CN210172823U - Large-breadth laser etching processing equipment - Google Patents

Abstract

The utility model provides a large-breadth laser etching processing device, which comprises a frame and a protective cover component arranged on the upper part of the frame; a multi-azimuth article clamping assembly for placing an article to be processed and a laser engraving processing assembly for carrying out laser processing on the article to be processed are arranged in the rack; a control box for integrally controlling the operation of the equipment is arranged on the outer side of the rack; a plurality of control buttons are arranged on the outer side of the control box; the multi-azimuth object clamping assembly and the laser etching processing assembly (optical processing center) are electrically connected with the control box; diversified article centre gripping subassembly includes rotating base plate, fixed the bracing piece that sets up in rotating base plate upper portion and symmetrical arrangement and erects the first rotating electrical machines that sets up on the bracing piece, among the practical application process, because diversified article centre gripping subassembly has rotating base plate and can the centre gripping and rotate first rotating electrical machines and the bracing piece of waiting to process the article, can reach better nimble effect of adjusting the processing angle, and structural design is reasonable, and the reliability is high.

Description

Large-breadth laser etching processing equipment

[ technical field ]

The utility model relates to a radium carving processing equipment technical field especially relates to a structural design is reasonable, big breadth radium carving processing equipment that radium carving processing flexibility is high.

[ background art ]

Laser carving processing is a process of utilizing a high-intensity focused laser beam emitted by a laser to be at a focus to oxidize materials so as to process the materials, the existing laser carving processing equipment is numerous, some equipment is simple to process without rotating a plane, some equipment is used for clamping an object to be processed by a mechanical arm and then is processed, but the equipment is high in cost, time and labor are consumed for maintenance and repair, the equipment is not beneficial to large-batch use, and some equipment cannot finish accurate processing at difficult angles due to limitation of a processing surface, and the better popularization of the equipment is restricted.

Based on this, a person skilled in the art carries out a great deal of research and development and experiments aiming at the specific structure of the laser etching processing equipment, and obtains better results.

[ contents of utility model ]

For overcoming the problem that prior art exists, the utility model provides a structural design is reasonable, great breadth radium carving processing equipment that radium carving processing flexibility is high.

The utility model provides a solution to the technical problem of providing a large-breadth laser etching processing device, which comprises a frame and a protective cover component arranged on the upper part of the frame; a multi-azimuth article clamping assembly for placing an article to be processed and a laser engraving processing assembly for carrying out laser processing on the article to be processed are arranged in the rack; a signal display screen assembly for displaying processing information and a control box for integrally controlling the operation of equipment are arranged on the outer side of the rack; a plurality of control buttons are arranged on the outer side of the control box; the multi-azimuth object clamping assembly, the laser etching processing assembly and the control box are electrically connected; the multi-directional object clamping assembly comprises a rotating base plate, supporting rods fixedly arranged at the upper part of the rotating base plate and symmetrically arranged, and a first rotating motor erected on the supporting rods, wherein one end of an object to be processed is arranged on the supporting rods, and the other end of the object to be processed is erected at the output shaft part of the first rotating motor; the second rotating motor is used for driving the rotating substrate to rotate; the laser carving processing assembly is arranged close to the multi-azimuth article clamping assembly, and comprises a first-direction slide rail assembly, a second-direction slide rail assembly arranged on the first-direction slide rail assembly in an erecting mode, a vertical lifting assembly capable of moving on the second-direction slide rail assembly in parallel and a laser head assembly arranged on one side of the vertical lifting assembly facing the multi-azimuth article clamping assembly.

Preferably, the laser etching processing assembly is further provided with a first driving motor for driving the second-direction slide rail assembly to move on the first-direction slide rail assembly and a second driving motor for driving the vertical lifting assembly to move on the second-direction slide rail assembly; and a driving cylinder for driving the laser head assembly to move up and down is arranged on the vertical lifting assembly.

Preferably, the two side edges of the rack are respectively provided with a heat dissipation plate provided with a plurality of heat dissipation windows.

Preferably, the signal display screen assembly comprises a signal display screen and a rotary bracket for installing the signal display screen and ensuring that the signal display screen can be adjusted at multiple angles.

Preferably, four opposite angle parts at the bottom of the rack are respectively provided with a roller; still including setting up in the fixed stay pole of frame bottom.

Preferably, the multi-directional object clamping assembly is arranged in the middle of the inside of the rack; and the output shaft of the first rotating motor and the support rod are respectively provided with a clamping block for clamping a substitute processing object.

Preferably, a plurality of heat dissipation fans for improving the heat dissipation performance of the equipment are arranged on the inner side of the periphery of the rack; the plurality of cooling fans are electrically connected with the control box.

Preferably, the upper part of the protective cover component is provided with an alarm flash lamp, the front end face of the protective cover component is also provided with a sliding door for monitoring the internal parts of the rack and the processing process, and the sliding door is provided with a transparent window.

Preferably, the upper part of the rack is also provided with a grating system assembly for improving the safety performance of the equipment.

