CN218284911U - Double-beveling machine - Google Patents

Abstract

The utility model provides a double-bevel edge machine relates to glass processing equipment technical field, frame, two chamfer processingequipment and bistrique. Compared with the prior art, the edge of the workpiece is clamped through the conveying mechanism in the two chamfering processing devices and the workpiece is driven to move on the conveying mechanism, the grinding head is adjusted through the lifting mechanism and the angle adjusting mechanism to process the edge of the workpiece at any oblique angle, so that the two edges of the glass sheet can be simultaneously subjected to chamfering processing, the four-edge chamfering processing of the glass sheet can be completed only by turning over once, the production cost of an enterprise can be greatly reduced, the floor area of equipment is reduced, and the processing efficiency of chamfering of the glass sheet is improved.

Description

Double-beveling machine

Technical Field

The utility model relates to a glass processing equipment technical field, concretely relates to double-bevel edge machine.

Background

At present, the periphery of the glass is finished by adopting a single side machine when a special angle (any angle or any size) needs to be chamfered.

However, the single-side machine can only chamfer one side at a time, after one side of the glass sheet is chamfered, the glass sheet needs to be conveyed forwards and pass through the turnover machine to automatically turn over the glass sheet by 90 degrees, then the glass sheet is conveyed to the next single-side machine to chamfer the second side of the glass sheet, and when four sides of the glass sheet need to be chamfered, the four sides can be chamfered only through four single-side machines and three turnover machines, so that the efficiency of the processing mode is low, the layout of the whole production line is too long, the occupied area of the equipment is large, and the production cost is too high.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a double-bevel edge machine aims at solving among the prior art and adds the inefficiency to the glass piece that needs the four sides chamfer, and processing lines takes up an area of big, the too high problem of manufacturing cost.

In order to achieve the above object, the utility model provides a double-beveling machine, include: a frame; the two chamfering devices are arranged on the rack at intervals, and one chamfering device can move and adjust the distance between the chamfering device and the other chamfering device; the chamfer processing device comprises a beam body, a conveying mechanism, a lifting mechanism and an angle adjusting mechanism; the conveying mechanism is arranged on the beam body through a support and used for clamping the edge of a workpiece and driving the workpiece to move on the conveying mechanism; the lifting mechanism is arranged on the beam body at the rear side of the conveying mechanism, two hinged arm plates which are oppositely arranged and can be synchronously lifted are arranged in the lifting mechanism, each hinged arm plate comprises a plate body and a hinged arm, an inclined plane which inclines downwards is arranged on each plate body, each hinged arm is inclined upwards from the bottom of each plate body, and an inclined groove is formed between each hinged arm and each plate body; the angle adjusting mechanism is arranged on the two hinge arm plates, an adjusting plate obliquely arranged on the inclined surface is arranged in the angle adjusting mechanism, the bottom of the adjusting plate is positioned in the inclined groove and is hinged and connected with one end of the hinge arm through a connecting arm, and the adjusting plate can be adjusted obliquely on the hinge arm; and the grinding heads are arranged on the adjusting plate and are used for chamfering the edge of the workpiece.

Furthermore, the lifting mechanism comprises the two hinged arm plates, a base and a lifting transmission assembly, the two hinged arm plates are vertically arranged on the left side and the right side of the base in a sliding mode, and the lifting transmission assembly is arranged on the rear side of the base, connected with the two hinged arm plates and used for driving the hinged arm plates to synchronously lift and move on the two sides of the base.

Further, lift drive assembly includes a gear motor, universal driving shaft, a passive speed reducer, first lead screw and nut seat, a gear motor fixed connection be in the rear side of base, the universal driving shaft is connected respectively first gear motor's both sides and quilt a gear motor drive rotates, a passive speed reducer is connected the one end of universal driving shaft, the one end of first lead screw with a passive speed reducer rotates perpendicularly to be connected, the nut seat cover is established on the first lead screw, the nut seat with the knuckle arm board links to each other.

Furthermore, the base is an L-shaped base, and reinforcing rib plates are arranged at corners of the base.

