CN211966329U - Duplex position double-end 3D radium carving machine - Google Patents

Abstract

The utility model provides a double-station double-head 3D laser engraving machine, which comprises a laser processing cabinet, a control box and a double-station double-head laser engraving platform, wherein the control box and the double-station double-head laser engraving platform are arranged in the laser processing cabinet; a signal display screen and a plurality of control buttons for operation and control and signal display are arranged on the outer side of the laser processing cabinet, and a visual panel is arranged on the front side of the laser processing cabinet; double-station double-end laser engraving platform comprises a base plate, a first laser processing assembly and a second laser processing assembly which are arranged on the base plate and are arranged at the rear side of the base plate, and a first translation track and a second translation track which are arranged at the front parts of the first laser processing assembly and the second laser processing assembly, the movement of a material clamp on the first translation track and the second translation track is utilized, an object to be processed is moved to the first laser processing assembly and the second laser processing assembly from an installation position, laser processing is carried out, the structure of a rotary clamping mechanism is combined, multi-freedom-degree processing can be achieved, the flexibility is high, and the processing efficiency is enhanced.

Description

Duplex position double-end 3D radium carving machine

[ technical field ]

The utility model relates to a radium carving machine equipment technical field especially relates to an degree of automation is high, and the outstanding duplex position double-end 3D radium carving machine of application effect.

[ background art ]

The laser engraving machine engraves permanent marks on the surface of a substance or in a transparent substance by using a laser (laser) beam.

The laser beam can generate a biochemical effect and a special effect on a substance, and the substance can generate a physical or chemical reaction after absorbing the laser beam instantly so as to score marks or display patterns or characters, so the laser beam is also called as a laser marking machine or a laser engraving machine.

However, the existing laser processing equipment still has many defects, such as low automation degree, low processing efficiency, incapability of realizing accurate processing treatment on a special processing surface, incapability of meeting the requirement of actual efficiency in partial occasions, and the like, and restricts better application of the equipment.

Based on this, those skilled in the art have made a lot of research and development and experiments, and have started to improve and improve from the specific configuration part of the laser processing apparatus, and have achieved better results.

[ contents of utility model ]

For overcoming the problem that prior art exists, the utility model provides a degree of automation is high, uses the outstanding duplex position double-end 3D radium carving machine of effect.

The utility model provides a double-station double-head 3D laser engraving machine, which comprises a laser processing cabinet, a control box arranged inside the laser processing cabinet and a double-station double-head laser engraving platform; a signal display screen and a plurality of control buttons for operation and control and signal display are arranged on the outer side of the laser processing cabinet, and at least one visual panel for placing an object to be processed to the double-station double-head laser etching platform inside the laser processing cabinet is arranged on the front surface of the laser processing cabinet; the double-station double-head laser etching platform comprises a substrate, a first laser processing assembly, a second laser processing assembly, a first translation rail and a second translation rail, wherein the first laser processing assembly and the second laser processing assembly are arranged on the rear side of the substrate, and the first translation rail and the second translation rail are positioned in front of the first laser processing assembly and the second laser processing assembly; the first translation track and the second translation track are arranged in parallel, and material clamps which can move in parallel on the tracks and move the object from the mounting position to the processing position are respectively erected on the first translation track and the second translation track; the material clamp comprises a sliding block, a longitudinal moving block and a rotary clamping mechanism, wherein the sliding block is arranged on a first translation track and a second translation track, the longitudinal moving block is arranged on the sliding block, the rotary clamping mechanism is arranged on the upper portion of the longitudinal moving block, and an object fixing plate used for fixing an object to be machined is arranged on the upper portion of the rotary clamping mechanism.

Preferably, the first laser processing assembly and the second laser processing assembly have the same structure, and the first laser processing assembly comprises a first laser head, a first optical cavity and a first lifting rod which is arranged at the rear part of the first optical cavity and used for driving the first laser head to move up and down; a first supporting rod used for installing a first laser processing assembly on the substrate is further arranged at the lower part of the first lifting rod; the second laser processing assembly comprises a second laser head, a second optical cavity and a second lifting rod which is positioned at the rear part of the second optical cavity and used for driving the second laser head to move up and down; and a second supporting rod used for installing a second laser processing assembly on the substrate is further arranged at the lower part of the second lifting rod.

Preferably, a laser, a beam expander, a three-dimensional dynamic focusing galvanometer, a scanning galvanometer and a field lens are respectively arranged in the first optical cavity and the second optical cavity; the light beam emitted by the laser firstly irradiates to the beam expander, then enters the three-dimensional dynamic focusing galvanometer through the beam expander, and finally reaches the scanning galvanometer area; and finally, the laser beam is emitted through the first laser head and the second laser head.

