CN112062459A - Glass tube processing beveling device and implementation method thereof - Google Patents

Abstract

The invention discloses a glass tube processing beveling device and an implementation method thereof, belonging to the technical field of glass tube processing. According to the beveling device for processing the glass tube and the implementation method thereof, the glass tube can be fixed on the workbench through the fixing mechanism, so that the glass tube cannot move in the beveling process, the beveling precision of the glass tube can be improved, the beveling blade which moves downwards and rotates bevels the glass tube without manual beveling, the workload of operators can be reduced, the beveling efficiency is high, the beveling requirements of the glass tube under different conditions can be met, and the device is wide in universality.

Description

Glass tube processing beveling device and implementation method thereof

Technical Field

The invention relates to the technical field of glass tube processing, in particular to a beveling device for glass tube processing and an implementation method thereof.

Background

The glass tube is a type of non-metal tube, and is a kind of glass having sodium oxide (Na2O), boron oxide (B2O3), and silicon dioxide (SiO2) as basic components. Its good performance has been widely recognized in all world, compared with general glass, it has no toxic side effect, its mechanical property, thermal stability, water-resisting, alkali-resisting and acid-resisting properties are greatly raised, and can be extensively used in various fields of chemical industry, spaceflight, military, family and hospital, etc.

Glass pipe is adding man-hour, often need carry out oblique cutting processing to glass pipe to the glass pipe after the oblique cutting processing can satisfy the user demand, carries out oblique cutting processing to glass pipe at present, mostly manual operation, has increased operating personnel's work burden and makes oblique cutting inefficiency, and manual operation easily leads to oblique cutting precision low simultaneously, can not be fine satisfy the user demand after the processing.

Disclosure of Invention

The invention aims to provide a glass tube processing beveling device and an implementation method thereof, wherein a glass tube can be fixed on a workbench through a fixing mechanism, so that the glass tube cannot move in the beveling process, the beveling precision of the glass tube can be improved, the beveling blade which moves downwards and rotates carries out beveling processing on the glass tube, manual beveling is not needed, the workload of operators can be reduced, the beveling efficiency is high, the beveling requirements of the glass tube under different conditions can be met, and the universality is wide, so that the problems in the background technology are solved.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a glass manages processing beveling device, includes the workstation, the stand is installed to the upper end of workstation, the arc seat is installed through connecting sleeve to the stand, the last surface mounting of arc seat has the arc guide block, install the rotor plate on the arc guide block, install driving motor A on the rotor plate, driving motor A's output shaft installs the gear through the spline, the gear is located the below of rotor plate and meshes with the arc rack, the periphery at the arc seat is installed to the arc rack, still install oblique cutting mechanism on the rotor plate, oblique cutting mechanism is located the top of glass pipe, the glass pipe passes through fixed establishment to be fixed on the workstation.

Further, the beveling mechanism comprises a hydraulic cylinder, a mounting seat, a driving motor B and a beveling blade, the hydraulic cylinder is mounted on the rotating plate, a piston rod of the hydraulic cylinder is connected with the mounting seat, the driving motor B is mounted on the mounting seat, and the beveling blade is mounted on an output shaft of the driving motor B through a spline.

Further, install the guide bar of symmetric distribution on the mount pad, the guide bar is installed on the guide holder, the guide holder is installed on the pneumatic cylinder, the guide bar passes through the pneumatic cylinder and goes up and down on the guide holder.

Further, the bar-shaped guide grooves for the guide rods to lift are formed in the end faces of the two sides of the guide seat, and the guide rods move in the bar-shaped guide grooves.

Further, the fixing mechanism comprises an upper clamping seat, a lower clamping seat, a screw rod and a guide post, the upper clamping seat is located above the lower clamping seat, the screw rod and the guide post are installed on the lower clamping seat, one end of the screw rod is connected with the upper clamping seat through threads and provided with a handle, and one end of the guide post penetrates through the upper clamping seat.

Furthermore, rubber pads are arranged in arc-shaped grooves formed in the upper clamping seat and the lower clamping seat, and the rubber pads are tightly attached to the tube surface of the glass tube.

Further, the lower clamping seat is installed on the sliding seat, the sliding seat is fixed on the workbench through the butterfly bolt, and a through groove for movably installing the sliding seat and the butterfly bolt is formed in the workbench.

