CN219005562U - Right-angle glass plate rounding processing equipment - Google Patents

Abstract

The utility model relates to a right angle glass board chamfer processing equipment relates to the field that glass board was polished, and it is including being used for supplying lower conveyer belt, the last conveyer belt that the glass board placed, be used for carrying out polishing to the side of glass board mechanism and elastic mechanism, go up the conveyer belt with form the extrusion clearance that supplies the glass board to slide through down between the conveyer belt, elastic mechanism has the belt portion that will go up the conveyer belt to compress tightly the elastic potential energy on the glass board. The application has the effect that the glass plate is more stable to improve the polishing effect in the polishing process of the glass plate.

Description

Right-angle glass plate rounding processing equipment

Technical Field

The application relates to the field of glass plate polishing, in particular to right-angle glass plate rounding processing equipment.

Background

Glass processing factory is carrying out the in-process of processing to the glass board, firstly cuts into a plurality of glass boards that the area is littleer with large-scale glass board, and the side edge of glass board is right angle side edge this moment, and is more sharp-pointed, fish tail people's limbs easily, so adopts glass board chamfer processing equipment often.

In the related art, glass plate chamfer processing equipment is including being used for carrying out the conveyer belt of transportation to the glass plate, be used for carrying out the grinding machanism of polishing to the side of glass plate, and grinding machanism is provided with two, and two grinding machanism are located the both sides of conveyer belt respectively. The polishing mechanism comprises a mounting frame, a rotating motor arranged on the mounting frame and a grinding wheel which rotates synchronously with an output shaft of the rotating motor. The grinding wheel is provided with a grinding groove for embedding the side edge of the glass plate.

In the process of polishing the glass plate, the glass plate is firstly placed on a conveyor belt, then the side edge of the glass plate slides into a polishing groove of the grinding wheel, and the side edge of the glass plate is polished by the rotating grinding wheel.

With respect to the related art in the above, the inventors found the following drawbacks: in the process of abutting friction between the grinding wheel and the glass plate, the glass plate can vibrate to a certain extent, so that the polishing process is not stable enough, the polishing depth is uneven, and the chamfering effect is poor.

Disclosure of Invention

In order to enable the polishing process of the glass plate, the glass plate is more stable so as to improve polishing effect, and the right-angle glass plate chamfering processing equipment is provided.

The application provides a right angle glass board chamfer processing equipment adopts following technical scheme:

the utility model provides a right angle glass board chamfer processing equipment, is including being used for supplying lower conveyer belt, the last conveyer belt that the glass board placed, be used for polishing mechanism and the elastic mechanism of polishing to the side of glass board, go up the conveyer belt with form the extrusion clearance that supplies the glass board to slide the pass through down between the conveyer belt, elastic mechanism has the belt portion of going up the conveyer belt and compresses tightly the elastic potential energy on the glass board.

Through adopting above-mentioned technical scheme, at the in-process of polishing to the glass board, put into the extrusion clearance earlier with the glass board in, polishing mechanism polishes the side of glass board. At this time, the elastic mechanism extrudes the belt part of the upper conveying belt, so that the glass plate on the lower conveying belt is pressed, the glass plate is more stable in the polishing process, and the polishing effect on the glass plate is improved. At the same time, the occurrence of partial breakage of the glass plate due to vibration of the glass plate is reduced.

Optionally, the elastic mechanism includes the mounting panel and set up in the extrusion spring of mounting panel bottom, extrusion spring is located go up the conveyer belt in, extrusion spring's bottom with go up the belt portion looks butt of conveyer belt.

Through adopting above-mentioned technical scheme, through setting up extrusion spring, the belt portion that makes the upper conveyor belt can last extrusion glass board, makes the position of glass board more stable. Meanwhile, the elastic extrusion is applied to the glass plate, so that the glass plate is less prone to being broken due to polishing vibration.

Optionally, an abutting ball abutting against the belt part of the upper conveyor belt is arranged at the bottom of the extrusion spring.

