CN220665166U - Quick glass cutting device - Google Patents

Abstract

The utility model relates to the technical field of glass cutting equipment, in particular to a glass rapid cutting device. According to the laser head clamping box, the clamping box for installing the laser head is arranged at one end of the connecting block, the clamping parts are arranged on the end faces around the clamping box, one end of the bottom of the clamping part is abutted against the end face of the laser head side and rotates around the supporting part, the springs between the clamping parts and the end face of the clamping box are pulled to stretch, the springs provide a reaction force to enable the clamping part to clamp the laser head, the laser heads with different sizes are fast clamped and installed, the glass with different thicknesses is cut fast and efficiently, the debugging and installation time is shortened, and the production and machining efficiency is improved.

Description

Quick glass cutting device

Technical Field

The utility model relates to the technical field of glass cutting equipment, in particular to a glass rapid cutting device.

Background

In recent years, glass industry is vigorous development, a glass cutting machine is an essential basic device for glass processing production, a large substrate can be cut into any required size by using the glass cutting machine, a focused laser glass surface is adopted for laser cutting, the high energy density of the laser promotes glass to be melted, and meanwhile, the melted glass is blown away by air flow, and along with the relative linear movement of a light beam and a material, a hole is continuously formed into a kerf with very narrow width for cutting.

The prior art has the following defects in the using process:

1. when the glass cutting device is used, because the glass thickness is different, the laser heads with different powers are required to be replaced according to the glass thickness to be cut for cutting, the laser heads are required to be replaced by using tools to detach the mounting base of the laser heads, and then the corresponding base is replaced according to the size of the laser heads for mounting and fixing the laser heads, so that the operation is complex, the time is long, and the glass cutting efficiency is influenced;

2. when the glass is used, high temperature remains in the cut glass, at the moment, the glass is treated or carried, scalding accidents easily occur, the next working procedure treatment can be performed after the glass is cooled, but the glass is cooled to a proper temperature for a long time, so that efficiency is reduced.

In view of this, we propose a glass rapid cutting device to solve the existing problems.

Disclosure of Invention

The utility model aims to provide a glass rapid cutting device for solving the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a quick segmentation device of glass, includes workstation and clamping box, the bearing frame is installed to both sides installation symmetry all around to the workstation mesa, rotate between the bearing frame and be connected with first pivot, and install a plurality of gyro wheels in the first pivot, X axle slide rail is installed to workstation side both ends symmetry, slidable mounting has the portal frame between the X axle slide rail of both sides, Y axle slide rail is installed to portal frame top one end, Y axle slide rail sliding connection has the connecting block, connecting block one side terminal surface is provided with the clamping box, and clamping box passes through installation department and connecting block fixed connection, the clamping box is the cuboid, clamping box central part separately is equipped with the cavity, and clamping box bottom is equipped with the fretwork flange, the connecting block is kept away from clamping box one side and is installed heat dissipation module.

Preferably, rectangular grooves are formed in the peripheral end faces of the bottom of the clamping box, supporting portions are further arranged on the peripheral end faces of the clamping box and are arranged above the rectangular grooves, the supporting portions are connected with clamping portions in a rotating mode through second rotating shafts, one end of the bottom of each clamping portion penetrates through the rectangular grooves to be arranged on one side of the inside of the cavity of the clamping box, and springs are connected with the outer end faces of the clamping portions and the clamping box.

Preferably, the heat dissipation module comprises a shell, an air outlet, an air inlet and fans, wherein the air inlet is arranged on one side, far away from the connecting block, of the shell, the air outlet is further arranged at the bottom of the shell, the shell is hollow, and a plurality of fans are arranged in the shell.

Preferably, two sides of the table surface of the workbench are rotatably connected with a plurality of driven shafts, and the driven shafts are sleeved with a plurality of driven wheels.

Preferably, a frame is arranged around the bottom of the workbench.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the laser head clamping box, the clamping box for installing the laser head is arranged at one end of the connecting block, the clamping parts are arranged on the end faces around the clamping box, one end of the bottom of the clamping part is abutted against the end face of the laser head side and rotates around the supporting part, the springs between the clamping parts and the end face of the clamping box are pulled to stretch, the springs provide a reaction force to enable the clamping part to clamp the laser head, the laser heads with different sizes are fast clamped and installed, the glass with different thicknesses is cut fast and efficiently, the debugging and installation time is shortened, and the production and machining efficiency is improved.