According to another aspect of the present invention, there is provided a method for implementing a beveling apparatus for processing a glass tube, comprising the steps of:

s1: the screw rod is driven to rotate through the handle, and the upper clamping seat can be driven to ascend under the guiding action of the guide post in the rotating process of the screw rod until the upper clamping seat is far away from the lower clamping seat;

s2: the glass tube is placed on the lower clamping seat, the screw rod is driven to rotate reversely through the handle, and the screw rod can drive the upper clamping seat to descend under the guiding action of the guide post in the process of reverse rotation until the upper clamping seat clamps and fixes the glass tube on the lower clamping seat;

s3: after the glass tube is fixed, the driving motor A drives the gear to rotate, and the gear is meshed with the arc-shaped rack and the arc-shaped rack is arranged on the periphery of the arc-shaped seat, so that the gear can drive the rotating plate to rotate by taking the upright post as an axis under the guiding action of the arc-shaped guide block in the rotating process until the beveling blade rotates to the angle required to be beveled;

s4: after the beveling blade rotates to the angle required to be beveled, the driving motor B drives the beveling blade to rotate, and meanwhile, the hydraulic cylinder drives the rotating beveling blade to move downwards, so that the downwards-moving and rotating beveling blade performs beveling processing on the glass tube.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention relates to a beveling device for processing a glass tube and an implementation method thereof.A screw rod is driven to rotate by a handle, the screw rod can drive an upper clamping seat to ascend under the guiding action of a guide post in the rotating process until the upper clamping seat is far away from a lower clamping seat, the glass tube is placed on the lower clamping seat, the screw rod is driven to rotate reversely by the handle, the screw rod can drive the upper clamping seat to descend under the guiding action of the guide post in the reverse rotating process until the upper clamping seat clamps and fixes the glass tube on the lower clamping seat, and the glass tube can be fixed on a workbench by a fixing mechanism, so that the glass tube cannot move in the beveling process, and the beveling precision of the glass tube can be improved.

2. The invention relates to a beveling device for processing a glass tube and an implementation method thereof.A driving motor A drives a gear to rotate after the glass tube is fixed, and the gear is meshed with an arc-shaped rack which is arranged at the periphery of an arc-shaped seat, so that the gear can drive a rotating plate to rotate by taking an upright post as an axis under the guiding action of an arc-shaped guide block in the rotating process until a beveling blade rotates to an angle needing beveling, a driving motor B drives the beveling blade to rotate, and meanwhile, a hydraulic cylinder drives the rotating beveling blade to move downwards so as to lead the downwards-moving and-rotating beveling blade to carry out beveling processing on the glass tube, manual beveling is not needed, the work burden of operators can be reduced, and the beveling efficiency.

3. According to the beveling device for processing the glass tube and the implementation method thereof, the rotating plate is driven by the driving motor A to rotate under the guiding action of the arc-shaped guide block by taking the upright post as the axis, so that the beveling blade can rotate to the angle needing beveling, the beveling requirements of the glass tube under different conditions can be met, and the beveling device is wide in universality.

Drawings

FIG. 1 is a schematic view of a beveling apparatus for processing a glass tube according to the present invention;

FIG. 2 is a top view of the gear engaging the arcuate rack of the present invention;

FIG. 3 is a top view of the gear and arcuate rack of the present invention with the rotating plate removed;

FIG. 4 is a side view of the miter mechanism of the present invention;

FIG. 5 is a schematic view of a guide seat of the present invention provided with a strip-shaped guide slot;

FIG. 6 is a schematic view of the fixing mechanism of the present invention fixing a glass tube;

fig. 7 is a schematic view of the fixing mechanism of the present invention after the upper holder is lifted.

