CN214218571U

CN214218571U - Glass cutting machine

Info

Publication number: CN214218571U
Application number: CN202023320261.1U
Authority: CN
Inventors: 李洲海
Original assignee: Zhongshan Rongjing Glass Product Co ltd
Current assignee: Zhongshan Rongjing Glass Product Co ltd
Priority date: 2020-12-31
Filing date: 2020-12-31
Publication date: 2021-09-17
Anticipated expiration: 2030-12-31

Abstract

The utility model provides a glass cutting machine, which comprises a frame, a workbench arranged on the frame, a movable mechanism and a cutting head, wherein a vacuum adsorption platform is arranged on the workbench; the movable mechanism comprises a movable tool apron, an X-axis transmission device, a Y-axis transmission device and a Z-axis transmission device, the movable tool apron comprises supporting parts which are respectively longitudinally slidably mounted on two sides of the machine base, a cross beam connected between the supporting parts on the two sides, a movable seat which is transversely slidably connected to the cross beam and an outer cover which is vertically slidably connected to the movable seat, an opening is formed in the lower end of the outer cover, an air cylinder is vertically mounted in the outer cover, the telescopic end of the air cylinder extends out of the opening of the outer cover, and the cutting head is mounted at the telescopic end of the air cylinder; the X-axis transmission device is used for driving the movable tool apron to move longitudinally; the Z-axis transmission device is used for driving the movable seat to move transversely; the Y-axis transmission device is used for driving the outer cover to move vertically; the product can improve the cutting accuracy, thereby realizing multi-directional movement and stable and accurate cutting positioning.

Description

Glass cutting machine

Technical Field

The utility model relates to a cutting machine field, in particular to glass cutting machine.

Background

In the known glass cutting machine, generally, only one-way sliding can be realized, the cutting precision is not high, and cutting defects such as irregular cutting lines, uneven sections and the like are easily caused.

Therefore, a glass cutting machine which can slide in multiple directions and has high cutting precision is urgently needed.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims at providing a glass-cutting machine aims at realizing multi-direction cutting through adding the gear slide rail and removing.

The utility model provides a glass cutting machine, which comprises a frame, a workbench arranged on the frame, a movable mechanism and a cutting head, wherein a vacuum adsorption platform is arranged on the workbench; the movable mechanism comprises a movable tool apron, an X-axis transmission device, a Y-axis transmission device and a Z-axis transmission device, the movable tool apron comprises supporting parts which are respectively longitudinally slidably mounted on two sides of the machine base, a cross beam connected between the supporting parts on the two sides, a movable seat which is transversely slidably connected to the cross beam and an outer cover which is vertically slidably connected to the movable seat, and the X-axis transmission device is mounted on the supporting parts and two sides of the machine base and used for driving the supporting parts to longitudinally move; the Z-axis transmission device is arranged on the cross beam and the moving seat and is used for driving the moving seat to move transversely; the Y-axis transmission device is arranged on the moving seat and the outer cover and is used for driving the outer cover to move vertically; the outer cover lower extreme opening sets up vertically in the outer cover install the cylinder, the flexible end of cylinder is followed the outer cover opening stretches out, the cutting head is installed the flexible end of cylinder.

Preferably, the X-axis transmission device includes an X-axis slide rail assembly, a first motor driving device and a first gear, the X-axis slide rail assembly includes a first transmission slide rail and a first auxiliary slide rail, and is installed in parallel at intervals, the first transmission slide rail includes a slide rail body and a first rack arranged on the lower side of the slide rail body, the supporting portion is provided with a first sliding support seat opposite to the first auxiliary slide rail, and the first sliding support seat is installed on the first auxiliary slide rail in a sliding manner; the first motor driving device is arranged in the supporting portion, a rotating shaft of the first motor driving device extends out of the supporting portion to be connected with the first gear, the first gear and the first rack are assembled to form a gear-rack transmission structure, and the first gear is driven to roll on the first rack through the first motor driving device, so that the movable tool apron is driven to move in the longitudinal direction.

Preferably, limit stops are arranged at the front ends of the first transmission slide rail and the first auxiliary slide rail.