Further, angle adjustment mechanism includes regulating plate and second gear motor, the passive speed reducer of second, sliding seat and bearing frame, the passive speed reducer of second sets up relatively and aslope one side of plate body links to each other through the transmission shaft, be equipped with the second lead screw on the passive speed reducer of second, second gear motor and one of them the passive speed reducer of second links to each other, the sliding seat cover is established on the second lead screw and with the plate body is followed the extending direction sliding connection of second lead screw, sliding seat one side is equipped with the fixed axle, the bearing frame rotates to be connected on the fixed axle and with the back side sliding connection of regulating plate.

Furthermore, the conveying mechanism comprises an upper guide wheel pressing frame and a lower belt conveying frame which are arranged at an upper interval and a lower interval, the lower belt conveying frame is fixedly arranged on the support, and the upper guide wheel pressing frame is arranged on the support in a sliding manner along the vertical direction of the support through a synchronous lifter.

Furthermore, a guide pulley and a pressing block are arranged on the guide wheel pressing frame.

Further, the grinding head is arranged on the adjusting plate through an adjusting slide seat.

Furthermore, a feeding positioning device capable of being adjusted in a sliding mode is arranged at the feeding end, located on the conveying mechanism, of the beam body.

Furthermore, a bracket capable of moving and adjusting along the width direction of the rack is arranged on the rack between the two chamfering devices, and a sliding riding wheel is arranged on the bracket.

The utility model provides a double-bevel edge machine, compared in prior art, the edge of the tight work piece of conveying mechanism clamp through two chamfer processingequipment removes on conveying mechanism and drives the work piece, carry out the processing that can fall arbitrary oblique angle to the work piece edge through elevating system and angle adjustment mechanism adjustment bistrique, make can carry out chamfer processing simultaneously to two limits of glass piece, the four sides chamfer processing that only need the upset once can accomplish the glass piece, thereby can greatly reduced manufacturing cost of enterprise, reduce the area of equipment, the machining efficiency of glass piece chamfer is improved.

Drawings

FIG. 1 is a schematic structural view of a double beveling machine of the present invention;

FIG. 2 is a schematic view of a middle chamfer processing device according to the present invention;

FIG. 3 is a second schematic view of the middle chamfering device according to the present invention;

fig. 4 is a schematic view of a connection structure of the lifting mechanism and the angle adjusting mechanism of the present invention;

fig. 5 is a second schematic view of the connection structure of the lifting mechanism and the angle adjusting mechanism of the present invention;

fig. 6 is the schematic structural view of the adjusting plate for removing the lifting mechanism and the angle adjusting mechanism of the present invention.

Description of the reference numerals

10-a frame; 11-a bracket; 12-a sliding riding wheel;

20-chamfering device; 21-a beam body; 22-a support; 23-a feed positioning device;

30-a conveying mechanism; 31-an upper guide wheel pressing frame; 32-lower belt carriage; 33-a guide pulley; 34-a compression block;

40-a lifting mechanism; 41-articulated arm plate; 411-plate body; 4111-inclined plane; 412-a hinge arm; 413-an inclined groove; 42-a base; 421-reinforcing plate; 43-a first gear motor; 44-a linkage shaft; 45-a first passive reducer; 46-a first lead screw; 47-nut seat;

50-an angle adjustment mechanism; 51-an adjusting plate; 511-linker arm; 52-a second gear motor; 53-a second passive reducer; 54 a second lead screw; 55-sliding seat; 56-bearing seat;

60-grinding head.

Detailed Description

The present invention will be described in detail with reference to the following specific examples.

In the present invention, when directional words appear, for the purpose of facilitating the description of the invention and simplifying the description, it is not intended to indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and should not be construed as limiting the scope of the invention in any way.

In the present invention, unless otherwise expressly specified or limited, when terms such as "disposed on," "connected to," or "connected to" are present, these terms are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally connected; or may be a mechanical connection; the two elements can be directly connected or connected through an intermediate medium, and the two elements can be communicated with each other. The specific meaning of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

As shown in fig. 1 to 6, a double beveling machine includes a frame 10, two chamfering devices 20, and a grinding head 60. Two chamfering devices 20 are arranged on the frame 10 at intervals, wherein one chamfering device 20 can move to adjust the distance between the other chamfering device 20, so that the chamfering device is suitable for chamfering glass bottles with different widths.

