CN217098360U - Auxiliary positioning device of glass drilling machine - Google Patents

Abstract

The utility model belongs to the technical field of the technique of glass processing and specifically relates to a glass drilling machine auxiliary positioning device is related to, and it includes the workstation, has seted up the locating hole on the workstation, including setting up positioning mechanism on the workstation, positioning mechanism includes first locating piece and second locating piece, first locating piece sets up on the workstation, the second locating piece sets up on the workstation, first locating piece with the axis mutually perpendicular of second locating piece, first constant head tank has vertically been seted up on the lateral wall that first locating piece is close to the locating hole, the second locating piece is vertical to have seted up the second constant head tank on being close to the lateral wall of locating hole, first constant head tank with the second constant head tank be used for proofreading and correct cross on the glass with the locating hole is concentric. The positioning mechanism that this application set up makes glass location reference occasionally for the time of adjustment shortens, makes the efficiency of glass drilling then obtain improving.

Description

Auxiliary positioning device of glass drilling machine

Technical Field

The application relates to the technical field of glass processing, in particular to an auxiliary positioning device of a glass drilling machine.

Background

At present, the deep processing of glass refers to the glass product with specific functions which is made by using once-formed plate glass as a basic raw material and adopting different processing technologies according to the use requirements. During the glass deep processing, drilling is often required by a glass drilling machine.

The horizontal glass drilling machine of traditional semi-automatic type generally includes mesa and body, when driling glass, at first mark the cross on glass for mark department waits to drill the hole point, lets the back place glass on the mesa, and the drill bit on the body that slides from top to bottom adjusts glass's position, aligns until the drill bit with the nodical of cross, then drives the drill bit with the body and drills.

In the process of implementing the present application, the inventors found that at least the following problems exist in the technology, when the position of the glass is adjusted, the drill of the drilling machine needs to be repeatedly dropped, the positioning reference is lacked, the time for adjusting the glass is long, and the efficiency of drilling the glass is low.

SUMMERY OF THE UTILITY MODEL

In order to improve the efficiency of glass drilling, this application provides a glass drilling machine assistance-localization real-time device.

The application provides a glass drilling machine auxiliary positioning device adopts following technical scheme:

the utility model provides a glass drilling machine auxiliary positioning device, includes the workstation, has seted up the locating hole on the workstation, including setting up positioning mechanism on the workstation, positioning mechanism includes first locating piece and second locating piece, first locating piece sets up on the workstation, the second locating piece sets up on the workstation, first locating piece with the axis mutually perpendicular of second locating piece, first constant head tank has vertically been seted up on the lateral wall that first locating piece is close to the locating hole, the second constant head tank has vertically been seted up on the lateral wall that the second locating piece is close to the locating hole, first constant head tank with the second constant head tank be used for proofreading and correct the cross on the glass with the locating hole is concentric.

By adopting the technical scheme, an operator firstly marks the position to be drilled on the glass by using the cross wire, then places the glass on the workbench, preliminarily corresponds the position of the cross wire to the position of the positioning hole on the workbench, slides the position of the glass, adjusts the position of the glass to the state that the cross wire is respectively aligned with the first positioning groove and the second positioning groove, and then starts a glass drilling machine to drill the glass; the positioning mechanism who sets up makes glass location occasionally a benchmark for the time of adjustment shortens, makes the efficiency of glass drilling then improved.

Optionally, be provided with complementary unit on the workstation, complementary unit is including extending the stand, the stand setting is in one side of workstation and with the connection can be dismantled to the workstation.

By adopting the technical scheme, when the glass is large, the extension table can be moved to be abutted against the workbench, and then the glass is placed on the extension table; the auxiliary mechanism who sets up is applicable to the glass of various size specifications, has improved the device's suitability then.

Optionally, a clamping groove is formed in the workbench, the auxiliary mechanism further comprises a clamping block, the clamping block is arranged at one end, close to the workbench, of the extension table, and the clamping block is clamped with the clamping groove.

By adopting the technical scheme, the extension table is firstly close to the workbench until the clamping block is clamped with the clamping groove, and then the glass is placed on the workbench; the clamping groove and the clamping block are arranged, so that the extension table and the workbench are more convenient to connect, and meanwhile, the extension table is convenient to disassemble when not used, and the working efficiency is improved.

Optionally, the auxiliary mechanism further includes a locking assembly, the locking assembly includes a connecting plate and a locking bolt, the connecting plate is disposed on the workbench, the locking bolt is in threaded connection with the connecting plate, and the locking bolt penetrates through the connecting plate to abut against the extension table and limit the extension table to slide.