Preferably, the Z-axis transmission device comprises a Z-axis slide rail component, a second motor driving device arranged in the movable seat and a second gear, the Z-axis slide rail component comprises a second transmission slide rail and a second auxiliary slide rail which are arranged on the upper end surface of the cross beam and are arranged in parallel at intervals, and a third auxiliary slide rail arranged on the side surface of the cross beam, wherein the second transmission slide rail comprises a slide rail body and a second rack arranged on one side of the slide rail body, the movable seat is provided with an inverted L-shaped connecting position used for being in sliding connection with the cross beam, a second sliding support seat opposite to the second auxiliary sliding rail and a third sliding support seat opposite to the third auxiliary sliding rail are respectively arranged on the inverted L-shaped connecting position, the second sliding support is slidably mounted on the second auxiliary sliding rail, and the third sliding support is slidably mounted on the third auxiliary sliding rail; the rotating shaft of the second motor driving device extends out of the moving seat to be connected with the second gear, the second rack and the second gear are assembled to form a gear rack transmission structure, and the second motor driving device drives the second gear to roll on the second rack so as to drive the moving seat to move transversely.

Preferably, the Y-axis transmission device comprises a Y-axis slide rail assembly and a screw rod transmission assembly arranged on the movable seat, the Y-axis slide rail component comprises two fourth auxiliary slide rails which are arranged on the front end surface of the movable seat at intervals in parallel, the screw rod transmission assembly is arranged between the two fourth auxiliary slide rails in parallel at intervals and comprises a screw rod, a third motor driving device driving the screw rod to rotate and a sliding seat arranged on the screw rod and driven by the screw rod to move, the outer cover is arranged on the sliding seat, a fourth sliding support which is opposite to the fourth auxiliary sliding rail is arranged on the two sides of the back surface of the outer cover, the fourth sliding support is slidably mounted on the fourth auxiliary sliding rail, and the outer cover can be driven by the screw rod transmission assembly to vertically move on the moving seat 4.

The utility model has the advantages that:

the utility model provides a glass cutting machine, which comprises a frame, a workbench arranged on the frame, a movable mechanism and a cutting head, wherein a vacuum adsorption platform is arranged on the workbench; the movable mechanism comprises a movable tool apron, an X-axis transmission device, a Y-axis transmission device and a Z-axis transmission device, the movable tool apron comprises supporting parts which are respectively longitudinally slidably mounted on two sides of the machine base, a cross beam connected between the supporting parts on the two sides, a movable seat which is transversely slidably connected to the cross beam and an outer cover which is vertically slidably connected to the movable seat, an opening is formed in the lower end of the outer cover, an air cylinder is vertically mounted in the outer cover, the telescopic end of the air cylinder extends out of the opening of the outer cover, and the cutting head is mounted at the telescopic end of the air cylinder; the X-axis transmission device is used for driving the movable tool apron to move longitudinally; the Z-axis transmission device is used for driving the movable seat to move transversely; the Y-axis transmission device is used for driving the outer cover to move vertically; during operation, adsorb the location through vacuum adsorption platform to glass earlier, then adjust the position of cutting head, adjust to suitable height, promote again by the cylinder and move about simultaneously downwards and cut, realized multi-direction removal and steady accurate cutting location.

During cutting, the formed glass fine powder or powder is blocked by the outer cover, so that the glass fine powder or powder is prevented from being splashed to the outside, and the cutting machine is safer.

Drawings

Fig. 1 is a schematic perspective view of a glass cutting machine according to the present invention 1;

fig. 2 is a schematic perspective view of the glass cutting machine of the present invention 2:

FIG. 3 is a partial schematic view of FIG. 2 with the support portion removed:

fig. 4 is a partial schematic view of the cross beam of the present invention.

The reference numbers in the figures illustrate:

1. the device comprises a cross beam, 2, a supporting part, 3, an outer cover, 4, a moving seat, 5, a vacuum adsorption device, 6, a cutting head, 7, a limit stop, 8, a first auxiliary sliding rail, 9, a first transmission sliding rail, 10, a first rack, 11, a first sliding support, 12, a first gear, 13, a first motor driving device, 14, a second auxiliary sliding rail, 15, a third auxiliary sliding rail, 16, a second transmission sliding rail, 17, a fourth auxiliary sliding rail, 18, a screw rod, 19, a third motor driving device, 20, a second rack, 21 and a second gear.

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 to 4, an embodiment of the glass cutting machine of the present invention is provided:

the utility model provides a glass cutting machine, including frame, workstation and movable mechanism and the cutting head 6 of setting on the frame, movable mechanism is including removing blade holder, X axle transmission, Y axle transmission and Z axle transmission. The movable tool apron comprises two supporting parts 2 which are respectively arranged on two sides of the machine base in a sliding mode, a cross beam 1 connected to the two supporting parts 2, and a movable seat 4 connected to the cross beam 1 in a sliding mode.