The chamfering apparatus 20 includes a beam 21, a conveying mechanism 30, a lifting mechanism 40, and an angle adjusting mechanism 50. The conveying mechanism 30 is arranged on the beam body 21 through the support 22 and is used for clamping the edge of a workpiece, which is a glass sheet, and driving the workpiece to move on the conveying mechanism 30.

The lifting mechanism 40 is arranged on the beam body 21 at the rear side of the conveying mechanism 30, two opposite hinged arm plates 41 which can be synchronously lifted are arranged in the lifting mechanism 40, each hinged arm plate 41 comprises a plate body 411 and a hinged arm 412, a downward inclined slope 4111 is arranged on each plate body 411, each hinged arm 412 is arranged in an upward inclined mode from the bottom of each plate body 411, an inclined groove 413 is arranged between each hinged arm 412 and each plate body 411, and each inclined groove 413 is a V-shaped inclined groove 413.

The angle adjusting mechanism 50 is arranged on the two hinge arm plates 41 and can move up and down along with the hinge arm plates 41, an adjusting plate 51 obliquely arranged on the inclined surface 4111 is arranged in the angle adjusting mechanism 50, the bottom of the adjusting plate 51 is positioned in an inclined groove 413 and is hinged and connected with one end of the hinge arm 412 through a connecting arm 511, and the adjusting plate 51 can be adjusted on the hinge arm 412 at an inclined angle.

The grinding stones 60 are arranged on the adjusting plate 51 for chamfering the edges of the workpiece.

When the grinding head 60 is arranged on the adjusting plate 51, the adjusting plate 51 can adjust the inclination angle on the hinge arm 412, and can be driven by the lifting mechanism 40 to lift and adjust along with the hinge arm plate 41, the two side edges of the glass sheet are clamped by the conveying mechanisms 30 in the two chamfering processing devices 20 to be linearly conveyed and moved, in the process of linear conveying and moving, the lifting mechanism 40 and the angle adjusting mechanism 50 can be adjusted according to the chamfering size required to be processed, so that the glass sheet can be processed by the double-bevel edge machine, the required chamfering size is processed, compared with the single-edge machining mode in the prior art, the four-edge chamfering processing of the glass sheet can be completed by only turning over once, the production cost of enterprises can be greatly reduced, the floor area of equipment is reduced, and the processing efficiency of the chamfering of the glass sheet is improved.

In this embodiment, the lifting mechanism 40 includes two hinge arm plates 41, a base 42 and a lifting transmission assembly, the two hinge arm plates 41 are vertically slid and disposed at the left and right sides of the base 42, and specifically, the sliding mode is: sliding grooves are formed in two sides of the base 42, the hinge arm plates 41 are connected with the sliding grooves in a sliding mode through sliding blocks, and the lifting transmission assembly is arranged on the rear side of the base 42 and connected with the two hinge arm plates 41 and used for driving the hinge arm plates 41 to synchronously lift and move on the two sides of the base 42.

The lifting transmission assembly comprises a first speed reducing motor 43, a linkage shaft 44, a first passive speed reducer 45, a first screw rod 46 and a nut seat 47, the first speed reducing motor 43 is fixedly connected to the rear side of the base 42, the linkage shaft 44 is respectively connected to two sides of the first speed reducing motor 43 and driven to rotate by the first speed reducing motor 43, the first passive speed reducer 45 is connected to one end of the linkage shaft 44, one end of the first screw rod 46 is vertically and rotatably connected with the first passive speed reducer 45, the nut seat 47 is sleeved on the first screw rod 46, and the nut seat 47 is connected with the hinged arm plate 41.

In specific implementation, the first speed reducing motor 43 is started, the first passive speed reducers 45 on both sides are driven to work through the linkage shaft 44, the first passive speed reducers 45 enable the first screw rods 46 to rotate, and the first screw rods 46 rotate to drive the nut seats 47 to lift up and down, so that the hinge arm plates 41 on both sides of the base 42 are driven to slide up and down.