In the figure: 1. a work table; 2. a column; 21. a connecting sleeve; 3. an arc-shaped seat; 31. an arc-shaped guide block; 311. a rotating plate; 32. an arc-shaped rack; 4. driving a motor A; 41. a gear; 5. a beveling mechanism; 51. a hydraulic cylinder; 511. a guide seat; 5111. a strip-shaped guide groove; 52. a mounting seat; 521. a guide bar; 53. driving a motor B; 54. a beveling blade; 6. a fixing mechanism; 61. an upper clamping seat; 62. a lower clamping seat; 63. a screw rod; 631. a handle; 64. a guide post; 7. a glass tube; 8. a rubber pad; 9. a slide base; 91. butterfly bolts.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, a beveling apparatus for processing glass tubes comprises a worktable 1, an upright post 2 is mounted at the upper end of the worktable 1, an arc seat 3 is mounted on the upright post 2 through a connecting sleeve 21, an arc guide block 31 is mounted on the upper surface of the arc seat 3, a rotating plate 311 is mounted on the arc guide block 31, a driving motor a4 is mounted on the rotating plate 311, a gear 41 is mounted on the output shaft of the driving motor a4 through a spline, the gear 41 is positioned below the rotating plate 311 and meshed with an arc rack 32, the arc rack 32 is mounted on the periphery of the arc seat 3, the rotating plate 311 is driven by the driving motor a4 to rotate around the upright post 2 as an axis under the guiding action of the arc guide block 31, a beveling blade 54 can be rotated to an angle required to bevel, the beveling requirements of glass tubes 7 under different conditions can be met, the beveling apparatus is wide in universality, a beveling, the beveling mechanism 5 is positioned above the glass tube 7, the glass tube 7 is fixed on the workbench 1 through the fixing mechanism 6, and the glass tube 7 can be fixed on the workbench 1 through the fixing mechanism 6, so that the glass tube 7 cannot move in the beveling process, and the beveling precision of the glass tube 7 can be improved.

Referring to fig. 4-5, the miter cutting mechanism 5 includes a hydraulic cylinder 51, a mounting seat 52, a driving motor B53, and a miter cutting blade 54, the hydraulic cylinder 51 is mounted on the rotating plate 311, a piston rod of the hydraulic cylinder 51 is connected with the mounting seat 52, a driving motor B53 is mounted on the mounting seat 52, the output shaft of the driving motor B53 is mounted with the miter cutting blade 54 through a spline, symmetrically distributed guide rods 521 are mounted on the mounting seat 52, the guide rods 521 are mounted on the guide seat 511, the guide seat 511 is mounted on the hydraulic cylinder 51, the guide rods 521 are lifted up and down on the guide seat 511 through the hydraulic cylinder 51, strip-shaped guide grooves 5111 for lifting up and down the guide rods 521 are formed on both side end surfaces of the guide seat 511, the guide rods 521 move in the strip-shaped guide grooves 5111, after the glass tube 7 is fixed, the driving motor a4 drives the gear 41 to rotate, because the, therefore, the gear 41 can drive the rotating plate 311 to rotate around the upright post 2 as an axis under the guiding action of the arc-shaped guide block 31 in the rotating process until the beveling blade 54 rotates to the angle required for beveling, the driving motor B53 drives the beveling blade 54 to rotate, and meanwhile, the hydraulic cylinder 51 drives the rotating beveling blade 54 to move downwards, so that the downwards-moving and rotating beveling blade 54 performs beveling on the glass tube 7, manual beveling is not needed, the workload of operators can be reduced, and the beveling efficiency is high.

Referring to fig. 6-7, the fixing mechanism 6 includes an upper holder 61, a lower holder 62, a lead screw 63 and a guide post 64, the upper holder 61 is located above the lower holder 62, the lower holder 62 is provided with the lead screw 63 and the guide post 64, one end of the lead screw 63 is screwed with the upper holder 61 and is provided with a handle 631, one end of the guide post 64 penetrates through the upper holder 61, the upper holder 61 and the lower holder 62 are provided with arc grooves in which rubber pads 8 are installed, the rubber pads 8 are tightly attached to the tube surface of the glass tube 7, the lower holder 62 is installed on the slide base 9, the slide base 9 is fixed on the workbench 1 through a butterfly bolt 91, the workbench 1 is provided with a through groove for movably installing the slide base 9 and the butterfly bolt 91, after the slide base 9 moves to a proper position in the through groove, the slide base 9 is fixed on the workbench 1 through the butterfly bolt 91, the lead screw 63 is driven to rotate by the handle, the lead screw 63 can drive the upper holder 61 to ascend under the guiding effect of the guide post, until the upper clamping base 61 is far away from the lower clamping base 62, the glass tube 7 is placed on the lower clamping base 62, the screw rod 63 is driven to rotate reversely through the handle 631, the screw rod 63 can drive the upper clamping base 61 to descend under the guiding effect of the guide column 64 in the process of rotating reversely until the upper clamping base 61 clamps and fixes the glass tube 7 on the lower clamping base 62, the glass tube 7 can be fixed on the workbench 1 through the fixing mechanism 6, the glass tube 7 cannot move in the beveling process, and the beveling precision of the glass tube 7 can be improved.

