CN109733863B - Glass sheet gliding storage device on glass production line - Google Patents

Abstract

The invention discloses a glass sheet downward sliding storage device on a glass production line, which comprises a support, an inclined downward sliding device and an inclined support device, wherein a pair of middle connecting plates are formed between support plates of a left support and a right support, the inclined downward sliding device comprises an L-shaped center support plate and a pair of auxiliary support plates, the left end of a horizontal part of the center support plate is pivoted on the pair of middle connecting plates and is arranged in an equiangular positive and negative intermittent rotating mode, a plurality of center rollers which are uniformly distributed on the left and right are arranged on the upper end surface of the horizontal part of the center support plate in a rotating mode, a vertical part of the center support plate is positioned at the right end of the upper end surface of the horizontal part and is provided with horizontal through holes which glass sheets can pass through in a left and right penetrating mode, the lower side wall surface of each horizontal through hole is flush with the upper side horizontal section of the center roller, and a stop plate is arranged at the right end of each horizontal.

Description

Glass sheet gliding storage device on glass production line

Technical Field

The invention relates to glass production and manufacturing equipment, in particular to a glass sheet downslide storage device on a glass production line.

Background

At present, in a glass deep processing production line, raw glass is conveyed to a stacking area of the production line for stacking and boxing through the processes of loading, edging, cleaning, drying, coating and the like. According to the requirements of the production process of the coated glass deep processing production line, because the processing speeds of all the working procedures are different, when a certain part of the production line breaks down, the glass processed in the previous working procedure cannot pass through, time needs to be reserved for fault treatment, the beat of the production line is adjusted, the problem of collision and the like is avoided, the production efficiency of the whole production line is reduced, and therefore the production line has certain sheet storage capacity and has a buffering effect. The common method comprises the following steps: firstly, a glass moving-out roller way is arranged on a production line connecting line, a pneumatic floating platform is arranged beside the connecting line, and the moving-out roller way and the pneumatic floating platform are linked to manually store and discharge sheets and adjust the connecting line time sequence. However, the glass is inconvenient to move out of the roller way, the pneumatic floating platform and other equipment, the cost is high, frequent maintenance is needed, manual operation is needed to be matched with the equipment to operate, the labor intensity of workers is increased, and the probability of glass damage is low. II, secondly: emergency shut down of the production line with the glass sheets to be struck resting in their respective stations generally results in reduced capacity and is not suitable for use in some equipment that cannot be shut down.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides a glass sheet downward sliding storage device on a glass production line, which is transferred to an inclined support device through the inclination change of a central support plate when the production line fails, does not need to stop and is reasonable in layout.

The technical scheme includes that the glass sheet downward sliding storage device on a glass production line comprises a support, an inclined downward sliding device and an inclined supporting device, the support comprises a left support and a right support, the left support and the right support both comprise supporting plates, a plurality of conveying rollers are rotatably arranged on the upper end face of each supporting plate, a plurality of supporting feet which are uniformly distributed are arranged on the lower end face of each supporting plate, a pair of vertically arranged middle connecting plates which are symmetrically arranged in front and back are formed between the supporting plates of the left support and the right support, the inclined downward sliding device comprises an L-shaped center supporting plate and a pair of auxiliary supporting plates, the left end of the horizontal portion of the center supporting plate is pivotally connected to the pair of middle connecting plates and is in positive and negative intermittent rotating arrangement at equal angles, a plurality of horizontally uniformly distributed center rollers are arranged on the upper end face of the horizontal portion of the center supporting plate, the vertical portion of the center supporting plate is positioned at the right end face of the upper end face of the horizontal portion and is provided with a horizontal through hole which a glass sheet penetrates, the lower side wall face of the horizontal through hole is flush with the upper side horizontal section of the upper side face of the center roller, a stop plate is arranged at the right end face of the horizontal through hole, a pair of the auxiliary supporting plates is arranged in a horizontal through-to-horizontal through hole, a horizontal through manner, the horizontal supporting plates is arranged on the horizontal supporting plates, the horizontal.

Preferably, a rotary driving motor is fixed at the left lower end of each of the pair of intermediate connecting plates; an output shaft of the rotary driving motor is fixedly connected with a rotary central shaft of the central supporting plate.

Preferably, the right end of the lower side wall surface of the horizontal perforation is formed with a receiving groove for inserting the blocking plate; a lifting blocking cylinder is fixed on the bottom surface of the accommodating groove; the barrier plate is fixed on the upper end of a piston rod of the lifting barrier cylinder.

Preferably, the pair of intermediate connecting plates is formed with a pair of front and rear guide rods arranged in bilateral symmetry; the pair of auxiliary supporting plates are sleeved on the pair of front and rear guide rods in a front-and-rear mode; a front driving threaded rod and a rear driving threaded rod are pivoted between the pair of middle connecting plates; a front driving motor and a rear driving motor are fixed on the rear end surface of the middle connecting plate at the rear side; an output shaft of the front and rear driving motors is fixedly connected with the rear end of the front and rear driving threaded rod; the front part and the rear part of the front and rear driving threaded rod are respectively provided with a threaded part with opposite rotation directions; a pair of auxiliary support plates are screwed to different screw portions of the front and rear drive screw rods.