Through adopting above-mentioned technical scheme, through setting up the butt ball, reduced the area of contact between the belt portion of extrusion spring and last conveyer belt to reduce the friction loss between extrusion spring and the last conveyer belt, make the rotation of going up the conveyer belt more smooth and easy simultaneously.

Optionally, an abutment wheel is provided at the bottom of the compression spring to abut against the belt portion of the upper conveyor belt.

Through adopting above-mentioned technical scheme, rotate sliding friction into rolling friction, reduce the friction loss to last conveyer belt between, make the rotation of going up the conveyer belt more smooth and easy simultaneously.

Optionally, a guide rod penetrating through the extrusion spring is arranged on the mounting plate.

By adopting the technical scheme, the expansion and contraction of the extrusion spring can be carried out along the length direction of the guide rod, so that the extrusion spring is not easy to incline.

Optionally, the polishing mechanism comprises a rotating motor, a driving gear which rotates synchronously with an output shaft of the rotating motor, and a grinding wheel assembly;

the grinding wheel assembly comprises a plurality of grinding wheels and a plurality of reversing gears, a rotating rod is arranged on the grinding wheels, driven gears are arranged on the rotating rod, the driving gear is meshed with one of the driven gears or is in reversing gear transmission, and the reversing gears are located between two adjacent driven gears and are meshed with the two driven gears for transmission.

Through adopting above-mentioned technical scheme, through setting up the emery wheel subassembly, make a rotation motor can drive the rotation to a plurality of emery wheels of polishing. Meanwhile, through the arrangement of the reversing gears, a plurality of grinding wheels can rotate along the same direction, and then the grinding wheels can play a role in pushing the movement of the glass plate.

Optionally, the rotary rod further comprises a base, a rotary bearing is arranged on the rotary rod, and a bearing groove for embedding the rotary bearing is formed in the base.

Through adopting above-mentioned technical scheme, make dwang and the rotation of grinding wheel more smooth and easy.

Optionally, the device further comprises a base, wherein a support column is arranged on the base, a mounting table is arranged on the support column, and the mounting plate is vertically slidably mounted on the mounting table.

Through adopting above-mentioned technical scheme, through the height of adjusting the mounting panel, can adjust extrusion spring's height, and then adjust extrusion spring's flexible volume, adjust extrusion spring to the extrusion power of glass board, make the glass board be difficult for appearing extrudeing broken condition.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the belt part of the upper transmission belt can squeeze the glass plate by arranging the upper transmission belt and the elastic mechanism, so that the position of the glass plate is more stable, and the polishing effect is improved;

2. through setting up rotation motor and emery wheel subassembly, make a rotation motor can drive a plurality of emery wheels of polishing and rotate, make a plurality of emery wheels of polishing rotate along same direction, and then make the emery wheel of polishing can play certain promotion effect to the removal of glass board;

3. through the vertical height adjustment to the mounting panel, adjust extrusion spring's flexible volume, and then adjust extrusion spring's extrusion force, the broken condition of extrusion is difficult for appearing in messenger's glass board.

Drawings

FIG. 1 is a schematic view of the structure of a finished glass sheet in an embodiment of the present application.

Fig. 2 is a schematic view of the overall structure of the right-angle glass plate chamfering processing apparatus in the embodiment of the present application.

Fig. 3 is a schematic partial structural view of a right angle glass sheet chamfering apparatus in an embodiment of the present application.

Fig. 4 is a schematic structural view of the elastic mechanism, the polishing mechanism, the base, and the mounting table in the embodiment of the present application.

Fig. 5 is a schematic view of a pressing spring and an abutting ball according to another embodiment.

Fig. 6 is a schematic view of the overall structure of the base and the polishing mechanism according to the embodiment of the present application.

Fig. 7 is an exploded view of a grinding wheel, reversing gear and base in an embodiment of the present application.

