CN219189022U - Small-size laser glass cutting machine - Google Patents

Abstract

The application belongs to the technical field of laser cutting, and particularly relates to a small-sized laser glass cutting machine. The cutting machine includes: the top of the operating platform is provided with a glass supporting frame; the cutting mechanism is arranged above the glass supporting frame and comprises a laser transmitter, a vibrating mirror and a reflecting mirror component, the vibrating mirror is arranged below the laser transmitter and can ascend or descend relative to the laser transmitter, a lens of the vibrating mirror is downward, a laser transmitting outlet of the laser transmitter faces the same as a laser receiving inlet of the vibrating mirror, and the reflecting mirror component can reflect laser emitted from the laser transmitting outlet of the laser transmitter to reach the laser receiving inlet of the vibrating mirror after turning the laser to 180 degrees; the transverse movement mechanism and the longitudinal movement mechanism are arranged on the operation platform. The utility model provides a laser glass cutting machine makes the mirror that shakes set up adjacent with laser emitter through setting up reflector assembly, can reduce laser cutting machine's volume.

Description

Small-size laser glass cutting machine

Technical Field

The application belongs to the technical field of laser cutting, and particularly relates to a small-sized laser glass cutting machine.

Background

The laser cutting is to focus the laser emitted from the laser into high power density laser beam via the light path system, and the laser beam irradiates the surface of the workpiece to reach the melting point or boiling point, and the high pressure gas coaxial with the laser beam blows away molten or gasified metal to form kerf with the movement of the relative position of the laser beam and the workpiece.

Since the laser emitted from the laser in the laser cutting machine is not only injected into the vibrating mirror, but also needs to be focused by adjusting the distance between the laser and the vibrating mirror so as to enable the laser beam to show the highest power density, the distance between the laser and the vibrating mirror is often large, and the laser cutting machine is inconvenient to carry and use due to overlarge volume of the laser cutting machine.

Disclosure of Invention

In order to solve the problem, the application provides a small-size laser glass cutting machine, through setting up reflector subassembly in this cutting machine for laser emitter starts, turns to 180 back and reaches the mirror that shakes, makes the mirror that shakes can be fixed in on the laser emitter, and the laser emitter is littleer with the space volume that shakes occupied when mirror subassembly is static on the one hand, and on the other hand shakes the mirror and moves along with the laser emitter, and the space volume that occupies in the motion process is also littleer, thereby makes the cutting machine volume can obviously reduce, improves portability.

The application provides a small-size laser glass cutting machine, include:

the top of the operating platform is provided with a glass supporting frame;

the cutting mechanism is arranged above the glass supporting frame, the cutting mechanism comprises a laser emitter, a vibrating mirror and a reflecting mirror component, the vibrating mirror is arranged below the laser emitter and can ascend or descend relative to the laser emitter, a lens of the vibrating mirror is downward, a laser emitting outlet of the laser emitter and a laser receiving inlet of the vibrating mirror face the same, and the reflecting mirror component can reflect laser emitted from the laser emitting outlet of the laser emitter to reach the laser receiving inlet of the vibrating mirror after turning 180 degrees;

the transverse movement mechanism and the longitudinal movement mechanism are arranged on the operation platform, the transverse movement mechanism is used for controlling the cutting mechanism to move transversely relative to the operation platform, and the longitudinal movement mechanism is used for controlling the cutting mechanism to move longitudinally relative to the operation platform.

Optionally, the reflector assembly includes first lens, second lens and third lens, first lens is located same co-altitude with the second lens, second lens is located same vertical axis with the third lens, laser that laser transmitter's laser emission export sent reachs after first lens, second lens and third lens reflection in proper order the laser receiving entry of vibrating mirror.