The two outsides of frame all are provided with X axle sliding rail set spare, and X axle sliding rail set spare includes first transmission slide rail 9 and first auxiliary slide rail 8, is parallel interval installation, and first auxiliary slide rail 8 plays supporting role to supporting part 2, and first transmission slide rail 9 is the transmission to supporting part 2. The first transmission slide rail 9 comprises a slide rail body and a first rack 10 arranged on the lower side of the slide rail body. The supporting part 2 is provided with a first sliding support 11 opposite to the first auxiliary sliding rail 8, and the first sliding support 11 is slidably mounted on the first auxiliary sliding rail 8. A first motor driving device 13 is arranged in the supporting portion 2, the first motor driving device 13 is connected with a first gear 12, the first gear 12 and a first rack 10 are assembled to form a gear-rack transmission structure, and an X-axis sliding rail assembly, the first motor driving device 13 and the first gear 12 form an X-axis transmission device. The first gear 12 is driven by the first motor driving device 13 to roll on the first rack 10, so as to drive the movable tool apron to move in the longitudinal direction (X-axis direction).

Be equipped with limit stop 7 at the front end of first transmission slide rail 9 and first supplementary slide rail 8, prevent that supporting part 2 roll-off from first transmission slide rail 9 and first supplementary slide rail 8, safer.

Be provided with Z axle slide rail set spare on crossbeam 1, Z axle slide rail set spare is the supplementary slide rail 14 of second transmission slide rail 16 and the second of parallel interval installation including setting up at crossbeam 1 up end to and set up the supplementary slide rail 15 of third on crossbeam 1 side, and the supplementary slide rail 15 of second and third plays the supporting role to removing seat 4, and second transmission slide rail 16 does the transmission to removing seat 4. The second drive slide 16 includes a slide body and a second rack 20 disposed on one side of the slide body. Move and be equipped with on the seat 4 and be used for the type of falling L junction position with crossbeam 1 sliding connection, be equipped with respectively on the type of falling L junction position with the second sliding support that the supplementary slide rail of second 14 is relative and with the third sliding support that the supplementary slide rail of third 15 is relative, second sliding support slidable mounting is on the supplementary slide rail of second 14, third sliding support slidable mounting is on the supplementary slide rail of third 15, it is more stable to support, can make the removal of moving seat 4 on crossbeam 1 more steady.

A second motor driving device is arranged in the moving seat 4 and connected with a second gear 21, a second rack 20 and the second gear 21 are assembled to form a gear rack transmission structure, and a Z-axis sliding rail assembly, the second motor driving device and the second gear 21 form a Z-axis transmission device. The second gear 21 is driven by the second motor driving device to roll on the second rack 20, so as to drive the movable base 4 to move in the transverse direction (Z-axis direction).

Remove vertical Y axle slide rail set spare that is equipped with on the preceding terminal surface of seat 4, Y axle slide rail set spare is two fourth auxiliary slide rails 17 of parallel interval installation including setting up the terminal surface before removing seat 4, parallel interval is provided with screw drive assembly between two fourth auxiliary slide rails 17, screw drive assembly includes lead screw 18, drive lead screw 18 pivoted third motor drive 19 and install the sliding seat that drives its removal by lead screw 18 on lead screw 18, install dustcoat 3 on the sliding seat, still be equipped with the fourth sliding support relative with fourth auxiliary slide rail 17 in 3 back both sides of dustcoat, fourth sliding support slidable mounting is on fourth auxiliary slide rail 17. The Y-axis slide rail assembly and the screw rod transmission assembly form a Y-axis transmission device, and the outer cover 3 can be driven by the screw rod transmission assembly to move vertically (in the Y-axis direction) on the moving seat 4.

The opening of the housing 3 faces downward and faces the table. The cutting head 6 is vertically arranged at the lower end of the outer cover 3 through a cylinder. The cylinder is vertically installed in the outer cover 3, the telescopic end of the cylinder faces downwards, the telescopic end of the cylinder extends out of the lower end opening of the outer cover 3, and the cutting head 6 is connected to the telescopic tail end of the cylinder.

The setting up of above-mentioned structure makes cutting head 6 can be about from top to bottom diversified removal come the adjustment position, is equipped with vacuum adsorption platform 5 on the workstation, and adsorbable fixed glass improves the cutting accuracy to multi-direction removal and steady accurate cutting location have been realized.