Reference numerals illustrate: 1. a base; 11. a support column; 12. a mounting table; 121. a slip groove; 13. an adjusting plate; 131. a guide post; 14. adjusting a screw rod; 15. adjusting a bearing; 16. a bearing groove; 2. an upper conveyor belt; 3. a lower conveyor belt; 4. a polishing mechanism; 41. a rotating motor; 42. a drive gear; 43. a grinding wheel assembly; 44. grinding the grinding wheel; 441. grinding the groove; 45. a reversing gear; 451. a reversing lever; 452. a reversing bearing; 46. a rotating lever; 47. a driven gear; 48. a rotating bearing; 5. an elastic mechanism; 51. a mounting plate; 511. a guide rod; 512. a guide hole; 52. extruding a spring; 53. a cross plate; 54. an abutment wheel; 55. abutting the ball; 6. a glass plate; 61. chamfering; 7. the gap is pressed.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-7.

The embodiment of the application discloses right angle glass board chamfer processing equipment. Referring to fig. 1, a right angle glass sheet chamfering apparatus is used to grind right angle side edges of a glass sheet 6 to form a chamfer 61.

Referring to fig. 2 and 3, the right angle glass plate chamfering apparatus includes a base 1, an upper conveyor 2, a lower conveyor 3, a polishing mechanism 4, and an elastic mechanism 5. The upper conveyor belt 2 and the lower conveyor belt 3 are respectively provided with two groups, and the polishing mechanism 4 and the elastic mechanism 5 are respectively provided with two groups correspondingly. The glass plate 6 is placed on the two lower conveyor belts 3, and one side opposite sides of the glass plate 6 are respectively protruded out of the two lower conveyor belts 3, so that the polishing mechanism 4 can polish the sides of the glass plate 6 to form rounded corners 61. In the present embodiment, the rotation direction of the upper conveyor belt 2 is opposite to the rotation direction of the lower conveyor belt 3, for example, when the lower conveyor belt 3 rotates clockwise, the upper conveyor belt 2 rotates counterclockwise. A pressing gap 7 through which the glass sheet 6 slides is formed between the upper conveyor belt 2 and the lower conveyor belt 3. The elastic mechanism 5 has elastic potential energy for pressing the belt portion of the upper conveyor belt 2 against the glass plate 6.

Under the action of the elastic mechanism 5, the belt part of the upper conveyor belt 2 extrudes the glass plate 6 on the lower conveyor belt 3, so that the position of the glass plate 6 is more stable in the polishing process, the uneven polishing caused by vibration of the glass plate 6 is reduced, and the polishing effect of the glass plate 6 is improved. While protecting the glass plate 6 from local breakage.

Referring to fig. 2 and 3, a support column 11 is welded and fixed to the base 1, and a mounting table 12 is welded and fixed to the support column 11. The elastic mechanism 5 comprises a mounting plate 51 arranged on the mounting table 12 and a plurality of pressing springs 52 welded and fixed at the bottom of the mounting plate 51. The plurality of pressing springs 52 are disposed at intervals along the length direction of the upper conveyor belt 2. The pressing spring 52 is located inside the belt portion of the upper conveyor belt 2. The bottom of the pressing spring 52 abuts against the belt portion of the upper conveyor 2, so that the belt portion of the upper conveyor 2 presses the glass plate 6 on the lower conveyor 3.

By providing the pressing springs 52, the upper conveyor 2 is elastically pressed against the glass sheet 6, so that the upper conveyor 2 can continuously press the glass sheet 6. While the upper conveyor 2 is caused to push the movement of the glass sheet 6.

Referring to fig. 4, a cross plate 53 is welded and fixed to the bottom of the pressing spring 52, and an abutment wheel 54 that abuts against the belt portion of the upper conveyor 2 is provided to the bottom of the cross plate 53. By providing the abutting wheel 54, the pressing sliding friction between the pressing spring 52 and the upper conveyor belt 2 is rotated into rolling friction, thereby reducing the pressing abrasion to the belt portion of the upper conveyor belt 2 and making the rotation process of the upper conveyor belt 2 smoother.

