CN216633054U - Automatic feeding double-track four-laser-head cutting machine - Google Patents

Abstract

The utility model relates to an automatic feeding double-track four-laser-head cutting machine which comprises a workbench and a grid conveying mechanism arranged on the workbench, wherein Y-axis slide rails extending in the front-back direction are respectively arranged on the workbench on two sides of the grid conveying mechanism, two Y-axis slide blocks are matched on each Y-axis slide rail in a sliding mode, two groups of Y-axis driving mechanisms are arranged on each Y-axis slide rail, the two groups of Y-axis driving mechanisms respectively drive the two Y-axis slide blocks to slide along the Y-axis slide rails, two X-axis slide rails are erected on the two Y-axis slide rails, two ends of each X-axis slide rail are matched on the Y-axis slide rails in a sliding mode through one Y-axis slide block respectively, two X-axis slide blocks are matched on each X-axis slide rail in a sliding mode, two groups of X-axis driving mechanisms are arranged on each X-axis slide rail, the two groups of X-axis driving mechanisms respectively drive the two X-axis slide blocks to move along the X-axis slide rails, and a laser cutting head is arranged on each X-axis slide block. The automatic feeding double-track four-laser-head cutting machine has multiple functions and can cut different patterns.

Description

Automatic feeding double-track four-laser-head cutting machine

Technical Field

The utility model relates to the technical field of laser cutting, in particular to an automatic feeding double-track four-laser-head cutting machine.

Background

The laser cutting processing uses invisible light beams to replace the traditional mechanical knife, has the characteristics of high precision, quick cutting, no limitation on cutting patterns, automatic typesetting, material saving, smooth cut, low processing cost and the like, and can gradually improve or replace the traditional metal cutting process equipment. The mechanical part of laser tool bit is contactless with work, can not cause the fish tail to the working surface in work, has the structure that adopts four laser heads of double track among the current laser cutting machine, and two a set of installing on two removal tracks of four laser heads, two removal track synchronous motion, two laser head synchronous motion on the same removal track, so can realize cutting four groups of the same figures of group in step, and the shape that laser cutting machine can process is single, leads to equipment function singleness.

SUMMERY OF THE UTILITY MODEL

In order to overcome the technical defects in the prior art, the utility model provides an automatic feeding double-track four-laser-head cutting machine which has multiple functions and can cut different patterns.

The technical solution adopted by the utility model is as follows: an automatic feeding double-track four-laser-head cutting machine comprises a workbench and a grid conveying mechanism arranged on the workbench, wherein Y-axis slide rails extending in the front-back direction are respectively arranged on the workbench on two sides of the grid conveying mechanism, two Y-axis slide rails are arranged on each Y-axis slide rail in a sliding fit mode, two sets of Y-axis driving mechanisms are arranged on each Y-axis slide rail, the two sets of Y-axis driving mechanisms respectively drive the two Y-axis slide blocks to slide along the Y-axis slide rails, two X-axis slide rails are erected on the two Y-axis slide rails, two ends of each X-axis slide rail are respectively matched on the Y-axis slide rails in a sliding mode through one Y-axis slide block, two X-axis slide blocks are arranged on each X-axis slide rail in a sliding fit mode, two sets of X-axis driving mechanisms are arranged on each X-axis slide rail, the two sets of X-axis driving mechanisms respectively drive the two X-axis slide blocks to move along the X-axis slide rails, and a laser cutting head is arranged on each X-axis slide block, the laser cutting head, the Y-axis driving motor, the X-axis driving motor and the grid conveying mechanism are all electrically connected to a control system of the workbench.

Preferably, each group of Y-axis driving mechanisms comprises a Y-axis driving motor and a Y-axis lead screw which are both mounted on a Y-axis slide rail, each Y-axis lead screw is provided with a Y-axis slide block in a matched mode through a Y-axis nut, and two Y-axis driving motors on the same Y-axis slide rail respectively drive one Y-axis lead screw to rotate.