In order to better show the implementation process of the glass tube processing beveling device, the embodiment now provides an implementation method of the glass tube processing beveling device, which includes the following steps:

s1: the screw rod 63 is driven to rotate through the handle 631, and the screw rod 63 can drive the upper clamp seat 61 to ascend under the guiding action of the guide column 64 in the rotating process until the upper clamp seat 61 is far away from the lower clamp seat 62;

s2: the glass tube 7 is placed on the lower clamp holder 62, the screw rod 63 is driven to rotate reversely through the handle 631, and the screw rod 63 can drive the upper clamp holder 61 to descend under the guiding action of the guide column 64 in the process of reverse rotation until the upper clamp holder 61 clamps and fixes the glass tube 7 on the lower clamp holder 62;

s3: after the glass tube 7 is fixed, the driving motor a4 drives the gear 41 to rotate, and because the gear 41 is meshed with the arc-shaped rack 32 and the arc-shaped rack 32 is installed at the periphery of the arc-shaped seat 3, the gear 41 can drive the rotating plate 311 to rotate by taking the upright post 2 as an axis under the guiding action of the arc-shaped guide block 31 in the rotating process until the beveling blade 54 rotates to the angle required to be beveled;

s4: after the beveling blade 54 is rotated to the angle required for beveling, the driving motor B53 drives the beveling blade 54 to rotate, and at the same time, the hydraulic cylinder 51 drives the rotating beveling blade 54 to move downwards, so that the downwards-moving and rotating beveling blade 54 performs beveling processing on the glass tube 7.

In conclusion, the beveling apparatus for processing glass tubes and the implementation method thereof of the present invention, the handle 631 drives the screw rod 63 to rotate, the screw rod 63 drives the upper clamping seat 61 to ascend under the guiding action of the guiding column 64 in the rotating process until the upper clamping seat 61 is far away from the lower clamping seat 62, the glass tube 7 is placed on the lower clamping seat 62, the handle 631 drives the screw rod 63 to rotate in the reverse direction, the screw rod 63 drives the upper clamping seat 61 to descend under the guiding action of the guiding column 64 in the reverse direction rotating process until the upper clamping seat 61 clamps and fixes the glass tube 7 on the lower clamping seat 62, the glass tube 7 can be fixed on the worktable 1 through the fixing mechanism 6, the glass tube 7 cannot move in the beveling process, the beveling precision of the glass tube 7 can be improved, after the glass tube 7 is fixed, the motor a4 is driven to drive the gear 41 to rotate, because the gear 41 is engaged with the arc rack 32 and the arc rack 32 is installed at the periphery of the arc seat 3, therefore, the gear 41 can drive the rotating plate 311 to rotate around the upright post 2 as an axis under the guiding action of the arc-shaped guide block 31 in the rotating process until the beveling blade 54 rotates to the angle to be beveled, the driving motor B53 drives the beveling blade 54 to rotate, and meanwhile, the hydraulic cylinder 51 drives the rotating beveling blade 54 to move downwards, so that the downwards-moving and rotating beveling blade 54 performs beveling on the glass tube 7, manual beveling is not needed, the workload of an operator can be reduced, the beveling efficiency is high, meanwhile, the rotating plate 311 is driven by the driving motor a4 to rotate around the upright post 2 as an axis under the guiding action of the arc-shaped guide block 31, the beveling blade 54 can rotate to the angle to be beveled, the beveling requirements of the glass tube 7 under different conditions can be met, and the universality is wide.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (8)

1. The beveling device for processing the glass tube is characterized by comprising a workbench (1), wherein an upright post (2) is installed at the upper end of the workbench (1), an arc-shaped seat (3) is installed on the upright post (2) through a connecting sleeve (21), an arc-shaped guide block (31) is installed on the upper surface of the arc-shaped seat (3), a rotating plate (311) is installed on the arc-shaped guide block (31), a driving motor A (4) is installed on the rotating plate (311), a gear (41) is installed on an output shaft of the driving motor A (4) through a spline, the gear (41) is positioned below the rotating plate (311) and meshed with an arc-shaped rack (32), the arc-shaped rack (32) is installed on the periphery of the arc-shaped seat (3), an oblique cutting mechanism (5) is also installed on the rotating plate (311), and the oblique cutting mechanism (5) is positioned above the glass tube (7), the glass tube (7) is fixed on the workbench (1) through a fixing mechanism (6).