2. According to the utility model, the air inlet is arranged at one side of the shell, the air is sucked from the air outlet through the rotation of the fan to conduct heat dissipation treatment on the surface of the glass, and the heat is taken away by accelerating the air flow speed, so that the temperature accumulated in the glass is reduced, the next working procedure is conveniently carried out, and the production efficiency is improved.

Drawings

FIG. 1 is a schematic elevational view of the present utility model;

FIG. 2 is a schematic view of a partial cross-sectional structure of the present utility model;

FIG. 3 is a schematic view of a partial three-dimensional structure of the present utility model;

fig. 4 is a schematic view of a partial three-dimensional structure of the present utility model.

In the figure: 1. a work table; 101. a first rotating shaft; 102. a roller; 103. a driven shaft; 104. driven wheel; 2. a bearing seat; 3. a frame; 4. an X-axis sliding rail; 5. a portal frame; 501. a Y-axis sliding rail; 6. clamping and boxing; 601. a mounting part; 602. a support part; 603. a second rotating shaft; 604. a spring; 605. a clamping part; 606. rectangular grooves; 607. routing the flange; 7. a connecting block; 8. a heat dissipation module; 801. a housing; 802. an air outlet; 803. an air inlet; 804. a fan.

Detailed Description

The technical scheme of the utility model is further described below with reference to the attached drawings and specific embodiments.

Example 1

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, the glass rapid cutting device provided by the utility model comprises a workbench 1 and a clamping box 6, wherein bearing seats 2 are symmetrically arranged on two sides around the table top of the workbench 1, a first rotating shaft 101 is rotatably connected between the bearing seats 2, a plurality of rollers 102 are arranged on the first rotating shaft 101 and used for conveying glass, an X-axis sliding rail 4 is symmetrically arranged at two ends of the side surface of the workbench 1, a portal frame 5 is slidably arranged between the X-axis sliding rails 4 on two sides, a Y-axis sliding rail 501 is arranged at one end of the top of the portal frame 5 and used for realizing movement along the X, Y axial direction, a connecting block 7 is slidably connected with the Y-axis sliding rail 501, one side end surface of the connecting block 7 is provided with the clamping box 6, the clamping box 6 is fixedly connected with the connecting block 7 through a mounting part 601, the clamping box 6 is cuboid, a cavity is formed in the center part of the clamping box 6, a hollow-out flange 607 is arranged at the bottom of the clamping box 6 and used for rapidly replacing and installing a laser head, and one side of the connecting block 7 is far away from the clamping box 6 is provided with a heat dissipation module 8.

Further, rectangular grooves 606 are formed in the peripheral end faces of the bottom of the clamping box 6, supporting portions 602 are further arranged on the peripheral end faces of the clamping box 6, the supporting portions 602 are arranged above the rectangular grooves 606, the supporting portions 602 are rotationally connected with clamping portions 605 through second rotating shafts 603, one ends of the bottoms of the clamping portions 605 penetrate through the rectangular grooves 606 and are arranged on one side of the inner portion of a cavity of the clamping box 6 and are used for being connected with a laser head, the clamping portions 605 are connected with springs 604 with the outer side end faces of the clamping box 6, when the laser head is installed, the side ends of the laser head are abutted to the clamping portions 605, the clamping portions 605 rotate towards the outer side of the clamping box 6 around the supporting portions 602, tension force of the springs 604 acts on and stretches, and after the laser head is taken down, the springs 604 shrink to drive the clamping portions 605 to reset.

Further, the heat dissipation module 8 includes casing 801, air outlet 802, air intake 803 and fan 804, casing 801 is kept away from connecting block 7 one side and is equipped with air intake 803, and the casing 801 bottom still is equipped with air outlet 802, the inside cavity of casing 801, and casing 801 internally mounted has a plurality of fans 804, rotates through the inboard fan 804 of casing 801, inhales the air from air intake 803, derives from air outlet 802, increases air fluidity, for the glass cooling after the cutting.

Further, two sides of the table top of the workbench 1 are rotatably connected with a plurality of driven shafts 103, and the driven shafts 103 are sleeved with a plurality of driven wheels 104 for assisting glass conveying.