In this embodiment, the base 42 is an L-shaped base 42, and a reinforcing rib plate 421 is disposed at a corner of the base 42.

In this embodiment, the angle adjusting mechanism 50 includes an adjusting plate 51, a second speed reduction motor 52, a second passive speed reduction gear 53, a sliding seat 55 and a bearing seat 56, the second passive speed reduction gear 53 is oppositely and obliquely disposed on one side of the plate body 411 and connected through a transmission shaft, the second passive speed reduction gear 53 is provided with a second lead screw 54, the second speed reduction motor 52 is connected with one of the second passive speed reduction gears 53, the sliding seat 55 is sleeved on the second lead screw 54 and slidably connected with the plate body 411 along the extending direction of the second lead screw 54, one side of the sliding seat 55 is provided with a fixed shaft, and the bearing seat 56 is rotatably connected on the fixed shaft and slidably connected with the rear side of the adjusting plate 51.

Wherein, the plate body 411 is provided with a sliding groove, the sliding seat 55 is connected with the sliding groove through a sliding block, the rear side of the adjusting plate 51 is provided with a linear guide rail, and the bearing seat 56 is connected with the linear guide rail through a guide rail sliding block.

In specific implementation, the second reduction motor 52 is started, the second passive reduction gear 53 is rotated through the transmission shaft, the second passive reduction gear 53 rotates the second lead screw 54, the sliding seat 55 moves along the second lead screw 54 to drive the bearing seat 56 to slide behind the adjusting plate 51, and the adjusting plate 51 rotates on the hinge arm 412 by taking the hinged position of the connecting arm 511 and the hinge arm 412 as a rotation center, so as to achieve the purpose of adjusting the required angle.

In this embodiment, the conveying mechanism 30 includes an upper idler pressing frame 31 and a lower belt conveying frame 32 which are arranged at an interval from top to bottom, the lower belt conveying frame 32 is fixedly arranged on the support 22, and the upper idler pressing frame 31 is arranged on the support 22 by a synchronous lifter in a sliding manner along the vertical direction of the support 22. Wherein, the guide wheel hold-down frame is provided with a guide pulley 33 and a hold-down block 34. The conveying mechanism 30 is a conventional conveying mechanism 30 adopted in a single-side machine, and reference may be made to the conveying mechanism 30 of the single-side machine in the prior art, which is not described in detail herein.

In the present embodiment, the grinding head 60 is provided on the adjusting plate 51 through an adjusting slide for adjusting the feed size of the grinding head 60 for chamfering the side edge of the glass sheet.

In this embodiment, a slidably adjustable feeding positioning device 23 is disposed on the beam 21 at the feeding end of the conveying mechanism 30, and the feeding positioning device 23 is used for adjusting the width of the edge of the glass sheet clamped by the conveying mechanism 30, so as to be suitable for processing different chamfer sizes.

In this embodiment, be located between two chamfer processingequipment 20 and be equipped with the bracket 11 that can follow frame 10 width direction removal regulation on the frame 10, be equipped with slip riding wheel 12 on the bracket 11 for when the glass piece carries out chamfer processing, play the supporting role to the middle part of glass piece, avoid the glass piece middle part downwarping to damage.

The utility model provides a double-bevel edge machine, compare in prior art, the edge of tight work piece of conveying mechanism 30 clamp through two chamfer processingequipment 20 and drive the work piece and remove on conveying mechanism 30, adjust bistrique 60 through elevating system 40 and angle adjustment mechanism 50 and carry out the processing that can fall arbitrary oblique angle to the work piece edge, make two limits that can carry out simultaneous chamfer processing to the glass piece, only need the four sides chamfer processing that the glass piece can be accomplished to the upset once, thereby can greatly reduced enterprise manufacturing cost, reduce the area of equipment, improve the machining efficiency of glass piece chamfer.

The features of the embodiments and embodiments described above may be combined with each other without conflict.

It should be finally noted that the above embodiments are only intended to illustrate the technical solutions of the present invention, and not to limit the scope of the present invention, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solutions of the present invention can be modified or replaced with equivalents without departing from the spirit and scope of the technical solutions of the present invention.