Optionally, a lifting rail is arranged at one side of the laser emitter, and a lifting sliding block matched with the lifting rail is arranged at one side of the vibrating mirror; the cutting mechanism further comprises a lifting motor, an output shaft of the lifting motor is connected with a first screw rod, the lifting slider is provided with threads matched with the first screw rod, and the lifting motor can drive the lifting slider to drive the vibrating mirror to ascend or descend relative to the laser transmitter.

Optionally, a longitudinal track is provided on the operation platform, the longitudinal movement mechanism includes a longitudinal movement motor and a longitudinal movement sliding block, an output end of the longitudinal movement motor is connected with a second screw rod, the longitudinal movement sliding block is provided with a thread matched with the second screw rod, and the longitudinal movement motor can control the longitudinal movement sliding block to slide along the longitudinal track;

the top of longitudinal movement slider is provided with the transverse track, transverse movement mechanism includes transverse movement motor and transverse movement slider, transverse movement motor's output is connected with the third lead screw, transverse movement slider be provided with third lead screw complex screw thread, laser emitter is fixed in transverse movement slider's top, transverse movement motor can control transverse movement slider drives cutting mechanism follows transverse track slides.

Optionally, the number of the longitudinal rails is two, and the longitudinal rails are respectively located at two sides of the operation platform, the number of the longitudinal movement motors is two, and the longitudinal movement sliding blocks can slide along the two longitudinal rails under the control of the two longitudinal movement motors.

Optionally, a liquid cooling system is further included, and the laser transmitter is in communication with the liquid 5-body cooling system through a liquid cooling pipe.

Optionally, the glass support frame includes mount and two at least carriage, the mount is fixed in on the operation platform, the both sides of mount are provided with the support slide rail, the both ends of carriage be provided with support slide rail complex support slider, the carriage passes through support slider and support slide rail and links to each other with the mount, the carriage is used for supporting glass.

0 optionally, a mesh is provided on the operation platform below the carriage, the mesh being arranged below

The square is provided with a fan.

Optionally, the small-sized laser glass cutting machine further comprises a control system, an information processing system and a terminal, wherein the terminal is used for enabling a user to input laser cutting information, and the information processing system is used for processing the information for passing through

And the control system is used for controlling the transverse movement motor, the longitudinal movement motor and the lifting movement motor 5.

Benefits that can be produced by the present application include, but are not limited to:

1. the small-size laser glass cutting machine that this application provided reaches the mirror that shakes through setting up reflector subassembly for laser emitter starts to turn to 180 back, shakes the mirror and is fixed in laser emitter and moves along with laser emitter, makes this laser glass cutting machine volume littleer, and the portability is higher.

0 2 the small-sized laser glass cutter provided by the application has the advantage that the vibrating mirror can be vertical relative to the laser transmitter

Directional movement to focus a laser beam of high power density can take advantage of the longitudinal height and reduced transverse area in the cutter, resulting in a significant reduction in the volume of the laser glass cutter.

3. The small-size laser glass cutting machine that this application provided includes the carriage on the glass support frame, can conveniently bear the glass of various unidimensional through the distance between the adjustment carriage, and the practicality is higher.

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Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiments of the application and together with the description serve to explain the application and do not constitute an undue limitation to the application. In the drawings:

fig. 1 is a schematic perspective view of a small-sized laser glass cutter according to an embodiment of the present application;

FIG. 2 is a partial perspective view of a small-sized laser glass cutter according to an embodiment of the present application;

fig. 3 is a schematic perspective view of a cutting mechanism in a small-sized laser glass cutting machine according to an embodiment of the present application.

List of parts and reference numerals:

1-operation platform, 2-laser emitter, 3-galvanometer, 4-lateral movement mechanism, 5-longitudinal movement mechanism, 6-first lens, 7-second lens, 8-third lens, 9-lifting track, 10-lifting slide block, 11-lifting movement motor, 12-longitudinal movement motor, 13-lateral movement motor, 14-longitudinal movement slide block, 15-lateral movement slide block, 16-fixing frame, 17-sliding frame, 18-laser emission outlet, 19-laser receiving inlet and 20-mesh.

