprises a first bidirectional table, a single-directional table and a second bidirectional table, wherein the first bidirectional table is mounted at the glass output end of a glass cleaning machine and comprises a first conveying roller assembly and a first conveying belt assembly; the second bidirectional table is arranged at the glass input end of a conveying table at the front end of a glass tempering furnace and comprises a second conveying roller assembly and a second conveying belt assembly; the single-directional table is mounted between the first bidirectional table and the second bidirectional table, comprises a third conveying belt assembly and is mounted between a glass cleaning production line and a glass tempering production line and is used for automatically connecting the glass cleaning production line and the glass tempering production line. By adopting the intelligent glass arrangement system, labor is saved, and damage to glass due to manual carrying can be avoided; meanwhile, the automation degree of deep glass processing is increased, and deep glass processing production efficiency is improved.

Description

A kind of intelligent glass screening system

Technical field

The present invention relates to glass post-processing technical field, be specifically related to a kind of glass screening system being connected glass cleaning manufacturing line and glass toughening production line for automation.

Background technology

At present, during glass processing, four limits of glass after edge polisher edging again by cleaning machine glass cleaning totally and dry, the glass cleaned up needs to be put on glass frame from cleaning product line, manually move glass frame to glass tempering stokehold again, manually glass is paved with on the estrade of glass tempering furnace front end, again the glass completed is sent in glass tempering furnace, manually glass is transported to glass toughening production line from cleaning product line, not only lost labor, the duplication of labour, glass can be caused in handling process to occur the damage of human element, and the continuous automatic production of cleaning product line and glass toughening production line cannot be realized.

Summary of the invention

For the deficiencies in the prior art, the present invention aims to provide a kind of glass slice arranging apparatus being connected glass cleaning manufacturing line and glass toughening production line for automation be mounted between glass cleaning manufacturing line and glass toughening production line.

For achieving the above object, the present invention adopts following technical scheme:

Intelligent glass screening system, comprise first two-way, unidirectional and second two-way, first two-way glass mouth being mounted on glass cleaning machine, first two-way comprises the first feed roller assembly and the first load-transfer device assembly, the throughput direction of this first feed roller assembly is consistent with the glass outbound course of glass cleaning machine, the throughput direction of the first load-transfer device assembly is vertical with the throughput direction of the first feed roller assembly, second two-way glass input end being mounted on the transport platform of glass tempering furnace front end, second two-way comprises the second feed roller assembly and the second load-transfer device assembly, the throughput direction of the second feed roller assembly is consistent with the glass input direction of the transport platform of glass tempering furnace front end, the throughput direction of the second load-transfer device assembly is vertical with the throughput direction of the second feed roller assembly and consistent with the first load-transfer device component transfer direction of first two-way, unidirectional is mounted between first two-way and second two-way, and unidirectional comprises the 3rd load-transfer device assembly, and the throughput direction of the 3rd load-transfer device assembly is consistent with the throughput direction of the first load-transfer device assembly, the second load-transfer device assembly.

Further, described first load-transfer device assembly, second load-transfer device assembly and the 3rd load-transfer device assembly comprise motor, reductor, drive sprocket, driven sprocket, transmission shaft, conveyer belt apparatus and conveyer belt apparatus erecting frame, the output shaft of motor is fixedly connected with the input end of reductor, drive sprocket is fixed on the output shaft end of reductor, driven sprocket is connected by chain gear with drive sprocket, driven sprocket is fixed on transmission shaft, conveyer belt apparatus is in transmission connection by transmission shaft and driven sprocket, the many rows of conveyer belt apparatus are fixed on conveyer belt apparatus erecting frame side by side, motor and speed reducer is fixed on conveyer belt apparatus erecting frame.