Preferably, a vertical reinforcing plate is formed on the lower end face of the glass sheet placing plate; the lower end of the reinforcing plate is fixed on the upper end face of the inclined supporting plate.

Preferably, the lower end surface of the glass sheet placing plate is provided with a plurality of driving wheels which are intermittently and rotatably arranged.

The invention has the beneficial effects that: when the production line breaks down, the inclined supporting device is transferred to through the inclination change of the central supporting plate, the machine does not need to be stopped, and the layout is reasonable.

Drawings

FIG. 1 is a schematic structural view of a cross section of the present invention in a normal operation state;

fig. 2 is a schematic structural view of a cross section during oblique transition according to the present invention.

In the figure, 10, the stent; 11. a support plate; 12. a conveying roller; 13. a conveying roller; 14. an intermediate connection plate; 15. a front and rear guide bar; 20. a tilt and slide down device; 21. a center support plate; 210. horizontally perforating; 211. a receiving groove; 212. a lifting blocking cylinder; 213. a blocking plate; 22. a central roller; 23. an auxiliary support plate; 24. an auxiliary roller; 25. driving the threaded rod back and forth; 30. a tilt support device; 31. inclining the support plate; 32. a drive wheel; 33. a glass sheet placement plate; 331. a glass sheet abutment plate; 332. a reinforcing plate.

Detailed Description

As shown in figures 1 and 2, the glass sheet downward sliding storage device on a glass production line comprises a support frame 10, an inclined downward sliding device 20 and an inclined support device 30, wherein the support frame 10 comprises a left support frame and a right support frame, the left support frame and the right support frame both comprise a support plate 11, a plurality of conveying rollers 13 are rotatably arranged on the upper end surface of the support plate 11, a plurality of uniformly distributed support feet 12 are arranged on the lower end surface, a pair of vertically arranged middle connecting plates 14 which are symmetrically arranged in a front-back mode are formed between the support plates 11 of the left support frame and the right support frame, the inclined downward sliding device 20 comprises an L-shaped center support plate 21 and a pair of auxiliary support plates 23, the left end of the horizontal part of the center support plate 21 is pivoted on the pair of middle connecting plates 14 and is arranged in a positive and negative intermittent rotating mode at equal angles, a plurality of rotatably arranged center rollers 22 which are uniformly distributed in a left-right mode are arranged on the upper end surface of the horizontal part of the center support plate 21, a horizontal part of the center support plate 21 is positioned at the right end surface of the upper end surface of the horizontal part and is formed with a horizontal part provided with a horizontal part which a horizontal through hole 210 for the glass sheet to pass through, the horizontal part of the center supporting plate 22, a pair of the horizontal part is positioned at the upper end surface of the center supporting plate 23, a horizontal part of the center supporting plate 21 is positioned at the center supporting plate, a horizontal part of the center supporting plate 23 is positioned at the center supporting plate, a horizontal part of the center supporting plate 23, a horizontal part of the center supporting plate 23 is positioned at the center supporting plate 23, a horizontal part of the horizontal part 23.

As shown in fig. 1 and 2, a rotary driving motor is fixed to the left lower ends of the pair of intermediate connecting plates 14; an output shaft of the rotation driving motor is fixedly connected with a rotation central shaft of the central support plate 21.

As shown in fig. 1 and 2, a receiving groove 211 into which the blocking plate 213 is inserted is formed at the right end of the lower side wall surface of the horizontal through hole 210; a lifting blocking cylinder 212 is fixed on the bottom surface of the accommodating groove 211; the blocking plate 213 is fixed to the upper end of the piston rod of the elevation blocking cylinder 212.

As shown in fig. 1 and 2, a pair of front and rear guide rods 15 are formed on the pair of intermediate connecting plates 14; the pair of auxiliary supporting plates 23 are sleeved on the pair of front and rear guide rods 15 from front to rear; a front and rear driving threaded rod 25 is pivoted between the pair of intermediate connecting plates 14; a front driving motor and a rear driving motor are fixed on the rear end face of the middle connecting plate 14 on the rear side; the output shaft of the front and rear driving motor is fixedly connected with the rear end of the front and rear driving threaded rod 25; screw portions with opposite rotation directions are formed on the front and rear portions of the front and rear drive screw rod 25; the pair of auxiliary support plates 23 are screwed to different screw portions of the front and rear drive screw rods 25.

As shown in fig. 1 and 2, a reinforcing plate 332 in a vertical state is formed on the lower end surface of the glass sheet placing plate 33; the lower end of the reinforcing plate 332 is fixed to the upper end surface of the inclined support plate 31.

As shown in fig. 1 and 2, a plurality of intermittently rotatably driven wheels 32 are provided on the lower end surface of the glass sheet placing plate 33.