Referring to fig. 5, in another embodiment, an abutment ball 55 that abuts against the belt portion of the upper conveyor belt 2 may be welded and fixed to the bottom of the pressing spring 52. By reducing the contact area, the effect of reducing the friction between the pressing spring 52 and the upper belt 2 is also achieved.

Referring to fig. 4, a guide rod 511 penetrating inside the pressing spring 52 is welded to the bottom of the mounting plate 51, thereby guiding the telescopic movement of the pressing spring 52.

Referring to fig. 3 and 4, the mounting plate 51 may be welded to the mounting plate 12 or may be movably disposed on the mounting plate 12. In this embodiment, the mounting plate 51 is slidably disposed on the mounting table 12 along the vertical direction, specifically as follows:

referring to fig. 3 and 4, an adjusting plate 13 is welded and fixed to a side edge of the mounting table 12, the adjusting plate 13 is located below the mounting plate 51, a sliding groove 121 for vertically sliding the mounting plate 51 is formed in the side edge of the mounting table 12, and the sliding groove 121 is communicated with a top side wall of the mounting table 12. An adjusting screw 14 is vertically arranged on the mounting plate 51, and the adjusting screw 14 is in threaded connection with the mounting plate 51. An adjusting bearing 15 is fixedly welded on the circumferential outer side wall of the adjusting screw 14, and the outer ring of the adjusting bearing 15 is fixedly welded on the adjusting plate 13, so that the adjusting screw 14 can be rotatably arranged in the adjusting plate 13 in a penetrating manner, and the adjusting screw 14 does not generate relative sliding movement with the adjusting plate 13 in the vertical direction.

Referring to fig. 3 and 4, when the height of the mounting plate 51 is adjusted, the adjusting screw 14 is rotated, the adjusting screw 14 and the adjusting plate 13 are relatively rotated, and the adjusting screw 14 does not slide vertically due to the limit function of the adjusting bearing 15. At this time, due to the limiting action of the groove wall of the sliding groove 121 on the mounting plate 51, the mounting plate 51 cannot rotate along with the adjusting screw 14 and can only slide up and down in the vertical direction.

By adjusting the height of the mounting plate 51 and the height of the extrusion spring 52, the length of the extrusion spring 52 is adjusted, so that the extrusion spring 52 is not easy to crush the glass plate 6 on the lower conveyor belt 3.

Meanwhile, a plurality of guide posts 131 are welded and fixed on the adjusting plate 13, and guide holes 512 for sliding and penetrating the guide posts 131 are formed in the mounting plate 51. Thereby further guiding the vertical sliding movement of the mounting plate 51.

Referring to fig. 6 and 7, the grinding mechanism 4 includes a rotary motor 41, a driving gear 42 coaxially welded to an output shaft of the rotary motor 41, and a grinding wheel assembly 43. The grinding wheel assembly 43 comprises a plurality of grinding wheels 44 and a plurality of reversing gears 45, a rotating rod 46 is coaxially welded on the grinding wheels 44, a driven gear 47 is coaxially welded on the rotating rod 46, and the driven gear 47 is positioned below the grinding wheels 44. The reversing gear 45 is located between two adjacent driven gears 47 and is in meshed transmission with the two driven gears 47. The driving gear 42 is in mesh with one of the driven gears 47 or in mesh with one of the reversing gears 45. In this embodiment, the driving gear 42 is meshed with one of the reversing gears 45, so that the rotation driving of one rotation motor 41 to a plurality of grinding wheels 44 is realized by the meshing transmission principle of the gears. Meanwhile, the reversing gears 45 are arranged to serve as intermediate transmission gears, so that the rotation directions of the polishing grinding wheels 44 can be kept consistent, and the polishing grinding wheels 44 play a certain driving role in polishing the glass plate 6 and simultaneously playing a role in moving the glass plate 6. Wherein, the circumferential outer side wall of the grinding wheel 44 is provided with a grinding groove 441 for embedding the side edge of the glass plate 6.