By adopting the technical scheme, the extension table is firstly close to the workbench until the clamping block is clamped with the clamping groove, and then the locking bolt is rotated clockwise and abuts against the extension table tightly; the locking subassembly simple structure that sets up has reduced the separation of stand and workstation when glass drilling, makes complementary unit's stability improvement then.

Optionally, the first positioning block and the second positioning block are arranged on the workbench in a sliding mode in the vertical direction, a first sliding mechanism and a second sliding mechanism are arranged on the workbench, the first sliding mechanism is connected with the first positioning block and drives the first positioning block to slide, and the second sliding mechanism is connected with the second positioning block and drives the second positioning block to slide.

Through adopting above-mentioned technical scheme, the back is accomplished in the glass adjustment, drives first locating piece with first glide machanism and is close to towards glass, drives the second locating piece with second glide machanism and is close to towards glass, first locating piece and second locating piece all with the glass butt, the first locating piece and the second locating piece of setting slide along vertical direction, play certain fixed action to glass, reduced rocking of glass at the drilling in-process, make drilling effect can keep then.

Optionally, the first glide machanism includes first glide rod and first subassembly that slides, first glide rod slides along vertical direction and sets up on the workstation, first locating piece with first glide rod is connected, first subassembly that slides sets up on the workstation, first subassembly that slides with first glide rod is connected.

Through adopting above-mentioned technical scheme, drive first slide bar with first subassembly of sliding and slide along vertical direction, first slide bar drives first locating piece and is close to towards glass, first locating piece and glass butt, the first glide machanism simple structure of setting.

Optionally, the first sliding assembly includes a first driving motor, a first gear and a first rack, the first driving motor is disposed on the workbench, the first gear is keyed on an output shaft of the first driving motor, the first rack is disposed on the first sliding rod, and the first gear is engaged with the first rack.

Through adopting above-mentioned technical scheme, start first driving motor, first driving motor drives first gear revolve, and first gear drives first rack and slides along vertical direction, and first rack drives first slide bar and slides, and first slide bar drives first locating piece and slides, and the first subassembly simple structure that slides that sets up is convenient for operate, has reduced artifical manual first slide bar that slides simultaneously, and then has improved work efficiency.

Optionally, a fixing mechanism is arranged on the workbench, the fixing mechanism includes two limiting blocks and a power assembly, one of the limiting blocks is connected to the workbench in a sliding manner, the other limiting block is connected to the extension table in a sliding manner, the two limiting blocks are parallel to each other, and the side walls of the two limiting blocks, which are close to each other, are abutted to the glass; the power assembly is respectively connected with the two limiting blocks and drives the two limiting blocks to slide.

By adopting the technical scheme, after the glass is adjusted in place, the power assembly drives the two limiting blocks to approach the glass until the two limiting blocks are abutted against the glass; the fixing mechanism can reduce the sliding of the glass along the horizontal direction during drilling, and the stability of the glass during drilling is improved.

Optionally, power component includes two motor power, two and rotates screw rod and two sliders, two it connects to rotate the screw rod respectively the extension platform with on the workstation, two the slider slides respectively and connects the extension platform with on the workstation, two the slider respectively with two the stopper is connected, rotate the screw rod and pass the slider and with slider threaded connection, motor power sets up on the extension platform, motor power's output shaft with the one end of rotating the screw rod is connected.

By adopting the technical scheme, the power motor is started, the power motor drives the rotating screw to rotate, the rotating screw drives the sliding block to slide, and the sliding block drives the limiting block to slide until the limiting block abuts against the glass; the power assembly is simple in structure and convenient to operate.

To sum up, the application comprises the following beneficial technical effects:

1. the arranged positioning mechanism enables the glass to have a reference when being positioned, so that the adjusting time is shortened, and the glass drilling efficiency is improved;

2. the first positioning block and the second positioning block slide along the vertical direction, so that a certain fixing effect on the glass is achieved, the shaking of the glass in the drilling process is reduced, and the drilling effect is kept;

3. the fixing mechanism can reduce the sliding of the glass along the horizontal direction during drilling, and the stability of the glass during drilling is improved.

Drawings

FIG. 1 is a schematic view of the overall structure of an auxiliary positioning device of a glass drilling machine in the embodiment of the present application;

FIG. 2 is a schematic structural diagram of a positioning mechanism in an embodiment of the present application;

fig. 3 is a schematic structural diagram of a fixing mechanism in an embodiment of the present application.