Preferably, the end parts of one ends of the first translation track and the second translation track are respectively provided with a first driving motor for driving the material clamp to move in parallel; a second driving motor for driving the rotary clamping mechanism to rotate is arranged on the longitudinal moving block; the third driving motor is arranged on the upper portion of the rotary clamping mechanism and used for driving the object fixing plate to rotate around the fixing shaft in the axial direction.

Preferably, the upper part of the rotary clamping mechanism is in a U-shaped structure, and the object fixing plate is positioned in the middle of the rotary clamping mechanism in the U-shaped structure; the third driving motor is positioned outside the U-shaped structure rotary clamping mechanism.

Preferably, the front part of the laser processing cabinet is also provided with a control window which is positioned at the lower side of the visual panel; a first access cover is arranged on the left side of the laser processing cabinet, and a second access cover is arranged on the right side of the laser processing cabinet; and an alarm is also arranged at the upper part of the laser processing cabinet.

Preferably, a dust hood is further arranged in the middle of the first laser processing assembly and the second laser processing assembly, and an exhaust port communicated with the dust hood is arranged at the upper part of the laser processing cabinet.

Compared with the prior art, the double-station double-head 3D laser engraving machine of the utility model is convenient for the control of operators by simultaneously arranging the laser processing cabinet 11, the control box and the double-station double-head laser engraving platform 12 which are arranged inside the laser processing cabinet 11, the signal display screen 113 and the control buttons 112 which are used for controlling and displaying signals are arranged outside the laser processing cabinet 11, and the front surface of the laser processing cabinet 11 is at least provided with the visual panel 115 which is used for placing the object to be processed to the double-station double-head laser engraving platform 12 inside the laser processing cabinet 11, the double-station double-head laser engraving platform 12 comprises a base plate 121, a first laser processing component 126 and a second laser processing component 127 which are arranged at the rear part of the base plate 121, and a first translation track 122 and a second translation track 123 which are arranged at the front parts of the first laser processing component 126 and the second laser processing component 127, the first translation rail 122 and the second translation rail 123 are arranged in parallel, and a material clamp (124/125) which can move in parallel on the rails and move an object from an installation position to a processing position is erected on the first translation rail 122 and the second translation rail 123 respectively, in the application, the first laser processing assembly 126, the second laser processing assembly 127 and the first translation rail 122 and the second translation rail 123 are structurally designed, the object to be processed is moved from the installation position to the first laser processing assembly 126 and the second laser processing assembly 127 by utilizing the movement of the material clamp (124/125) on the first translation rail 122 and the second translation rail 123, laser processing is carried out, and the structure of a rotary clamping mechanism is combined, so that the processing with multiple degrees of freedom can be achieved, the flexibility is high, and the processing efficiency is enhanced.

[ description of the drawings ]

Fig. 1 and fig. 2 are schematic diagrams of the three-dimensional state of the double-station double-head 3D laser engraving machine of the present invention.

Fig. 3 is the utility model relates to an inside state schematic diagram of duplex position double-end 3D radium carving machine.

[ 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 double-station double-head 3D laser etching machine 1 of the present invention includes a laser processing cabinet 11, and a control box and a double-station double-head laser etching platform 12 disposed inside the laser processing cabinet 11; a signal display screen 113 and a plurality of control buttons 112 for operation and control and signal display are arranged on the outer side of the laser processing cabinet 11, and at least one visual panel 115 for placing an object to be processed to the double-station double-head laser etching platform 12 inside the laser processing cabinet 11 is arranged on the front side of the laser processing cabinet 11; the double-station double-head laser etching platform 12 comprises a substrate 121, a first laser processing assembly 126 and a second laser processing assembly 127 which are arranged on the rear side of the substrate 121, and a first translation rail 122 and a second translation rail 123 which are arranged in front of the first laser processing assembly 126 and the second laser processing assembly 127; the first translation rail 122 and the second translation rail 123 are arranged in parallel, and material clamps (124/125) which can move in parallel on the rails and move the objects from the mounting position to the processing position are respectively erected on the first translation rail 122 and the second translation rail 123; the material clamp (124/125) comprises a sliding block arranged on the first translation track 122 and the second translation track 123, a longitudinal moving block arranged on the sliding block, and a rotary clamping mechanism arranged on the upper portion of the longitudinal moving block, wherein an object fixing plate used for fixing an object to be processed is arranged on the upper portion of the rotary clamping mechanism.