Detailed Description

In order to more clearly illustrate the general concepts of the present application, a detailed description is provided below by way of example in connection with the accompanying drawings.

In order that the above-recited objects, features and advantages of the present application will be more clearly understood, a more particular description of the application will be rendered by reference to the appended drawings and appended detailed description. It should be noted that, in the case of no conflict, the embodiments of the present application and the features in the embodiments may be combined with each other.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, however, the present application may be practiced otherwise than as described herein, and thus the scope of the present application is not limited by the specific embodiments disclosed below.

In addition, in the description of the present application, it should be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "axial," "radial," "circumferential," etc. indicate or refer to an azimuth or a positional relationship based on that shown in the drawings, and are merely for convenience of description and to simplify the description, and do not indicate or imply that the apparatus or element in question must have a specific azimuth, be configured and operated in a specific azimuth, and therefore should not be construed as limiting the present application.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present application, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

In this application, unless specifically stated and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; the device can be mechanically connected, electrically connected and communicated; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art as the case may be.

In this application, unless expressly stated or limited otherwise, a first feature "up" or "down" a second feature may be the first and second features in direct contact, or the first and second features in indirect contact via an intervening medium. In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present application. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

According to one aspect of the present application, referring to fig. 1 to 3, there is provided a small-sized laser glass cutting machine comprising: the glass support frame is arranged at the top of the operation platform 1; the cutting mechanism is arranged above the glass supporting frame, the cutting mechanism comprises a laser emitter 2, a vibrating mirror 3 and a reflecting mirror assembly, the vibrating mirror 3 is arranged below the laser emitter 2 and can ascend or descend relative to the laser emitter 2, the lens of the vibrating mirror 3 faces downwards, a laser emitting outlet 18 of the laser emitter 2 and a laser receiving inlet 19 of the vibrating mirror 3 face the same, and the reflecting mirror assembly can reflect laser emitted from the laser emitting outlet 18 of the laser emitter 2 to reach the laser receiving inlet 19 of the vibrating mirror 3 after turning 180 degrees; the transverse movement mechanism 4 and the longitudinal movement mechanism 5 are arranged on the operation platform 1, the transverse movement mechanism 4 is used for controlling the cutting mechanism to move transversely relative to the operation platform 1, and the longitudinal movement mechanism 5 is used for controlling the cutting mechanism to move longitudinally relative to the operation platform 1.

This laser glass cutting machine, turn to 180 back through setting up the speculum subassembly from laser emitter 2 laser and reach the galvanometer 3, galvanometer 3 sets up in the below of laser emitter 2 to can move vertically relative laser emitter 2, further set up transverse movement mechanism 4 and longitudinal movement mechanism 5, make laser emitter 2 drive galvanometer 3 and move transversely or longitudinally relative operation platform 1 simultaneously, galvanometer 3 is fixed in and forms cutting mechanism on the laser emitter 2, thereby has following two effects: on the one hand, compared with the situation that the laser transmitter 2 and the vibrating mirror 3 are positioned on the same horizontal plane, the space volume occupied by the laser transmitter 2 and the vibrating mirror 3 assembly in the cutting machine is smaller when the laser transmitter 2 and the vibrating mirror 3 assembly are stationary; on the other hand, in the cutting machine, the vibrating mirror 3 moves along with the laser transmitter 2, and the vibrating mirror 3 is fixed on the laser transmitter 2 to form a cutting mechanism, so that the occupied space volume of the cutting mechanism is smaller in the transverse and longitudinal movement process, and the volume of the cutting machine can be obviously reduced, and the portability is greatly improved.