Compared with the prior art, the utility model relates to a big breadth radium carving processing equipment through set up frame 11 simultaneously and erect set up in safety cover subassembly 12 on frame 11 upper portion, frame 11 inside sets up and is used for placing the diversified article centre gripping subassembly 15 of waiting to process article 2 and is used for treating the radium carving processing subassembly 16 that the article 2 of processing carries out laser beam machining install in the frame 11 outside and be used for carrying out the signal display screen subassembly 13 that processes information display and be used for carrying out overall control's control box 14 to the equipment operation, among the practical application process, because diversified article centre gripping subassembly 15 has rotating substrate 151 and can the centre gripping and rotate first rotating electrical machines 153 and the bracing piece 152 of waiting to process article 2, can reach the effect of better nimble adjustment processing angle, and structural design is reasonable, and the reliability is high.

[ description of the drawings ]

Fig. 1 is a schematic view of a three-dimensional structure of a large-breadth laser etching processing apparatus of the present invention.

Fig. 2 and fig. 3 are schematic diagrams of the internal state structure of the large-format laser etching apparatus of the present invention.

[ detailed description of the invention ]

To make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. 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 3, the large-format laser etching apparatus 1 of the present invention includes a frame 11 and a protective cover assembly 12 disposed on the upper portion of the frame 11; a multi-directional object clamping assembly 15 for placing the object 2 to be processed and a laser etching assembly 16 for performing laser processing on the object 2 to be processed are arranged in the rack 11; a signal display screen assembly 13 for displaying processing information and a control box 14 for integrally controlling the operation of equipment are arranged on the outer side of the rack 11; a plurality of control buttons are arranged on the outer side of the control box 14; the multi-directional object clamping assembly 15, the laser etching processing assembly 16 and the control box 14 are electrically connected; the multi-directional object clamping assembly 15 comprises a rotating base plate 151, support rods 152 fixedly arranged on the upper portion of the rotating base plate 151 and symmetrically arranged, and a first rotating motor 153 erected on the support rods 152, wherein one end of the object 2 to be processed is arranged on the support rods 152, and the other end of the object 2 to be processed is erected at the output shaft of the first rotating motor 153; a second rotating motor for driving the rotating substrate 151 to rotate; the laser engraving processing assembly 16 is arranged close to the multi-directional object clamping assembly 15, and the laser engraving processing assembly 16 comprises a first direction slide rail assembly 161, a second direction slide rail assembly 162 erected on the first direction slide rail assembly 161, a vertical lifting assembly 164 capable of moving in parallel on the second direction slide rail assembly 162 and a laser head assembly 165 arranged on one side, facing the multi-directional object clamping assembly 15, of the vertical lifting assembly 164.

This application through set up frame 11 simultaneously and erect set up in safety cover assembly 12 on frame 11 upper portion, frame 11 inside sets up and is used for placing the diversified article centre gripping subassembly 15 of waiting to process article 2 and is used for treating the radium carving processing subassembly 16 that article 2 carries out laser process of treating processing install in the frame 11 outside and be used for carrying out the signal display screen subassembly 13 that processes information display and be used for carrying out overall control's control box 14 to the equipment operation, among the practical application process, because diversified article centre gripping subassembly 15 has rotating baseplate 151 and can the centre gripping and rotate the first rotating electrical machines 153 and the bracing piece 152 of waiting to process article 2, can reach better nimble effect of adjusting the processing angle, and structural design is reasonable, and the reliability is high.

The rotating base plate 151 can rotate 360 degrees around a vertical axis; the workpiece is arranged on a multi-directional object clamping component 15 (a jig plate) for placing an object to be processed, and the workpiece can rotate 360 degrees around a central shaft parallel to the rotating base plate 151 under the driving of the multi-directional object clamping component 15; the light path of the laser engraving processing assembly 16 (optical processing center) enters from the right side and is driven by the 3D motion system to move in three dimensions.

The equipment has the characteristics that the processing area is increased under the condition of not increasing the laser power; the rotary disc system and the jig rotating system reduce the installation times and improve the processing quality; the optical processing center is inverted, the gravity center is low, the motion is stable, and the equipment height is reduced, so that the precision is ensured.

Preferably, a first driving motor for driving the second direction slide assembly 162 to move on the first direction slide assembly 161 and a second driving motor 163 for driving the vertical lifting assembly 164 to move on the second direction slide assembly 162 are further disposed in the laser etching assembly 16; and a driving cylinder for driving the laser head assembly 165 to move up and down is arranged on the vertical lifting assembly 164.

Preferably, the two side edges of the frame 11 are respectively provided with a heat dissipation plate with a plurality of heat dissipation windows. The heat dissipation performance of the equipment is improved.

Preferably, the signal display screen assembly 13 comprises a signal display screen and a rotating bracket for installing the signal display screen and ensuring that the signal display screen can be adjusted at multiple angles. The angle of the signal display screen can be adjusted.

Preferably, four diagonal positions at the bottom of the frame 11 are respectively provided with a roller; and the device also comprises a fixed support rod arranged at the bottom of the frame 11.

Preferably, the multi-orientation article holding assembly 15 is located at a central portion of the interior of the housing 11; the output shaft of the first rotating motor 153 and the support rod 152 are respectively provided with a clamping block for clamping the object 2 to be processed.