Referring to fig. 6 and 7, a rotation bearing 48 is coaxially welded to the rotation lever 46, the rotation bearing 48 is positioned below the driven gear 47, and a bearing groove 16 into which the rotation bearing 48 is fitted is formed in the base 1. The outer ring of the rotating bearing 48 is welded and fixed with the base 1. The reversing gear 45 is coaxially welded with a reversing rod 451, a reversing bearing 452 is fixedly welded on the reversing rod 451, and the outer ring of the reversing bearing 452 is fixedly welded with the base 1, so that the reversing gear 45 is rotatably arranged on the base 1.

The implementation principle of the right-angle glass plate rounding processing equipment provided by the embodiment of the application is as follows: when polishing the side edges of the glass plate 6, the glass plate 6 is placed between the lower conveyor belt 3 and the upper conveyor belt 2, and the two side edges of the glass plate 6 are respectively abutted against the polishing grinding wheels 44 on the two sides, then the glass plate 6 moves in the extrusion gap 7 under the conveying action of the upper conveyor belt 2 and the lower conveyor belt 3, and the polishing grinding wheels 44 polish the side edges of the glass plate 6 to form rounded corners 61. In the polishing process, the elastic mechanism 5 extrudes the glass plate 6, so that the polishing process of the glass plate 6 is more stable, and the polishing effect on the glass plate 6 is improved.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. A right angle glass board chamfer processing equipment, its characterized in that: including being used for supplying lower conveyer belt (3) that glass board (6) placed, going up conveyer belt (2), being used for carrying out grinding machanism (4) and elastic mechanism (5) of polishing to the side of glass board (6), go up conveyer belt (2) with form between lower conveyer belt (3) and supply extrusion clearance (7) that glass board (6) slided and pass, elastic mechanism (5) have the belt portion of going up conveyer belt (2) compress tightly the elastic potential energy on glass board (6).

2. A right angle glass sheet rounding apparatus as in claim 1 wherein: the elastic mechanism (5) comprises a mounting plate (51) and an extrusion spring (52) arranged at the bottom of the mounting plate (51), the extrusion spring (52) is positioned in the upper conveyor belt (2), and the bottom of the extrusion spring (52) is abutted to the belt part of the upper conveyor belt (2).

3. A right angle glass sheet rounding apparatus as in claim 2 wherein: an abutting ball (55) which abuts against the belt part of the upper conveyor belt (2) is arranged at the bottom of the pressing spring (52).

4. A right angle glass sheet rounding apparatus as in claim 2 wherein: an abutting wheel (54) which is abutted with the belt part of the upper conveyor belt (2) is arranged at the bottom of the extrusion spring (52).

5. A right angle glass sheet rounding apparatus as in claim 2 wherein: the mounting plate (51) is provided with a guide rod (511) penetrating through the extrusion spring (52).

6. A right angle glass sheet rounding apparatus as in claim 1 wherein: the polishing mechanism (4) comprises a rotating motor (41), a driving gear (42) which rotates synchronously with an output shaft of the rotating motor (41) and a grinding wheel assembly (43);

the grinding wheel assembly (43) comprises a plurality of grinding wheels (44) and a plurality of reversing gears (45), wherein a rotating rod (46) is arranged on the grinding wheels (44), a driven gear (47) is arranged on the rotating rod (46), the driving gear (42) is in meshed transmission with one of the driven gears (47) or one of the reversing gears (45), and the reversing gears (45) are located between two adjacent driven gears (47) and are in meshed transmission with the two driven gears (47).

7. A right angle glass sheet rounding apparatus as in claim 6 wherein: the rotary shaft type hydraulic steering device further comprises a base (1), a rotary bearing (48) is arranged on the rotary shaft (46), and a bearing groove (16) in which the rotary bearing (48) is embedded is formed in the base (1).

8. A right angle glass sheet rounding apparatus as in claim 2 wherein: still include base (1), be provided with support column (11) on base (1), be provided with mount table (12) on support column (11), mounting panel (51) are vertical to be slided and install on mount table (12).

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