In the laser glass cutting machine, the transverse movement mechanism 4 and the longitudinal movement mechanism 5 are arranged for controlling the cutting mechanism to move transversely or longitudinally relative to the operation platform 1, so that the vibrating mirror 3 can move to the whole operation platform 1, and the vibrating mirror 3 can also move vertically relative to the laser emitter 2, because the distance between the laser emitter 2 and the vibrating mirror 3 needs to be adjusted, so that the laser beam is focused to the highest power, and the cutting efficiency is improved.

As an embodiment, the mirror assembly includes a first lens 6, a second lens 7 and a third lens 8, the first lens 6 and the second lens 7 are located at the same height, the second lens 7 and the third lens 8 are located on the same vertical axis, and the laser emitted from the laser emitting outlet 18 of the laser emitter 2 sequentially passes through the first lens 6, the second lens 7 and the third lens 8 and then reaches the laser receiving inlet 19 of the galvanometer 3 after being reflected.

Specifically, as shown in fig. 3, the mirror assembly includes a first mirror 6, a second mirror 7, and a third mirror 8, the first mirror 6 for horizontally reflecting the laser light emitted from the laser light emission outlet 18 of the laser emitter 2 to the second mirror 7, the second mirror 7 for vertically reflecting the laser light reflected from the first mirror 6 downward to the third mirror 8, and the third mirror 8 for horizontally reflecting the laser light reflected from the second mirror 7 to the laser light receiving inlet 19 of the galvanometer 3, while the planes of the first mirror 6, the second mirror 7, and the third mirror 8 are all 45 ° from the laser light. The laser glass cutting machine changes the light path of laser only through three reflecting lenses, the laser transmitter 2, the vibrating mirror 3 and the reflecting mirror component form a compact cutting mechanism, and the compact cutting mechanism moves transversely or longitudinally in the cutting machine, so that the cutting machine is reasonable in layout and smaller in size.

As an embodiment, a lifting rail 9 is arranged on one side of the laser transmitter 2, and a lifting sliding block 10 matched with the lifting rail 9 is arranged on one side of the vibrating mirror 3; the cutting mechanism further comprises a lifting motor 11, a first screw rod is connected to an output shaft of the lifting motor 11, the lifting sliding block 10 is provided with threads matched with the first screw rod, and the lifting motor 11 can drive the lifting sliding block 10 to drive the vibrating mirror 3 to ascend or descend relative to the laser transmitter 2.

This laser glass cutting machine realizes the relative vertical motion of galvanometer 3 for laser emitter 2 through lift motion motor 11 to set up lift track 9 and lift slider 10 and make galvanometer 3 can more stable the sliding be fixed in on the laser emitter 2, further through having first lead screw at lift motion motor 11's output shaft, the mode of first lead screw drive lift slider 10 drive galvanometer 3 motion, make galvanometer 3 lifting motion's stability and accuracy higher.

As an embodiment, as shown in fig. 2, a longitudinal track is provided on the operation platform 1, the longitudinal movement mechanism 5 includes a longitudinal movement motor 12 and a longitudinal movement sliding block 14, an output end of the longitudinal movement motor 12 is connected with a second screw rod, the longitudinal movement sliding block 14 is provided with a thread matched with the second screw rod, and the longitudinal movement motor 12 can control the longitudinal movement sliding block 14 to slide along the longitudinal track; the top of longitudinal movement slider 14 is provided with the transverse track, transverse movement mechanism 4 includes transverse movement motor 13 and transverse movement slider 15, the output of transverse movement motor 13 is connected with the third lead screw, transverse movement slider 15 be provided with third lead screw complex screw thread, laser emitter 2 is fixed in the top of transverse movement slider 15, transverse movement motor 13 can control transverse movement slider 15 drives cutting mechanism follows the transverse track slides.

In the laser glass cutting machine, the vibrating mirror 3 can transversely, longitudinally and vertically move relative to the operation platform 1, and the transverse, longitudinal and vertical movements are realized through the screw rod and the threaded fit which are connected to the output end of the motor, so that the movement control of the vibrating mirror 3 is more accurate, the stability in the relative movement process is further improved through the track and the sliding block structure, the realization modes of the transverse, longitudinal and vertical movements of the vibrating mirror 3 relative to the operation platform 1 are similar, the operation of a control system is more convenient, and the control mode is simpler.