The laser processing machine is characterized in that a laser processing cabinet 11, a control box and a double-station double-head laser etching platform 12 are arranged inside the laser processing cabinet 11, a signal display screen 113 and a plurality of control buttons 112 are arranged outside the laser processing cabinet 11 for operation and control of a signal display, and at least one visual panel 115 for placing an object to be processed to the double-station double-head laser etching platform 12 inside the laser processing cabinet 11 is arranged on the front surface of the laser processing cabinet 11, the double-station double-head laser etching platform 12 comprises a base plate 121, a first laser processing assembly 126 and a second laser processing assembly 127 arranged on the rear side of the base plate 121, and a first translation rail 122 and a second translation rail 123 arranged in front of the first laser processing assembly 126 and the second laser processing assembly 127, wherein the first translation rail 122 and the second translation rail 123 are arranged in parallel to each other, and the first translation track 122 and the second translation track 123 are respectively provided with a material clamp (124/125) which can move in parallel on the track and move an object from an installation position to a processing position, in the application, the first laser processing assembly 126, the second laser processing assembly 127 and the structural design of the first translation track 122 and the second translation track 123 utilize the movement of the material clamp (124/125) on the first translation track 122 and the second translation track 123 to move the object to be processed from the installation position to the first laser processing assembly 126 and the second laser processing assembly 127 position for laser processing, and the structure of the rotary clamping mechanism is combined, so that the processing with multiple degrees of freedom can be achieved, the flexibility is high, and the processing efficiency is enhanced.

The application does not relate to the improvement to software and circuit part, what protect is that duplex position double-end 3D radium carving machine 1 overall structure, especially inside duplex position double-end radium carving platform 12 structure.

Preferably, the first laser processing assembly 126 and the second laser processing assembly 127 are identical in structure, and the first laser processing assembly 126 comprises a first laser head, a first optical cavity and a first lifting rod which is arranged at the rear part of the first optical cavity and used for driving the first laser head to move up and down; a first supporting rod used for installing a first laser processing assembly on the substrate is further arranged at the lower part of the first lifting rod; the second laser processing assembly 127 comprises a second laser head, a second optical cavity and a second lifting rod which is arranged at the rear part of the second optical cavity and used for driving the second laser head to move up and down; and a second supporting rod used for installing a second laser processing assembly on the substrate is further arranged at the lower part of the second lifting rod.

Preferably, a laser, a beam expander, a three-dimensional dynamic focusing galvanometer, a scanning galvanometer and a field lens are respectively arranged in the first optical cavity and the second optical cavity; the light beam emitted by the laser firstly irradiates to the beam expander, then enters the three-dimensional dynamic focusing galvanometer through the beam expander, and finally reaches the scanning galvanometer area; and finally, the laser beam is emitted through the first laser head and the second laser head.

Preferably, the end parts of one ends of the first translation rail 122 and the second translation rail 123 are respectively provided with a first driving motor (1221/1231) for driving the material clamp (124/125) to move in parallel; a second driving motor for driving the rotary clamping mechanism to rotate is arranged on the longitudinal moving block; the third driving motor is arranged on the upper portion of the rotary clamping mechanism and used for driving the object fixing plate to rotate around the fixing shaft in the axial direction.

Preferably, the upper part of the rotary clamping mechanism is in a U-shaped structure, and the object fixing plate is positioned in the middle of the rotary clamping mechanism in the U-shaped structure; the third driving motor is positioned outside the U-shaped structure rotary clamping mechanism.

Preferably, the front of the laser processing cabinet 11 is further provided with a control window 114, and the control window 114 is positioned at the lower side of the visual panel 115; a first access cover 116 is arranged on the left side of the laser processing cabinet 11, and a second access cover 117 is arranged on the right side of the laser processing cabinet 11; an alarm 111 is further arranged on the upper portion of the laser processing cabinet 11.

Preferably, a dust hood 128 is further disposed in the middle of the first laser processing assembly 126 and the second laser processing assembly 127, and an air outlet communicated with the dust hood 128 is disposed at the upper portion of the laser processing cabinet 11.

Compared with the prior art, the double-station double-head 3D laser engraving machine 1 of the utility model is convenient for the control of operators by simultaneously arranging the laser processing cabinet 11, the control box and the double-station double-head laser engraving platform 12 which are arranged inside the laser processing cabinet 11, the signal display screen 113 and the control buttons 112 which are used for controlling and displaying signals are arranged outside the laser processing cabinet 11, the front surface of the laser processing cabinet 11 is at least provided with the visual panel 115 which is used for placing the object to be processed to the double-station double-head laser engraving platform 12 inside the laser processing cabinet 11, the double-station double-head laser engraving platform 12 comprises a base plate 121, a first laser processing component 126 and a second laser processing component 127 which are arranged at the rear side part of the base plate 121, and a first translation track 122 and a second translation track 123 which are arranged at the front parts of the first laser processing component 126 and the second laser processing component 127, the first translation rail 122 and the second translation rail 123 are arranged in parallel, and a material clamp (124/125) which can move in parallel on the rails and move an object from an installation position to a processing position is erected on the first translation rail 122 and the second translation rail 123 respectively, in the application, the first laser processing assembly 126, the second laser processing assembly 127 and the first translation rail 122 and the second translation rail 123 are structurally designed, the object to be processed is moved from the installation position to the first laser processing assembly 126 and the second laser processing assembly 127 by utilizing the movement of the material clamp (124/125) on the first translation rail 122 and the second translation rail 123, laser processing is carried out, and the structure of a rotary clamping mechanism is combined, so that the processing with multiple degrees of freedom can be achieved, the flexibility is high, and the processing efficiency is enhanced.