Preferably, two Y axle feed screws on the same Y axle slide rail set up from top to bottom, are equipped with a Y axle guide bar between two Y axle feed screws, the both ends and the Y axle slide rail rigid coupling of Y axle guide bar, and Y axle slider sliding fit is on the Y axle guide bar that corresponds, still sets up the Y axle through-hole that extends along the fore-and-aft direction on every Y axle slider, and two Y axle feed screws on the same Y axle slide rail wear to establish the Y axle through-hole on two Y axle sliders respectively.

Preferably, each group of X-axis driving mechanisms comprises an X-axis driving motor and an X-axis lead screw which are both installed on an X-axis slide rail, each X-axis lead screw is provided with an X-axis slide block in a matched mode through an X-axis nut, and two X-axis driving motors on the same X-axis slide rail respectively drive one X-axis lead screw to rotate.

Preferably, two X-axis leading screws on the same X-axis slide rail are arranged in the front and back direction, an X-axis guide rod is arranged between the two X-axis leading screws, two ends of the X-axis guide rod are fixedly connected with the X-axis slide rail, an X-axis sliding block is in sliding fit with the corresponding X-axis guide rod, an X-axis through hole extending in the front and back direction is further formed in each X-axis sliding block, and the X-axis through holes in the two X-axis sliding blocks are respectively penetrated by the two X-axis leading screws on the same X-axis slide rail.

Preferably, each Y-axis slide rail is provided with a guide groove with an upward opening, and the lower end of the Y-axis slide block is in sliding fit with the guide groove.

Preferably, the grid conveying mechanism comprises a conveying grid, a conveying motor, a driving roller and a driven roller, wherein the driving roller and the driven roller can be rotatably arranged on the workbench, the conveying grid is sleeved on the driving roller and the driven roller, the conveying motor is arranged on the workbench, and the output end of the conveying motor is in transmission connection with the driving roller.

The utility model has the beneficial effects that: the two X-axis slide rails of the automatic feeding double-rail four-laser-head cutting machine can move independently, two Y-axis slide blocks are driven to move by two Y-axis driving mechanisms which are arranged on each Y-axis guide rail respectively, one X-axis slide rail is driven by two Y-axis driving mechanisms which are arranged on the two Y-axis guide rails synchronously, and two laser cutting heads on the same X-axis slide rail can also move independently.

Drawings

FIG. 1 is a schematic structural view of an automatic feeding double-track four-laser-head cutting machine.

Fig. 2 is an assembly view of the X-axis slide rail of the present invention.

Fig. 3 is an assembly view of the Y-axis slide of the present invention.

Fig. 4 is a schematic structural diagram of the grid conveying mechanism of the utility model.

Description of reference numerals: 1. a work table; 2. a grid conveying mechanism; 201. a drive roll; 202. a driven roller; 203. a conveying motor; 204. a delivery grid; 3. a Y-axis slide rail; 301. a Y-axis slider; 302. a Y-axis drive motor; 303. a Y-axis lead screw; 304. a Y-axis guide bar; 305. a Y-axis nut; 306. a guide groove; 307. a Y-axis through hole; 4. an X-axis slide rail; 401. an X-axis slider; 402. an X-axis drive motor; 404. an X-axis lead screw; 405. an X-axis guide rod; 406. an X-axis nut; 407. an X-axis through hole; 5. laser cutting head.

Detailed Description

The utility model will be further described with reference to the accompanying drawings in which:

as shown in fig. 1 to 4, this embodiment provides an automatic feeding double-track four-laser-head cutting machine, which includes a worktable 1 and a grid conveying mechanism 2 installed on the worktable 1, the worktable 1 on both sides of the grid conveying mechanism 2 is respectively provided with a Y-axis slide rail 3 extending along the front-rear direction, each Y-axis slide rail 3 is slidably fitted with two Y-axis slide blocks 301, and each Y-axis slide rail 3 is provided with two sets of Y-axis driving mechanisms, the two sets of Y-axis driving mechanisms respectively drive the two Y-axis slide blocks 301 to slide along the Y-axis slide rail 3, the two Y-axis slide rails 3 are provided with two X-axis slide rails 4, both ends of each X-axis slide rail 4 are slidably fitted on the Y-axis slide rails 3 through one Y-axis slide block 301, each X-axis slide rail 4 is slidably fitted with two X-axis slide blocks 401, and each X-axis slide rail 4 is provided with two sets of X-axis driving mechanisms, two X-axis drive mechanisms respectively drive two X-axis sliding blocks 401 to move along an X-axis sliding rail 4, a laser cutting head 5 is installed on each X-axis sliding block 401, and the laser cutting head 5, the Y-axis drive motor 302, the X-axis drive motor 402 and the grid conveying mechanism 2 are electrically connected to a control system of the workbench 1. The automatic feeding double-track four-laser-head cutting machine can work asynchronously, and the cutting modes are more diversified.

In this embodiment, each group of Y-axis driving mechanisms includes a Y-axis driving motor 302 and a Y-axis lead screw 303 both mounted on a Y-axis slide rail 3, each Y-axis lead screw 303 is provided with a Y-axis slider 301 through a Y-axis nut 305, two Y-axis driving motors 302 on the same Y-axis slide rail 3 respectively drive one Y-axis lead screw 303 to rotate, two Y-axis lead screws 303 on the same Y-axis slide rail 3 are vertically disposed, a Y-axis guide rod 304 is disposed between the two Y-axis lead screws 303, two ends of the Y-axis guide rod 304 are fixedly connected with the Y-axis slide rail 3, the Y-axis slider 301 is slidably fitted on the corresponding Y-axis guide rod 304, each Y-axis slider 301 is further provided with a Y-axis through hole 307 extending in the front-back direction, and two Y-axis lead screws 303 on the same Y-axis slide rail 3 respectively penetrate through the Y-axis through holes 307 on the two Y-axis sliders 301. One X-axis slide rail 4 is synchronously driven by two groups of Y-axis driving mechanisms on the two Y-axis slide rails 3, and the two X-axis slide rails 4 can realize synchronous movement or asynchronous movement. Preferably, each Y-axis slide rail 3 is provided with a guide groove 306 with an upward opening, the lower end of the Y-axis slide block 301 is in sliding fit with the guide groove 306, and the guide groove 306 is used for bearing the Y-axis slide block 301, so as to prevent the Y-axis screw 303 and the Y-axis guide rod 304 from being adversely affected by the excessive load of the Y-axis slide block 301.

In this embodiment, each group of X-axis driving mechanisms includes an X-axis driving motor 402 and an X-axis lead screw 404 both mounted on an X-axis slide rail 4, each X-axis lead screw 404 is provided with an X-axis slider 401 in a matching manner through an X-axis nut 406, two X-axis driving motors 402 on the same X-axis rail respectively drive one X-axis lead screw 404 to rotate, two X-axis lead screws 404 on the same X-axis slide rail 4 are arranged in front and at back, an X-axis guide rod 405 is arranged between the two X-axis lead screws 404, two ends of the X-axis guide rod 405 are fixedly connected with the X-axis slide rail 4, the X-axis slider 401 is slidably fitted on the corresponding X-axis guide rod 405, each X-axis slider 401 is further provided with an X-axis through hole 407 extending in front and back directions, the two X-axis lead screws 404 on the same X-axis slide rail 4 respectively penetrate through the X-axis through holes 407 on the two X-axis sliders 401, and the two laser cutting heads 5 can move synchronously or asynchronously.

In this embodiment, the grid conveying mechanism 2 includes a conveying grid 204, a conveying motor 203, a driving roller 201 and a driven roller 202, the driving roller 201 and the driven roller 202 are both rotatably installed on the workbench 1, the conveying grid 204 is sleeved on the driving roller 201 and the driven roller 202, the conveying motor 203 is installed on the workbench 1, an output end of the conveying motor is in transmission connection with the driving roller 201, and a structure of the grid conveying mechanism 2 is a common structure in the technical field.