As an embodiment, the number of the longitudinal rails is two, and the longitudinal rails are respectively positioned at two sides of the operation platform 1, the number of the longitudinal movement motors 12 is two, and the longitudinal movement sliding blocks 14 can slide along the two longitudinal rails under the control of the two longitudinal movement motors 12. Since the longitudinal movement mechanism 5 has a larger weight and volume, it is necessary to carry not only the cutting assembly but also the transverse movement mechanism 4, and thus by providing two longitudinal rails and cooperatively providing two longitudinal movement motors 12, the stability in the longitudinal movement of the longitudinal movement mechanism 5 can be improved.

As an embodiment, the laser transmitter 2 further comprises a liquid cooling system, and the laser transmitter 2 is communicated with the liquid cooling system through a liquid cooling pipe. Because the laser transmitter 2 can produce a large amount of heat in the operation in-process, through setting up liquid cooling system, can in time transfer away the heat that its produced, guarantee the stability of laser transmitter 2 operation.

As an implementation manner, the glass supporting frame comprises a fixing frame 16 and at least two sliding frames 17, the fixing frame 16 is fixed on the operating platform 1, support sliding rails are arranged on two sides of the fixing frame 16, support sliding blocks matched with the support sliding rails are arranged on two ends of the sliding frames 17, the sliding frames 17 are connected with the fixing frame 16 through the support sliding blocks and the support sliding rails, and the sliding frames 17 are used for supporting glass. By providing at least two carriages 17, by adjusting the distance between the carriages 17, glass of various sizes can be carried, improving the practicality of the cutter.

As an implementation manner, the operation platform 1 below the sliding frame 17 is provided with the mesh 20, and the fan is arranged below the mesh 20, so that powder and scraps generated in the cutting process can be discharged out of the space where the cutting mechanism is located, the powder and scraps generated in the cutting process are prevented from affecting the laser cutting efficiency, and meanwhile, the damage to the cutting machine is prevented.

As an embodiment, the small-sized laser glass cutting machine further comprises a control system, an information processing system and a terminal, wherein the terminal is used for enabling a user to input laser cutting information, the information processing system is used for processing the laser cutting information input through the terminal and sending control information to the control system, the control system is used for controlling the transverse movement motor 13, the longitudinal movement motor 12 and the lifting movement motor 11, so that a user can draw a graph required to be cut on a display screen, a corresponding pattern is generated after compiling through a software system, the vibrating mirror 3 moves and irradiates the glass, and the corresponding pattern is cut off on the glass through the cutting action of laser.

The use process of the small-sized laser glass cutting machine is as follows:

the user inputs the pattern information to be drawn into the cutting machine through the terminal, the information processing system processes the pattern information to generate a control signal, the control system firstly controls the lifting motor 11 to drive the vibrating mirror 3 to ascend or descend relative to the laser emitter 2 so as to adjust the vibrating mirror 3 to the maximum power of laser focusing, then the laser cutting of the glass on the glass support frame can be started, the transverse movement motor 13 and the longitudinal movement motor 12 are controlled by the control signal to drive the cutting mechanism to move on the plane of the operation platform 1 according to the path information generated by the information processing system to process the pattern to be drawn, and simultaneously the cutting operation is performed, so that the required pattern is obtained by cutting.

In this specification, each embodiment is described in a progressive manner, and identical and similar parts of each embodiment are all referred to each other, and each embodiment mainly describes differences from other embodiments. In particular, for system embodiments, since they are substantially similar to method embodiments, the description is relatively simple, as relevant to see a section of the description of method embodiments.