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 (7)

1. The utility model provides a duplex position double-end 3D radium carving machine which characterized in that: the laser processing machine comprises a laser processing machine cabinet, a control box and a double-station double-head laser etching platform, wherein the control box and the double-station double-head laser etching platform are arranged in the laser processing machine cabinet; a signal display screen and a plurality of control buttons for operation and control and signal display are arranged on the outer side of the laser processing cabinet, and at least one visual panel for placing an object to be processed to the double-station double-head laser etching platform inside the laser processing cabinet is arranged on the front surface of the laser processing cabinet; the double-station double-head laser etching platform comprises a substrate, a first laser processing assembly, a second laser processing assembly, a first translation rail and a second translation rail, wherein the first laser processing assembly and the second laser processing assembly are arranged on the rear side of the substrate, and the first translation rail and the second translation rail are positioned in front of the first laser processing assembly and the second laser processing assembly; the first translation track and the second translation track are arranged in parallel, and material clamps which can move in parallel on the tracks and move the object from the mounting position to the processing position are respectively erected on the first translation track and the second translation track; the material clamp comprises a sliding block, a longitudinal moving block and a rotary clamping mechanism, wherein the sliding block is arranged on a first translation track and a second translation track, the longitudinal moving block is arranged on the sliding block, the rotary clamping mechanism is arranged on the upper portion of the longitudinal moving block, and an object fixing plate used for fixing an object to be machined is arranged on the upper portion of the rotary clamping mechanism.

2. The double-station double-head 3D laser engraving machine of claim 1, which is characterized in that: the first laser processing assembly and the second laser processing assembly are identical in structure, and the first laser processing assembly comprises a first laser head, a first optical cavity and a first lifting rod which is arranged at the rear part of the first optical cavity and used for driving the first laser head to move up and down; a first supporting rod used for installing a first laser processing assembly on the substrate is further arranged at the lower part of the first lifting rod; the second laser processing assembly comprises a second laser head, a second optical cavity and a second lifting rod which is positioned at the rear part of the second optical cavity and used for driving the second laser head to move up and down; and a second supporting rod used for installing a second laser processing assembly on the substrate is further arranged at the lower part of the second lifting rod.

3. The double-station double-head 3D laser engraving machine of claim 2, which is characterized in that: a laser, a beam expander, a three-dimensional dynamic focusing galvanometer, a scanning galvanometer and a field lens are respectively arranged in the first optical cavity and the second optical cavity; the light beam emitted by the laser firstly irradiates to the beam expander, then enters the three-dimensional dynamic focusing galvanometer through the beam expander, and finally reaches the scanning galvanometer area; and finally, the laser beam is emitted through the first laser head and the second laser head.

4. The double-station double-head 3D laser engraving machine of claim 1, which is characterized in that: the end parts of one ends of the first translation track and the second translation track are respectively provided with a first driving motor for driving the material clamp to move in parallel; a second driving motor for driving the rotary clamping mechanism to rotate is arranged on the longitudinal moving block; the third driving motor is arranged on the upper portion of the rotary clamping mechanism and used for driving the object fixing plate to rotate around the fixing shaft in the axial direction.

5. The double-station double-head 3D laser engraving machine of claim 4, wherein: the upper part of the rotary clamping mechanism is of a U-shaped structure, and the object fixing plate is positioned in the middle of the rotary clamping mechanism of the U-shaped structure; the third driving motor is positioned outside the U-shaped structure rotary clamping mechanism.

6. The double-station double-head 3D laser engraving machine as claimed in any one of claims 1 to 5, wherein: the front part of the laser processing cabinet is also provided with an operation window which is positioned at the lower side of the visual panel; a first access cover is arranged on the left side of the laser processing cabinet, and a second access cover is arranged on the right side of the laser processing cabinet; and an alarm is also arranged at the upper part of the laser processing cabinet.

7. The double-station double-head 3D laser engraving machine of claim 1, which is characterized in that: the middle parts of the first laser processing assembly and the second laser processing assembly are further provided with dust hoods, and the upper part of the laser processing cabinet is provided with an exhaust port communicated with the dust hoods.

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