Reference numerals: 100. a work table; 110. positioning holes; 120. a card slot; 130. a chute; 200. a positioning mechanism; 210. a first positioning block; 211. a first positioning groove; 220. a second positioning block; 221. a second positioning groove; 230. a first fixing lever; 240. a second fixing bar; 300. an auxiliary mechanism; 310. a delay station; 320. a clamping block; 330. a locking assembly; 331. a connecting plate; 332. locking the bolt; 400. a first sliding mechanism; 410. a first slide bar; 420. a first glide assembly; 421. a first drive motor; 422. a first gear; 423. a first rack; 500. a second sliding mechanism; 510. a second slide bar; 520. a second glide assembly; 521. a second drive motor; 522. a second gear; 523. a second rack; 600. a fixing mechanism; 610. a limiting block; 620. a power assembly; 621. a power motor; 622. rotating the screw; 623. a slide block.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses glass drilling machine auxiliary positioning device.

Referring to fig. 1 and 2, the auxiliary positioning device for a glass drilling machine includes a positioning mechanism 200 disposed on a work table 100, a positioning hole 110 is disposed at the center of the work table 100, an auxiliary mechanism 300 for expanding the work table 100 is disposed on the work table 100, and a fixing mechanism 600 for fixing glass is disposed on the work table 100. An operator firstly marks a cross line at a position of glass to be drilled, then the glass is placed on the workbench 100, the glass is partially abutted to the auxiliary mechanism 300, the position of the glass is preliminarily corresponding to that of the positioning hole 110, then the glass is slid until the glass is aligned with the positioning mechanism 200, then the fixing mechanism 600 is used for limiting the sliding of the glass, and the drilling machine is started to drill holes.

Referring to fig. 1 and 2, the auxiliary mechanism 300 includes an extension table 310, the extension table 310 is detachably connected to the work table 100, the extension table 310 is located at one side of the work table 100, and the extension table 310 is flush with the upper end surface of the work table 100; two fixture blocks 320 are fixedly connected to the side wall of the extension table 310 close to the workbench 100, two clamping grooves 120 are formed in the side wall of the workbench 100 close to the extension table 310, and the fixture blocks 320 are clamped with the clamping grooves 120; be provided with the locking subassembly 330 of being connected with extension platform 310 on the workstation 100, locking subassembly 330 includes connecting plate 331, connecting plate 331 is integrative to be set up in the workstation 100 and is close to one side on ground, connecting plate 331 is located the one end that workstation 100 is close to extension platform 310, connecting plate 331 and the lateral wall butt that extension platform 310 is close to ground, threaded connection has locking bolt 332 on the lateral wall of keeping away from extension platform 310 on the connecting plate 331, locking bolt 332 passes connecting plate 331 and extends platform 310 butt.

Referring to fig. 2 and 3, the positioning mechanism 200 includes a first positioning block 210, the first positioning block 210 is located above the worktable 100, the first positioning block 210 is located at one side of the positioning hole 110, and the first positioning block 210 is parallel to the width direction of the worktable 100; a first positioning groove 211 is formed in the side wall of the first positioning block 210 close to the positioning hole 110, and the axis of the first positioning groove 211 is perpendicular to the workbench 100; two first fixing rods 230 are fixedly connected to the first positioning block 210, and the first fixing rods 230 are parallel to the workbench 100; the workbench 100 is provided with a first sliding mechanism 400, the first sliding mechanism 400 comprises two first sliding rods 410, and the first sliding rods 410 are vertically connected with the first fixing rod 230; a first sliding hole is formed in the side wall, far away from the ground, of the workbench 100, the first sliding hole is formed in the vertical direction, and the first sliding rod 410 is connected in the first sliding hole in a sliding manner; be provided with first subassembly 420 that slides on the workstation 100, first subassembly 420 that slides includes first driving motor 421, first driving motor 421 fixed connection is on the workstation 100 keeps away from the lateral wall of first locating block 210, the key connection has first gear 422 on the output shaft of first driving motor 421, an organic whole is provided with first rack 423 on the first pole 410 that slides, first rack 423 sets up along the length direction of first pole 410 that slides, first gear 422 and the meshing of first rack 423. Start first driving motor 421, first driving motor 421 drives first gear 422 and rotates, and first gear 422 drives first rack 423 and slides, and first rack 423 drives first slide bar 410 and slides along first slide hole, and first slide bar 410 drives first locating block 210 and slides along vertical direction.