The foregoing is merely exemplary of the present application and is not intended to limit the present application. Various modifications and changes may be made to the present application by those skilled in the art. Any modifications, equivalent substitutions, improvements, etc. which are within the spirit and principles of the present application are intended to be included within the scope of the claims of the present application.

Claims (8)

1. A miniature laser glass cutting machine, comprising:

the top of the operating platform is provided with a glass supporting frame;

the cutting mechanism is arranged above the glass supporting frame, the cutting mechanism comprises a laser emitter, a vibrating mirror and a reflecting mirror component, the vibrating mirror is arranged below the laser emitter and can ascend or descend relative to the laser emitter, a lens of the vibrating mirror is downward, a laser emitting outlet of the laser emitter and a laser receiving inlet of the vibrating mirror face the same, and the reflecting mirror component can reflect laser emitted from the laser emitting outlet of the laser emitter to reach the laser receiving inlet of the vibrating mirror after turning 180 degrees;

the transverse movement mechanism and the longitudinal movement mechanism are arranged on the operation platform, the transverse movement mechanism is used for controlling the cutting mechanism to move transversely relative to the operation platform, and the longitudinal movement mechanism is used for controlling the cutting mechanism to move longitudinally relative to the operation platform.

2. The miniature laser glass cutting machine of claim 1, wherein said mirror assembly comprises a first lens, a second lens and a third lens, said first lens and said second lens are positioned at the same height, said second lens and said third lens are positioned on the same vertical axis, and said laser emitted from said laser emitting outlet of said laser transmitter is reflected by said first lens, said second lens and said third lens in sequence and reaches said laser receiving inlet of said vibrating mirror.

3. The small-sized laser glass cutting machine according to claim 1, wherein a lifting rail is arranged on one side of the laser transmitter, and a lifting slider matched with the lifting rail is arranged on one side of the vibrating mirror;

the cutting mechanism further comprises a lifting motor, an output shaft of the lifting motor is connected with a first screw rod, the lifting slider is provided with threads matched with the first screw rod, and the lifting motor can drive the lifting slider to drive the vibrating mirror to ascend or descend relative to the laser transmitter.

4. The small-sized laser glass cutting machine according to claim 1, wherein a longitudinal rail is arranged on the operation platform, the longitudinal movement mechanism comprises a longitudinal movement motor and a longitudinal movement sliding block, the output end of the longitudinal movement motor is connected with a second screw rod, the longitudinal movement sliding block is provided with threads matched with the second screw rod, and the longitudinal movement motor can control the longitudinal movement sliding block to slide along the longitudinal rail;

the top of longitudinal movement slider is provided with the transverse track, transverse movement mechanism includes transverse movement motor and transverse movement slider, transverse movement motor's output is connected with the third lead screw, transverse movement slider be provided with third lead screw complex screw thread, laser emitter is fixed in transverse movement slider's top, transverse movement motor can control transverse movement slider drives cutting mechanism follows transverse track slides.

5. The small-sized laser glass cutting machine according to claim 4, wherein the number of the longitudinal rails is two, the longitudinal rails are respectively positioned at two sides of the operation platform, the number of the longitudinal movement motors is two, and the longitudinal movement sliding blocks can slide along the two longitudinal rails under the control of the two longitudinal movement motors.

6. The miniature laser glass cutting machine of claim 1, further comprising a liquid cooling system, said laser transmitter in communication with said liquid cooling system through a liquid cooling tube.

7. The small-sized laser glass cutting machine according to claim 1, wherein the glass supporting frame comprises a fixing frame and at least two sliding frames, the fixing frame is fixed on the operating platform, two sides of the fixing frame are provided with support sliding rails, two ends of the sliding frames are provided with support sliding blocks matched with the support sliding rails, the sliding frames are connected with the fixing frame through the support sliding blocks and the support sliding rails, and the sliding frames are used for supporting glass.

8. The small laser glass cutting machine according to claim 7, wherein a mesh is provided on the operation platform below the carriage, and a fan is provided below the mesh.

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