During operation, adsorb the location through vacuum adsorption platform 5 to glass earlier, then adjust the position of cutting head 6, adjust to suitable height, promote by the cylinder again and move about simultaneously downwards and cut. When cutting, the formed glass fine powder or powder is blocked by the outer cover 3, so that the glass fine powder or powder is prevented from splashing to the outside, and the cutting machine is safer.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structural changes made by the contents of the specification and the drawings, or the direct or indirect application in other related technical fields, are included in the same way in the protection scope of the present invention.

Claims

1. The glass cutting machine is characterized by comprising a machine base, a workbench arranged on the machine base, a movable mechanism and a cutting head, wherein a vacuum adsorption platform is arranged on the workbench; the movable mechanism comprises a movable tool apron, an X-axis transmission device, a Y-axis transmission device and a Z-axis transmission device, the movable tool apron comprises supporting parts which are respectively longitudinally slidably mounted on two sides of the machine base, a cross beam connected between the supporting parts on the two sides, a movable seat which is transversely slidably connected to the cross beam and an outer cover which is vertically slidably connected to the movable seat, and the X-axis transmission device is mounted on the supporting parts and two sides of the machine base and used for driving the supporting parts to longitudinally move; the Z-axis transmission device is arranged on the cross beam and the moving seat and is used for driving the moving seat to move transversely; the Y-axis transmission device is arranged on the moving seat and the outer cover and is used for driving the outer cover to move vertically; the outer cover lower extreme opening sets up vertically in the outer cover install the cylinder, the flexible end of cylinder is followed the outer cover opening stretches out, the cutting head is installed the flexible end of cylinder.

2. The glass cutting machine according to claim 1, wherein the X-axis transmission device comprises an X-axis slide rail assembly, a first motor driving device and a first gear, the X-axis slide rail assembly is arranged on two outer sides of the base and comprises a first transmission slide rail and a first auxiliary slide rail, the first transmission slide rail is installed in parallel at intervals and comprises a slide rail body and a first rack arranged on the lower side of the slide rail body, a first sliding support seat opposite to the first auxiliary slide rail is arranged on the supporting portion, and the first sliding support seat is slidably installed on the first auxiliary slide rail; the first motor driving device is arranged in the supporting portion, a rotating shaft of the first motor driving device extends out of the supporting portion to be connected with the first gear, the first gear and the first rack are assembled to form a gear-rack transmission structure, and the first gear is driven to roll on the first rack through the first motor driving device, so that the movable tool apron is driven to move in the longitudinal direction.

3. The glass cutting machine according to claim 2, wherein a limit stopper is provided at a front end of the first transmission slide rail and the first auxiliary slide rail.

4. The glass cutting machine according to claim 1, wherein the Z-axis transmission device comprises a Z-axis slide rail assembly, a second motor driving device and a second gear which are arranged in the moving seat, the Z-axis slide rail assembly comprises a second transmission slide rail and a second auxiliary slide rail which are arranged on the upper end surface of the cross beam and are arranged at intervals in parallel, and a third auxiliary slide rail which is arranged on the side surface of the cross beam, the second transmission slide rail comprises a slide rail body and a second rack which is arranged on one side of the slide rail body, the moving seat is provided with an inverted L-shaped connecting position for slidably connecting with the cross beam, the inverted L-shaped connecting position is respectively provided with a second sliding support which is opposite to the second auxiliary slide rail and a third sliding support which is opposite to the third auxiliary slide rail, and the second sliding support is slidably arranged on the second auxiliary slide rail, the third sliding support is slidably mounted on the third auxiliary sliding rail; the rotating shaft of the second motor driving device extends out of the moving seat to be connected with the second gear, the second rack and the second gear are assembled to form a gear rack transmission structure, and the second motor driving device drives the second gear to roll on the second rack so as to drive the moving seat to move transversely.

5. The glass cutting machine according to claim 1, wherein the Y-axis transmission device comprises a Y-axis slide rail assembly and a lead screw transmission assembly arranged on the movable base, the Y-axis slide rail component comprises two fourth auxiliary slide rails which are arranged on the front end surface of the movable seat at intervals in parallel, the screw rod transmission assembly is arranged between the two fourth auxiliary slide rails in parallel at intervals and comprises a screw rod, a third motor driving device driving the screw rod to rotate and a sliding seat arranged on the screw rod and driven by the screw rod to move, the outer cover is arranged on the sliding seat, a fourth sliding support which is opposite to the fourth auxiliary sliding rail is arranged on the two sides of the back surface of the outer cover, the fourth sliding support is slidably mounted on the fourth auxiliary sliding rail, and the outer cover can be driven by the screw rod transmission assembly to vertically move on the moving seat (4).