Claims (10)

1. A double beveling machine, comprising:

a frame;

the two chamfering devices are arranged on the rack at intervals, and one chamfering device can move and adjust the distance between the chamfering device and the other chamfering device;

the chamfer processing device comprises a beam body, a conveying mechanism, a lifting mechanism and an angle adjusting mechanism;

the conveying mechanism is arranged on the beam body through a support and used for clamping the edge of a workpiece and driving the workpiece to move on the conveying mechanism;

the lifting mechanism is arranged on the beam body at the rear side of the conveying mechanism, two hinged arm plates which are oppositely arranged and can be synchronously lifted are arranged in the lifting mechanism, each hinged arm plate comprises a plate body and a hinged arm, an inclined plane which inclines downwards is arranged on each plate body, each hinged arm inclines upwards from the bottom of each plate body, and an inclined groove is formed between each hinged arm and each plate body;

the angle adjusting mechanism is arranged on the two hinge arm plates, an adjusting plate obliquely arranged on the inclined surface is arranged in the angle adjusting mechanism, the bottom of the adjusting plate is positioned in the inclined groove and is hinged and connected with one end of the hinge arm through a connecting arm, and the adjusting plate can be adjusted obliquely on the hinge arm;

and the grinding heads are arranged on the adjusting plate and are used for chamfering the edge of the workpiece.

2. The double-beveling machine according to claim 1, wherein the lifting mechanism comprises the two hinged arm plates, a base and a lifting transmission assembly, the two hinged arm plates are vertically and slidably arranged on the left side and the right side of the base, and the lifting transmission assembly is arranged on the rear side of the base and connected with the two hinged arm plates and used for driving the hinged arm plates to synchronously lift and move on the two sides of the base.

3. The double-beveling machine according to claim 2, wherein the lifting transmission assembly comprises a first gear motor, a linkage shaft, a first passive speed reducer, a first lead screw and a nut seat, the first gear motor is fixedly connected to the rear side of the base, the linkage shaft is respectively connected to two sides of the first gear motor and driven to rotate by the first gear motor, the first passive speed reducer is connected to one end of the linkage shaft, one end of the first lead screw is vertically and rotatably connected with the first passive speed reducer, the nut seat is sleeved on the first lead screw, and the nut seat is connected with the knuckle plate.

4. The double-beveling machine according to claim 2, wherein the base is an L-shaped base, and reinforcing ribs are provided at corners of the base.

5. The double-beveling machine according to claim 1, wherein the angle adjusting mechanism comprises the adjusting plate and a second gear motor, a second passive speed reducer, a sliding seat and a bearing seat, the second passive speed reducer is relatively and obliquely arranged on one side of the plate body and is connected through a transmission shaft, a second lead screw is arranged on the second passive speed reducer, the second gear motor is connected with one of the second passive speed reducer, the sliding seat is sleeved on the second lead screw and is connected with the plate body along the extending direction sliding connection of the second lead screw, a fixed shaft is arranged on one side of the sliding seat, and the bearing seat is rotatably connected on the fixed shaft and is movably connected with the rear side of the adjusting plate.

6. A double-beveling machine according to claim 1 wherein the conveying mechanism comprises an upper idler pulley hold-down frame and a lower belt carriage spaced apart from each other in the vertical direction, the lower belt carriage being fixedly mounted on the support, the upper idler pulley hold-down frame being slidably mounted on the support in the vertical direction of the support by a synchronous lift.

7. A double-beveling machine according to claim 6, wherein the guide wheel-pressing frame is provided with a guide pulley and a pressing block.

8. A double beveling machine according to claim 1 wherein the grinding head is provided on the adjusting plate by means of an adjusting slide.

9. A double beveling machine according to claim 1 wherein the beam is provided with a slidably adjustable feed positioning means at the feed end of the conveyor.

10. The double-beveling machine according to claim 1, wherein a bracket capable of being movably adjusted in the width direction of the machine frame is provided between the two chamfering devices on the machine frame, and a sliding idler is provided on the bracket.

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