Further, described conveyer belt apparatus comprises rolling bearing units, first belt pulley, belt conveyor, second belt pulley, belt support beam and connecting panel, rolling bearing units are fixed on transmission shaft, first belt pulley is fixed on transmission shaft and is positioned at rolling bearing units side, belt conveyor two ends are connected with the first belt pulley and the second pulley drive respectively, belt support beam is fixed on conveyer belt apparatus erecting frame and is positioned at the first belt pulley, between second belt pulley and inside belt conveyor, belt support beam one end is fixedly connected with rolling bearing units by connecting panel, the other end is fixedly connected with the second belt pulley by connecting panel.

Further, described conveyer belt apparatus erecting frame comprises main frame body and lifting mechanism, motor, reductor and conveyer belt apparatus are fixed on main frame body, lifting mechanism is mounted on below main frame body, lifting mechanism comprises underframe, air cylinder fixed plate, cylinder, lifting shaft and elevator, air cylinder fixed plate is fixedly connected with underframe, the cylinder body of cylinder is fixed in air cylinder fixed plate, lifting shaft two ends are fixed on underframe by bearing, the piston rod of cylinder is fixedly connected with the axle body of lifting shaft, elevator is fixed on the two ends of lifting shaft, elevator is fixedly connected with the bottom of main frame body.

Or, described conveyer belt apparatus erecting frame comprises main frame body and arrangement for adjusting height, motor, reductor and conveyer belt apparatus are fixed on main frame body, arrangement for adjusting height is mounted on the bottom of main frame body, arrangement for adjusting height comprises sole, adjusting bolt, lower setting nut, upper setting nut and adapter plate, adjusting bolt one end is fixed on sole, the other end is fixedly connected with adapter plate, adapter plate is fixedly connected on the lower end of main frame body, lower setting nut is fixed in adjusting bolt and is positioned at adapter plate lower end, upper setting nut is fixed in adjusting bolt and is positioned at adapter plate upper end.

The present invention has following beneficial effect:

Intelligent glass screening system of the present invention, by its first feed roller assembly of first two-way, the glass cleaned up is transferred out from glass cleaning machine, and then by the first load-transfer device assembly of first two-way by glass transfer on the 3rd load-transfer device assembly of unidirectional, the 3rd load-transfer device assembly of unidirectional is by the second load-transfer device assembly of two-way for glass transfer to the second, after glass is paved with along the Width of second two-way by second feed roller assembly of second two-way by glass transfer in the transport platform of glass tempering furnace front end, by the transport platform of glass tempering furnace front end glass is fed through in glass tempering furnace after being paved with glass along the length direction of transport platform and carries out tempering process, can be mounted between glass cleaning manufacturing line and glass toughening production line and be connected glass cleaning manufacturing line and glass toughening production line for automation, not only save artificial, a dead lift can be avoided to cause glass breakage, and improve the degree of automation of glass post-processing, improve glass post-processing production efficiency.

Accompanying drawing explanation

Fig. 1 is the schematic top plan view of intelligent glass screening system of the present invention when being arranged between glass cleaning manufacturing line and glass toughening production line;

Fig. 2 is the structural representation of intelligent glass screening system of the present invention its first two-way and second two-way when removing feed roller assembly;

Fig. 3 is its structural representation of unidirectional of intelligent glass screening system of the present invention;

Fig. 4 is the structural representation of its conveyer belt apparatus of intelligent glass screening system of the present invention;

Fig. 5 is the structural representation of its lifting mechanism of intelligent glass screening system of the present invention;

Fig. 6 is the structural representation of its arrangement for adjusting height of intelligent glass screening system of the present invention.