2. The beveling apparatus for processing glass tubes according to claim 1, wherein the beveling mechanism (5) comprises a hydraulic cylinder (51), a mounting seat (52), a driving motor B (53) and a beveling blade (54), the hydraulic cylinder (51) is mounted on a rotating plate (311), a piston rod of the hydraulic cylinder (51) is connected with the mounting seat (52), the driving motor B (53) is mounted on the mounting seat (52), and the beveling blade (54) is mounted on an output shaft of the driving motor B (53) through a spline.

3. The beveling apparatus for processing glass tubes according to claim 2, wherein the mount base (52) is provided with symmetrically distributed guide rods (521), the guide rods (521) are mounted on the guide base (511), the guide base (511) is mounted on the hydraulic cylinder (51), and the guide rods (521) are lifted on the guide base (511) through the hydraulic cylinder (51).

4. The beveling apparatus for processing glass tubes according to claim 3, wherein the guide base (511) has bar-shaped guide grooves (5111) formed on both side end surfaces thereof for lifting the guide bar (521), and the guide bar (521) moves in the bar-shaped guide grooves (5111).

5. The beveling apparatus for processing glass tubes according to claim 1, wherein the fixing mechanism (6) comprises an upper holder (61), a lower holder (62), a lead screw (63) and a guide post (64), the upper holder (61) is located above the lower holder (62), the lead screw (63) and the guide post (64) are installed on the lower holder (62), one end of the lead screw (63) is connected with the upper holder (61) in a threaded manner and is provided with a handle (631), and one end of the guide post (64) penetrates through the upper holder (61).

6. The beveling apparatus for processing glass tubes according to claim 5, wherein the rubber pads (8) are installed in the arc-shaped grooves formed in both the upper holder (61) and the lower holder (62), and the rubber pads (8) are tightly attached to the tube surface of the glass tube (7).

7. The beveling apparatus for processing glass tubes according to claim 5, wherein the lower holder (62) is mounted on a slide base (9), the slide base (9) is fixed on the worktable (1) through a butterfly bolt (91), and the worktable (1) is provided with a through groove for movably mounting the slide base (9) and the butterfly bolt (91).

8. The method of any one of claims 1 to 7, comprising the steps of:

s1: the screw rod (63) is driven to rotate by the handle (631), and the screw rod (63) can drive the upper clamping seat (61) to ascend under the guiding action of the guide column (64) in the rotating process until the upper clamping seat (61) is far away from the lower clamping seat (62);

s2: the glass tube (7) is placed on the lower clamping seat (62), the screw rod (63) is driven to rotate reversely through the handle (631), the screw rod (63) can drive the upper clamping seat (61) to descend under the guiding action of the guide column (64) in the process of rotating reversely until the upper clamping seat (61) clamps and fixes the glass tube (7) on the lower clamping seat (62);

s3: after the glass tube (7) is fixed, the driving motor A (4) drives the gear (41) to rotate, and the gear (41) is meshed with the arc-shaped rack (32) and the arc-shaped rack (32) is installed on the periphery of the arc-shaped seat (3), so that the gear (41) can drive the rotating plate (311) to rotate by taking the upright post (2) as an axis under the guiding action of the arc-shaped guide block (31) in the rotating process until the beveling blade (54) rotates to the angle needing beveling;

s4: after the beveling blade (54) rotates to the angle required to be beveled, the driving motor B (53) drives the beveling blade (54) to rotate, and meanwhile, the hydraulic cylinder (51) drives the rotating beveling blade (54) to move downwards, so that the downwards-moving and rotating beveling blade (54) performs beveling processing on the glass tube (7).

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