The working principle of the glass sheet gliding storage device on the glass production line is as follows:

in a normal working state, the horizontal portion of the central support plate 21 is in a horizontal state, and the upper end surface of the blocking plate 213 is flush with the lower side wall surface of the horizontal through hole 210; the auxiliary rollers 24 on the front and rear sides approach;

when the glass production line is out of order and does not need to stop, the stop plate 213 rises, when the right end of the glass sheet is inserted into the right end face of the horizontal perforation 210, the central roller 22 stops rotating, then the auxiliary rollers 24 on the front side and the rear side synchronously keep away from the range of the glass sheet, then, the center support plate 21 is rotated at a certain angle along the indicating needle, while the inclined support plate 31 is moved at a certain interval to the left, the lower side wall surface of the horizontal through hole 210 of the center support plate 21 thus inclined is on the same inclined surface as the upper end surface of one of the glass sheet seating plates 33, at this time, the auxiliary rollers 24 on the front and rear sides come close to the rollers for supporting the subsequent glass sheet again, and then the stopper plate 213 is lowered and reset, then the central roller 22 is started again to drive the glass sheet to slide downwards along the glass sheet placing plate 33 until the lower end abuts against the glass sheet abutting plate 331, and finally the central support plate 21 rotates anticlockwise to reset; thus, the glass sheet is intermittently transferred obliquely according to the above principle.

The above description is only a preferred embodiment of the present invention, and for those skilled in the art, the present invention should not be limited by the description herein, since various changes and modifications can be made in the details of the embodiment and the application range according to the spirit of the present invention.

Claims (5)

1. A glass sheet sliding storage device on a glass production line is characterized by comprising a support (10), an inclined sliding device (20) and an inclined support device (30), wherein the support (10) comprises a left support and a right support, both the left support and the right support comprise support plates (11), a plurality of conveying rollers (13) are rotatably arranged on the upper end surface of the support plate (11), a plurality of uniformly distributed support feet (12) are arranged on the lower end surface, a pair of vertically arranged middle connecting plates (14) which are symmetrically arranged front and back are formed between the support plates (11) of the left support and the right support, the inclined sliding device (20) comprises an L-shaped center support plate (21) and a pair of auxiliary support plates (23), the left end of the horizontal part of the center support plate (21) is pivotally connected to the pair of middle connecting plates (14) and is arranged in an equiangular forward and backward intermittent rotating manner, a plurality of rotatably arranged center rollers (22) which are uniformly arranged left and right are arranged on the upper end surface of the horizontal part of the center supporting plate (21), a plurality of horizontally arranged center supporting plates (21) which are positioned on the right end surface of the vertical part of the upper end surface of the center supporting plate (21) and are positioned on the right end surface of the upper end surface of the center connecting plate (14) of the center supporting plate (23), a horizontal part of the center supporting plate (23), a pair of the center supporting plate (23) which is positioned on the center supporting plate (23), a horizontal surface of the center supporting plate (23), a pair of the center supporting plate (23) which is positioned on which is positioned horizontally arranged horizontally and a horizontal surface of the center supporting plate (23), a pair of the center supporting plate (23), a horizontal surface of the center supporting plate (23), a pair of the center supporting plate (23) which is positioned horizontally arranged horizontally inclined plane (23), a pair of the center supporting plate (23) which is positioned horizontally inclined plane (23), a pair of the center supporting plate (23) which is positioned horizontally;

a pair of front and rear guide rods (15) which are arranged in bilateral symmetry are formed on the pair of middle connecting plates (14); the pair of auxiliary supporting plates (23) are sleeved on the pair of front and rear guide rods (15) in a front and rear manner; a front and back driving threaded rod (25) is pivoted between the pair of middle connecting plates (14); a front and a rear driving motors are fixed on the rear end surface of the middle connecting plate (14) at the rear side; the output shaft of the front and rear driving motor is fixedly connected with the rear end of the front and rear driving threaded rod (25); the front and the rear parts of the front and the rear driving threaded rods (25) are respectively provided with threaded parts with opposite rotation directions; a pair of auxiliary support plates (23) are screwed to different screw portions of the front and rear drive screw rods (25).

2. A glass sheet downslide storage device as claimed in claim 1 wherein: the left lower ends of the pair of middle connecting plates (14) are fixed with rotary driving motors; the output shaft of the rotary driving motor is fixedly connected with the rotary central shaft of the central support plate (21).

3. A glass sheet downslide storage device as claimed in claim 1 wherein: a receiving groove (211) for inserting the blocking plate (213) is formed at the right end of the lower side wall surface of the horizontal through hole (210); a lifting blocking cylinder (212) is fixed on the bottom surface of the accommodating groove (211); the blocking plate (213) is fixed on the upper end of the piston rod of the lifting blocking cylinder (212).

4. A glass sheet downslide storage device as claimed in claim 1 wherein: a reinforcing plate (332) in a vertical state is formed on the lower end face of the glass sheet placing plate (33); the lower end of the reinforcing plate (332) is fixed to the upper end face of the inclined support plate (31).

5. A glass sheet downslide storage device as claimed in claim 1 wherein: the lower end surface of the glass sheet placing plate (33) is provided with a plurality of driving wheels (32) which are intermittently and rotationally arranged.

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