The two X-axis slide rails 4 of the automatic feeding double-track four-laser-head cutting machine can move independently, two Y-axis slide blocks 301 are driven to move by two Y-axis driving mechanisms mounted on each Y-axis guide rail respectively, one X-axis slide rail 4 is driven by two Y-axis driving mechanisms arranged on the two Y-axis guide rails synchronously, and two laser cutting heads 5 on the same X-axis slide rail 4 can also move independently.

While there have been shown and described what are at present considered the fundamental principles and essential features of the utility model and its advantages, it will be understood by those skilled in the art that the utility model is not limited by the embodiments described above, which are merely illustrative of the principles of the utility model, but that various changes and modifications may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims and their equivalents.

Claims (7)

1. Automatic four laser head cutting machines of pay-off double track, its characterized in that: including the workstation and install the net conveying mechanism on the workstation, be equipped with a Y axle slide rail that extends along the fore-and-aft direction on the workstation of net conveying mechanism both sides respectively, sliding fit has two Y axle sliders on every Y axle slide rail, and install two sets of Y axle actuating mechanism on every Y axle slide rail, two sets of Y axle actuating mechanism drive two Y axle sliders respectively and slide along Y axle slide rail, two Y axle slide rails have been erect on the slide rail of two Y axles, the both ends of every X axle slide rail are respectively through a Y axle slider sliding fit on Y axle slide rail, sliding fit has two X axle sliders on every X axle slide rail, and install two sets of X axle actuating mechanism on every X axle slide rail, two sets of X axle actuating mechanism drive two X axle sliders respectively and remove along X axle slide rail, install a laser cutting head on every X axle slider.

2. The autoloading double track four laser head cutting machine of claim 1, characterized by: each group of Y-axis driving mechanisms comprises Y-axis driving motors and Y-axis lead screws which are all installed on Y-axis slide rails, each Y-axis lead screw is provided with a Y-axis sliding block in a matched mode through a Y-axis nut, and the two Y-axis driving motors on the same Y-axis slide rail respectively drive one Y-axis lead screw to rotate.

3. The autoloading double track four laser head cutting machine of claim 2, characterized by: two Y axle feed screws on same Y axle slide rail set up from top to bottom, are equipped with a Y axle guide bar between two Y axle feed screws, the both ends and the Y axle slide rail rigid coupling of Y axle guide bar, Y axle slider sliding fit is on the Y axle guide bar that corresponds, still sets up the Y axle through-hole that extends along the fore-and-aft direction on every Y axle slider, and two Y axle feed screws on same Y axle slide rail wear to establish the Y axle through-hole on two Y axle sliders respectively.

4. The autoloading double track four laser head cutting machine of claim 1, characterized by: each group of X-axis driving mechanisms comprises an X-axis driving motor and an X-axis lead screw which are both installed on an X-axis slide rail, each X-axis lead screw is provided with an X-axis slide block in a matched mode through an X-axis nut, and two X-axis driving motors on the same X-axis slide rail respectively drive one X-axis lead screw to rotate.

5. The autoloading double track four laser head cutting machine of claim 4, characterized by: two X axle screw on same X axle slide rail set up around, are equipped with an X axle guide bar between two X axle screws, the both ends and the X axle slide rail rigid coupling of X axle guide bar, and X axle slider sliding fit is on the X axle guide bar that corresponds, still sets up the X axle through-hole that extends along the fore-and-aft direction on every X axle slider, and two X axle screws on same X axle slide rail wear to establish the X axle through-hole on two X axle sliders respectively.

6. The autoloading double track four laser head cutting machine of claim 1, characterized by: and each Y-axis slide rail is provided with a guide groove with an upward opening, and the lower end of the Y-axis slide block is in sliding fit with the guide groove.

7. The autoloading double track four laser head cutting machine of claim 1, characterized by: the grid conveying mechanism comprises a conveying grid, a conveying motor, a driving roller and a driven roller, wherein the driving roller and the driven roller can be rotatably arranged on the workbench, the conveying grid is sleeved on the driving roller and the driven roller, the conveying motor is arranged on the workbench, and the output end of the conveying motor is in transmission connection with the driving roller.

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