Preferably, a plurality of heat dissipation fans 111 for improving heat dissipation performance of the equipment are installed on the inner side of the periphery of the rack 11; the heat dissipation fans 111 are electrically connected to the control box 14.

Preferably, an alarm flash lamp 121 is installed on the upper portion of the protective cover assembly 12, a sliding door 122 for monitoring the internal components of the rack 11 and the processing process is further disposed on the front end surface of the protective cover assembly 12, and a transparent window is installed on the sliding door 122.

Preferably, the upper part of the frame 11 is also provided with a grating system component for improving the safety performance of the equipment.

Compared with the prior art, the utility model relates to a big breadth radium carving processing equipment 1 through set up frame 11 simultaneously and erect set up in safety cover subassembly 12 on frame 11 upper portion, frame 11 inside set up be used for placing treat processing article 2 diversified article centre gripping subassembly 15 and be used for treating processing article 2 and carry out laser beam machining's radium carving processing subassembly 16 the frame 11 outside is installed and is used for carrying out the signal display screen subassembly 13 that processes information display and is used for carrying out overall control's control box 14 to the equipment operation, among the practical application process, because diversified article centre gripping subassembly 15 has rotating substrate 151 and can the centre gripping and rotate and treat processing article 2's first rotating electrical machines 153 and bracing piece 152, can reach the effect of better nimble adjustment processing angle, and structural design is reasonable, and the reliability is high.

This application has increased the processing area under the condition that does not increase laser power, by diversified article centre gripping subassembly 15, has reduced the installation number of times, has improved processingquality, and radium carving processing subassembly 16 is invertd, and the focus is low to move steadily, and equipment height reduces to the precision has been guaranteed.

The above-mentioned embodiments of the present invention do not limit the scope of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (9)

1. The utility model provides a big breadth radium carving processing equipment which characterized in that: the device comprises a frame and a protective cover assembly arranged on the upper part of the frame; a multi-azimuth article clamping assembly for placing an article to be processed and a laser engraving processing assembly for carrying out laser processing on the article to be processed are arranged in the rack; a signal display screen assembly for displaying processing information and a control box for integrally controlling the operation of equipment are arranged on the outer side of the rack; a plurality of control buttons are arranged on the outer side of the control box; the multi-azimuth object clamping assembly, the laser etching processing assembly and the control box are electrically connected; the multi-directional object clamping assembly comprises a rotating base plate, supporting rods fixedly arranged at the upper part of the rotating base plate and symmetrically arranged, and a first rotating motor arranged on the supporting rods, wherein one end of an object to be processed is arranged on the supporting rods, and the other end of the object to be processed is erected at the output shaft part of the first rotating motor; the second rotating motor is used for driving the rotating substrate to rotate; the laser carving processing assembly is arranged close to the multi-azimuth article clamping assembly and comprises a first-direction slide rail assembly, a second-direction slide rail assembly arranged on the first-direction slide rail assembly, a vertical lifting assembly capable of moving in parallel on the second-direction slide rail assembly and a laser head assembly arranged on one side of the vertical lifting assembly facing the multi-azimuth article clamping assembly.

2. The large-format laser etching processing apparatus of claim 1, wherein: the laser etching processing assembly is also provided with a first driving motor for driving the second-direction slide rail assembly to move on the first-direction slide rail assembly and a second driving motor for driving the vertical lifting assembly to move on the second-direction slide rail assembly; and a driving cylinder for driving the laser head assembly to move up and down is arranged on the vertical lifting assembly.

3. The large-format laser etching processing apparatus of claim 1, wherein: and the two side edges of the rack are respectively provided with a heat dissipation plate provided with a plurality of heat dissipation windows.

4. The large format laser engraving processing apparatus as claimed in any one of claims 1 to 3, wherein: the signal display screen assembly comprises a signal display screen and a rotating bracket which is used for installing the signal display screen and ensuring that the signal display screen can be adjusted at multiple angles.

5. The large-format laser etching processing apparatus of claim 1, wherein: four opposite angle parts at the bottom of the rack are respectively provided with a roller; still including setting up in the fixed stay pole of frame bottom.

6. The large-format laser etching processing apparatus of claim 1, wherein: the multi-directional object clamping assembly is positioned in the middle of the inside of the rack; and the output shaft of the first rotating motor and the support rod are respectively provided with a clamping block for clamping a substitute processing object.

7. The large-format laser etching processing apparatus of claim 1, wherein: a plurality of heat dissipation fans for improving the heat dissipation performance of the equipment are arranged on the inner sides of the periphery of the rack; the plurality of cooling fans are electrically connected with the control box.

8. The large-format laser etching apparatus of claim 1 or 7, wherein: the alarm flash lamp is installed on the upper portion of the protective cover assembly, a sliding door used for monitoring the internal components of the rack and the machining process is further arranged on the front end face of the protective cover assembly, and a transparent window is installed on the sliding door.

9. The large-format laser etching processing apparatus of claim 1, wherein: and the upper part of the rack is also provided with a grating system component for improving the safety performance of the equipment.

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