In figure: 1, first two-way; 2, unidirectional; 3, second two-way; 4, glass cleaning machine; 5, transport platform; 11, the first feed roller assembly; 12, the first load-transfer device assembly; 21, the 3rd load-transfer device assembly; 31, the second feed roller assembly; 32, the second load-transfer device assembly; 60, motor; 61, reductor; 62, drive sprocket; 63, driven sprocket; 64, transmission shaft; 65, conveyer belt apparatus; 66, conveyer belt apparatus erecting frame; 651, rolling bearing units; 652, the first belt pulley; 653, belt conveyor; 654, the second belt pulley; 655, belt support beam; 656, connecting panel; 661, main frame body; 662, lifting mechanism; 663, arrangement for adjusting height; 662a, underframe; 662b, air cylinder fixed plate; 662c, cylinder; 662d, lifting shaft; 662e, elevator; 663a, sole; 663b, adjusting bolt; 663c, lower setting nut; 663d, upper setting nut; 663e, adapter plate.

Detailed description of the invention

Below, by reference to the accompanying drawings and detailed description of the invention, invention is described further.

Intelligent glass screening system of the present invention as shown in Figure 1, comprise first two-way 1, unidirectional 2 and second two-way 3, be mounted on the glass mouth of glass cleaning machine 4 for first two-way 1, comprise the first feed roller assembly 11 and the first load-transfer device assembly 12 for first two-way 1, the throughput direction of this first feed roller assembly 11 is consistent with the glass outbound course of glass cleaning machine 4, the throughput direction of the first load-transfer device assembly 12 is vertical with the throughput direction of the first feed roller assembly 11, be mounted on the glass input end of the transport platform 5 of glass tempering furnace front end for second two-way 3, comprise the second feed roller assembly 31 and the second load-transfer device assembly 32 for second two-way 3, the throughput direction of the second feed roller assembly 31 is consistent with the glass input direction of the transport platform 5 of glass tempering furnace front end, the throughput direction of the second load-transfer device assembly 32 is vertical with the throughput direction of the second feed roller assembly 31 and consistent with first load-transfer device assembly 12 throughput direction of first two-way 1, be mounted on for unidirectional 2 between first two-way 1 and second two-way 3, unidirectional 2 throughput direction comprising the 3rd load-transfer device assembly the 21, three load-transfer device assembly 21 is consistent with the throughput direction of the first load-transfer device assembly 12, second load-transfer device assembly 32.

Concrete, as Fig. 2, first load-transfer device assembly 12 shown in 3, second load-transfer device assembly 32 and the 3rd load-transfer device assembly 21 comprise motor 60, reductor 61, drive sprocket 62, driven sprocket 63, transmission shaft 64, conveyer belt apparatus 65 and conveyer belt apparatus erecting frame 66, the output shaft of motor 60 is fixedly connected with the input end of reductor 61, drive sprocket 62 is fixed on the output shaft end of reductor 61, driven sprocket 63 is connected by chain gear with drive sprocket 62, driven sprocket 63 is fixed on transmission shaft 64, conveyer belt apparatus 65 is in transmission connection by transmission shaft 64 and driven sprocket 63, conveyer belt apparatus row more than 65 is fixed on conveyer belt apparatus erecting frame 66 side by side, motor 60 and reductor 61 are fixed on conveyer belt apparatus erecting frame 66.

As shown in Figure 4, described conveyer belt apparatus 65 comprises rolling bearing units 651, first belt pulley 652, belt conveyor 653, second belt pulley 654, belt support beam 655 and connecting panel 656, rolling bearing units 651 are fixed on transmission shaft 64, first belt pulley 652 is fixed on transmission shaft 64 and is positioned at rolling bearing units 651 side, belt conveyor 653 two ends are in transmission connection with the first belt pulley 652 and the second belt pulley 654 respectively, belt support beam 655 is fixed on conveyer belt apparatus erecting frame 66 and is positioned at the first belt pulley 652, between second belt pulley 654 and inside belt conveyor 653, belt support beam 655 one end is fixedly connected with rolling bearing units 651 by connecting panel 656, the other end is fixedly connected with the second belt pulley 654 by connecting panel 656.