Referring to fig. 2 and 3, two second sliding holes are formed in a side wall of the workbench 100 away from the ground, and the second sliding holes are located on one side of the workbench 100; the workbench 100 is provided with a second sliding mechanism 500, the second sliding mechanism 500 comprises two second sliding rods 510 connected in a sliding manner in the second sliding holes, the first sliding rod 410 is fixedly connected with a second fixing rod 240, and the second fixing rod 240 is parallel to the workbench 100 and is positioned on one side of the workbench 100 away from the ground; one end of the second fixing rod 240, which is far away from the second sliding rod 510, is fixedly connected with a second positioning block 220, the second positioning block 220 is located on one side of the positioning hole 110, the axes of the first positioning block 210 and the second positioning block 220 are perpendicular, a second positioning groove 221 is formed in the side wall, which is close to the positioning hole 110, of the second positioning block 220, the axis of the second positioning groove 221 is perpendicular to the workbench 100, the axis of the first positioning groove 211, the axis of the second positioning groove 221 and the axis of the positioning hole 110 are parallel, and the plane where the axes of the first positioning groove 211 and the second positioning groove 221 are located is perpendicular and the intersection line coincides with the axis of the positioning hole 110.

Referring to fig. 2 and 3, a second sliding assembly 520 is disposed at one end of the workbench 100 close to the ground, the second sliding assembly 520 includes a second driving motor 521 fixedly connected to the workbench 100, a second gear 522 is keyed on an output shaft of the second driving motor 521, a second rack 523 is fixedly connected to the second sliding rod 510, the second rack 523 is disposed along the length direction of the second sliding rod 510, and the second gear 522 is engaged with the second rack 523. The second driving motor 521 is started, the second driving motor 521 drives the second gear 522 to rotate, the second gear 522 drives the second rack 523 to slide, the second rack 523 drives the second sliding rod 510 to slide, and the second sliding rod 510 drives the second positioning block 220 to approach or leave the workbench 100.

The fixing mechanism 600 comprises two limiting blocks 610, the sliding grooves 130 are formed in the workbench 100 and the extension table 310, the axes of the two sliding grooves 130 are overlapped and parallel to the length direction of the workbench 100, one limiting block 610 is connected in the sliding groove 130 on the workbench 100 in a sliding manner, the other limiting block 610 is connected in the sliding groove 130 of the extension table 310 in a sliding manner, and the two limiting blocks 610 are close to or far away from each other; the workbench 100 and the extension table 310 are both provided with a power assembly 620, the power assembly 620 comprises power motors 621, the power motors 621 are fixedly connected to the workbench 100 and the extension table 310, and the two power motors 621 are respectively positioned on the side walls of the workbench 100 and the extension table 310 which are far away from each other; a rotating screw 622 is rotatably connected in each of the two sliding slots 130, and one end of the rotating screw 622 penetrates through the side wall of the sliding slot 130 and is connected with a power motor 621; a sliding block 623 is connected in the sliding groove 130 in a sliding manner, the sliding direction of the sliding block 623 is parallel to the length direction of the workbench 100, and the sliding block 623 is fixedly connected with the limiting block 610; the rotary screw 622 passes through the slider 623 and is threadedly coupled to the slider 623. Two power motors 621 are started, the power motors 621 drive the rotating screws 622 to rotate, one of the rotating screws 622 drives the sliding block 623 to slide on the extension table 310, the other rotating screw 622 drives the other sliding block 623 to slide on the workbench 100, the sliding block 623 drives the limiting block 610 to slide, and the limiting block 610 approaches to the glass.

The implementation principle of the auxiliary positioning device of the glass drilling machine in the embodiment of the application is as follows: an operator marks the position of the glass to be drilled with a cross line, then places the glass on the workbench 100, drags the glass to slide to the position to be drilled and preliminarily correspond to the positioning hole 110, and then adjusts the position of the glass so that the cross line corresponds to the positions of the first positioning groove 211 and the second positioning groove 221; starting the first driving motor 421, the first driving motor 421 drives the first gear 422 to rotate, the first gear 422 drives the first rack 423 to slide, the first rack 423 drives the first sliding rod 410 to slide, and the first sliding rod 410 drives the first positioning block 210 to abut against the glass; then, the second driving motor 521 is started, the second driving motor 521 drives the second gear 522 to rotate, the second gear 522 drives the second rack 523 to slide, the second rack 523 drives the second sliding rod 510 to slide, and the second sliding rod 510 drives the second positioning block 220 to abut against the glass; then, the power motor 621 is started, the power motor 621 drives the rotating screw 622 to rotate, the rotating screw 622 drives the sliding block 623 to slide, and the sliding block 623 drives the limiting blocks 610 to approach the glass until the two limiting blocks 610 are abutted to the glass; the glass is then drilled.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. An auxiliary positioning device of a glass drilling machine comprises a workbench (100), wherein a positioning hole (110) is arranged on the workbench (100), characterized by comprising a positioning mechanism (200) arranged on the workbench (100), the positioning mechanism (200) comprises a first positioning block (210) and a second positioning block (220), the first positioning block (210) is arranged on the workbench (100), the second positioning block (220) is arranged on the workbench (100), the axes of the first positioning block (210) and the second positioning block (220) are vertical to each other, a first positioning groove (211) is vertically arranged on the side wall of the first positioning block (210) close to the positioning hole (110), a second positioning groove (221) is vertically arranged on the side wall of the second positioning block (220) close to the positioning hole (110), the first positioning groove (211) and the second positioning groove (221) are used for correcting the cross line on the glass to be concentric with the positioning hole (110).