Further, the frame 3 is arranged around the bottom of the workbench 1, so that the workbench has a supporting function, and meanwhile, the structural strength of the workbench 1 is improved.

The working principle of the glass rapid cutting device based on the first embodiment is as follows: when the glass processing device is used, a power supply is connected, glass is placed above the roller 102 and the driven wheel 104, the motor arranged on the bearing seat 2 drives the first rotating shaft 101 to rotate, the first rotating shaft 101 drives the roller 102 to rotate, the driven wheel 104 rotates under friction stress, and then the glass is sent into a processing area of the workbench 1; during cutting, move connecting block 7 to predetermined processing position through X axle slide rail 4 and Y axle slide rail 501, the measurement glass thickness, select corresponding laser head according to glass thickness, during the installation, laser head transmission laser one end and the top terminal surface butt of clamping box 6 bottom fretwork flange 607, laser head side butt joint portion 605, make joint portion 605 atress rotate to clamping box 6 outside terminal surface around supporting part 602, simultaneously extension spring 604, spring 604 receives clamping portion 605 pulling force effect, simultaneously provide the reaction force for joint portion 605, make clamping portion 605 joint clamp the laser head, make the laser head fix at clamping box 6 cavity center, the laser head moves along predetermined cutting track and cuts, the inside fan 804 of casing 801 is rotated at a high speed and is inhaled the air through air intake 803 simultaneously, blow out from air outlet 802, accelerate the air flow, dispel the heat to the glass surface, reduce the inside glass temperature, be convenient for carry out subsequent processing fast, after the completion cutting, first pivot 101 rotates under motor drive and sends the glass after cutting into next process.

The above-described embodiments are merely a few preferred embodiments of the present utility model, and many alternative modifications and combinations of the above-described embodiments will be apparent to those skilled in the art based on the technical solutions of the present utility model and the related teachings of the above-described embodiments.

Claims (5)

1. The utility model provides a quick segmentation device of glass, includes workstation (1) and clamping box (6), its characterized in that: the utility model discloses a heat dissipation module (8) is kept away from to clamp box (6) one side to work platform (1) mesa both sides installation symmetry around have bearing frame (2), rotate between bearing frame (2) and be connected with first pivot (101), and install a plurality of gyro wheels (102) on first pivot (101), X axle slide rail (4) are installed to workstation (1) side both ends symmetry, slidable mounting has portal frame (5) between X axle slide rail (4) in both sides, Y axle slide rail (501) are installed to portal frame (5) top one end, Y axle slide rail (501) sliding connection has connecting block (7), connecting block (7) one side terminal surface is provided with clamp box (6), and clamp box (6) are through installation department (601) and connecting block (7) fixed connection, clamp box (6) are the cuboid, clamp box (6) center part has seted up the cavity, and clamp box (6) bottom is equipped with fretwork flange (607), clamp box (6) one side is kept away from to connecting block (7).

2. A rapid glass cutting apparatus according to claim 1, wherein: the clamping box (6) bottom all is equipped with rectangular channel (606) around the terminal surface, still be equipped with supporting part (602) on clamping box (6) terminal surface around, and supporting part (602) are in rectangular channel (606) top, supporting part (602) are connected with joint portion (605) through second pivot (603) rotation, rectangular channel (606) are passed to joint portion (605) bottom one end setting in clamping box (6) cavity inside one side, joint portion (605) are connected with spring (604) with clamping box (6) outside terminal surface.

3. A rapid glass cutting apparatus according to claim 1, wherein: the heat dissipation module (8) comprises a shell (801), an air outlet (802), an air inlet (803) and fans (804), wherein the air inlet (803) is formed in one side, far away from the connecting block (7), of the shell (801), the air outlet (802) is further formed in the bottom of the shell (801), the shell (801) is hollow, and a plurality of fans (804) are mounted in the shell (801).

4. A rapid glass cutting apparatus according to claim 1, wherein: the two sides of the table top of the workbench (1) are rotationally connected with a plurality of driven shafts (103), and the driven shafts (103) are sleeved with a plurality of driven wheels (104).

5. A rapid glass cutting apparatus according to claim 1, wherein: the periphery of the bottom of the workbench (1) is provided with a frame (3).