Concrete, described conveyer belt apparatus erecting frame 66 comprises main frame body 661 and lifting mechanism 662, motor 60, reductor 61 and conveyer belt apparatus 65 are fixed on main frame body 661, as shown in Figure 5, lifting mechanism 662 is mounted on below main frame body 661, lifting mechanism 662 comprises underframe 662a, air cylinder fixed plate 662b, cylinder 662c, lifting shaft 662d and elevator 662e, air cylinder fixed plate 662b is fixedly connected with underframe 662a, the cylinder body of cylinder 662c is fixed on air cylinder fixed plate 662b, lifting shaft 662d two ends are fixed on underframe 662a by bearing, the piston rod of cylinder 662c is fixedly connected with the axle body of lifting shaft 662d, elevator 662e is fixed on the two ends of lifting shaft 662d, elevator 662e is fixedly connected with the bottom of main frame body 661.

Or described conveyer belt apparatus erecting frame 66 comprises main frame body 661 and arrangement for adjusting height 663, motor 60, reductor 61 and conveyer belt apparatus 65 are fixed on main frame body 661, as shown in Figure 6, arrangement for adjusting height 663 is mounted on the bottom of main frame body 661, arrangement for adjusting height 663 comprises sole 663a, adjusting bolt 663b, lower setting nut 663c, upper setting nut 663d and adapter plate 663e, adjusting bolt 663b one end is fixed on sole 663a, the other end is fixedly connected with adapter plate 663e, adapter plate 663e is fixedly connected on the lower end of main frame body 661, lower setting nut 663c is fixed on adjusting bolt 663b and is positioned at adapter plate 663e lower end, upper setting nut 663d is fixed on adjusting bolt 663b and is positioned at adapter plate 663e upper end.

Principle of work of the present invention is: the glass cleaned up is transferred out by its first feed roller assembly 11 of first two-way 1 from glass cleaning machine 4, and then by the first load-transfer device assembly 12 of first two-way 1 by glass transfer on the 3rd load-transfer device assembly 21 of unidirectional 2, the 3rd load-transfer device assembly 21 of unidirectional 2 is by the second load-transfer device assembly 32 of two-way for glass transfer to the second 3, after glass is paved with along the Width of second two-way 3 by second feed roller assembly 31 of second two-way 3 by glass transfer in the transport platform 5 of glass tempering furnace front end, by the transport platform 5 of glass tempering furnace front end glass is fed through in glass tempering furnace after being paved with glass along the length direction of transport platform 5 and carries out tempering process, can be mounted between glass cleaning manufacturing line and glass toughening production line and be connected glass cleaning manufacturing line and glass toughening production line for automation, save artificial, a dead lift is avoided to cause glass breakage, improve the degree of automation of glass post-processing, improve glass post-processing production efficiency.

For a person skilled in the art, according to technical scheme described above and design, other various corresponding change and distortion can be made, and all these change and distortion all should belong within the protection domain of the claims in the present invention.

Claims (5)

1. an intelligent glass screening system, it is characterized in that: comprise first two-way (1), unidirectional (2) and second two-way (3), first two-way (1) is mounted on the glass mouth of glass cleaning machine (4), first two-way (1) comprises the first feed roller assembly (11) and the first load-transfer device assembly (12), the throughput direction of this first feed roller assembly (11) is consistent with the glass outbound course of glass cleaning machine (4), the throughput direction of the first load-transfer device assembly (12) is vertical with the throughput direction of the first feed roller assembly (11), second two-way (3) are mounted on the glass input end of the transport platform (5) of glass tempering furnace front end, second two-way (3) comprise the second feed roller assembly (31) and the second load-transfer device assembly (32), the throughput direction of the second feed roller assembly (31) is consistent with the glass input direction of the transport platform (5) of glass tempering furnace front end, the throughput direction of the second load-transfer device assembly (32) is vertical with the throughput direction of the second feed roller assembly (31) and consistent with first load-transfer device assembly (12) throughput direction of first two-way (1), unidirectional (2) are mounted between first two-way (1) and second two-way (3), unidirectional (2) comprise the 3rd load-transfer device assembly (21), and the throughput direction of the 3rd load-transfer device assembly (21) is consistent with the throughput direction of the first load-transfer device assembly (12), the second load-transfer device assembly (32).