2. An auxiliary positioning device for a glass drilling machine as claimed in claim 1, characterized in that an auxiliary mechanism (300) is arranged on the working platform (100), the auxiliary mechanism (300) comprises an extension table (310), and the extension table (310) is arranged on one side of the working platform (100) and detachably connected with the working platform (100).

3. The auxiliary positioning device of claim 2, wherein the workbench (100) is provided with a clamping groove (120), the auxiliary mechanism (300) further comprises a clamping block (320), the clamping block (320) is arranged at one end of the extending table (310) close to the workbench (100), and the clamping block (320) is clamped with the clamping groove (120).

4. A glass drill positioning aid as claimed in claim 3 wherein the assistance mechanism (300) further comprises a locking assembly (330), the locking assembly (330) comprising a connecting plate (331) and a locking bolt (332), the connecting plate (331) being disposed on the table (100), the locking bolt (332) being threadedly attached to the connecting plate (331), the locking bolt (332) passing through the connecting plate (331) to abut the extension stage (310) and limit the extension stage (310) from sliding.

5. The auxiliary positioning device of claim 1, wherein the first positioning block (210) and the second positioning block (220) are slidably disposed on the worktable (100) along a vertical direction, a first sliding mechanism (400) and a second sliding mechanism (500) are disposed on the worktable (100), the first sliding mechanism (400) is connected to the first positioning block (210) and drives the first positioning block (210) to slide, and the second sliding mechanism (500) is connected to the second positioning block (220) and drives the second positioning block (220) to slide.

6. A glass drilling machine auxiliary positioning device according to claim 5, characterized in that the first sliding mechanism (400) comprises a first sliding rod (410) and a first sliding assembly (420), the first sliding rod (410) is arranged on the workbench (100) in a sliding mode along the vertical direction, the first positioning block (210) is connected with the first sliding rod (410), the first sliding assembly (420) is arranged on the workbench (100), and the first sliding assembly (420) is connected with the first sliding rod (410).

7. The auxiliary positioning device of the glass drilling machine as claimed in claim 6, wherein the first sliding assembly (420) comprises a first driving motor (421), a first gear (422) and a first rack (423), the first driving motor (421) is arranged on the workbench (100), the first gear (422) is connected to an output shaft of the first driving motor (421) in a key mode, the first rack (423) is arranged on the first sliding rod (410), and the first gear (422) is meshed with the first rack (423).

8. The auxiliary positioning device of a glass drilling machine as claimed in claim 2, characterized in that a fixing mechanism (600) is arranged on the working platform (100), the fixing mechanism (600) comprises two limit blocks (610) and a power assembly (620), wherein one of the limit blocks (610) is connected to the working platform (100) in a sliding manner, the other limit block (610) is connected to the extension platform (310) in a sliding manner, the two limit blocks (610) are parallel to each other, and the side walls of the two limit blocks (610) close to each other are abutted to the glass; the power assembly (620) is respectively connected with the two limiting blocks (610) and drives the two limiting blocks (610) to slide.

9. An auxiliary positioning device for a glass drilling machine according to claim 8, characterized in that the power assembly (620) comprises two power motors (621), two rotating screws (622) and two sliding blocks (623), the two rotating screws (622) are respectively and rotatably connected to the extending platform (310) and the working platform (100), the two sliding blocks (623) are respectively and slidably connected to the extending platform (310) and the working platform (100), the two sliding blocks (623) are respectively connected to the two limiting blocks (610), the rotating screws (622) penetrate through the sliding blocks (623) and are in threaded connection with the sliding blocks (623), the power motors (621) are arranged on the extending platform (310), and output shafts of the power motors (621) are connected with one ends of the rotating screws (622).

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