2. intelligent glass screening system as claimed in claim 1, it is characterized in that: described first load-transfer device assembly (12), second load-transfer device assembly (32) and the 3rd load-transfer device assembly (21) comprise motor (60), reductor (61), drive sprocket (62), driven sprocket (63), transmission shaft (64), conveyer belt apparatus (65) and conveyer belt apparatus erecting frame (66), the output shaft of motor (60) is fixedly connected with the input end of reductor (61), drive sprocket (62) is fixed on the output shaft end of reductor (61), driven sprocket (63) is connected by chain gear with drive sprocket (62), driven sprocket (63) is fixed on transmission shaft (64), conveyer belt apparatus (65) is in transmission connection by transmission shaft (64) and driven sprocket (63), more conveyer belt apparatus (65) is arranged and is fixed on conveyer belt apparatus erecting frame (66) side by side, motor (60) and reductor (61) are fixed on conveyer belt apparatus erecting frame (66).

3. intelligent glass screening system as claimed in claim 2, it is characterized in that: described conveyer belt apparatus (65) comprises rolling bearing units (651), first belt pulley (652), belt conveyor (653), second belt pulley (654), belt support beam (655) and connecting panel (656), rolling bearing units (651) are fixed on transmission shaft (64), first belt pulley (652) is fixed on transmission shaft (64) and is positioned at rolling bearing units (651) side, belt conveyor (653) two ends are in transmission connection with the first belt pulley (652) and the second belt pulley (654) respectively, belt support beam (655) is fixed on conveyer belt apparatus erecting frame (66) and is positioned at the first belt pulley (652), between second belt pulley (654) and belt conveyor (653) inner side, belt support beam (655) one end is fixedly connected with rolling bearing units (651) by connecting panel (656), the other end is fixedly connected with the second belt pulley (654) by connecting panel (656).

4. intelligent glass screening system as claimed in claim 2, it is characterized in that: described conveyer belt apparatus erecting frame (66) comprises main frame body (661) and lifting mechanism (662), motor (60), reductor (61) and conveyer belt apparatus (65) are fixed on main frame body (661), lifting mechanism (662) is mounted on main frame body (661) below, lifting mechanism (662) comprises underframe (662a), air cylinder fixed plate (662b), cylinder (662c), lifting shaft (662d) and elevator (662e), air cylinder fixed plate (662b) is fixedly connected with underframe (662a), the cylinder body of cylinder (662c) is fixed in air cylinder fixed plate (662b), lifting shaft (662d) two ends are fixed on underframe (662a) by bearing, the piston rod of cylinder (662c) is fixedly connected with the axle body of lifting shaft (662d), elevator (662e) is fixed on the two ends of lifting shaft (662d), elevator (662e) is fixedly connected with the bottom of main frame body (661).

5. intelligent glass screening system as claimed in claim 2, it is characterized in that: described conveyer belt apparatus erecting frame (66) comprises main frame body (661) and arrangement for adjusting height (663), motor (60), reductor (61) and conveyer belt apparatus (65) are fixed on main frame body (661), arrangement for adjusting height (663) is mounted on the bottom of main frame body (661), arrangement for adjusting height (663) comprises sole (663a), adjusting bolt (663b), lower setting nut (663c), upper setting nut (663d) and adapter plate (663e), adjusting bolt (663b) one end is fixed on sole (663a), the other end is fixedly connected with adapter plate (663e), adapter plate (663e) is fixedly connected on the lower end of main frame body (661), lower setting nut (663c) is fixed in adjusting bolt (663b) and is positioned at adapter plate (663e) lower end, upper setting nut (663d) is fixed in adjusting bolt (663b) and is positioned at adapter plate (663e) upper end.