CN216421419U - Asynchronous intelligent vision positioning laser cutting machine of double-end - Google Patents
Asynchronous intelligent vision positioning laser cutting machine of double-end Download PDFInfo
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- CN216421419U CN216421419U CN202122544292.3U CN202122544292U CN216421419U CN 216421419 U CN216421419 U CN 216421419U CN 202122544292 U CN202122544292 U CN 202122544292U CN 216421419 U CN216421419 U CN 216421419U
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Abstract
The utility model relates to an asynchronous intelligent visual positioning laser cutting machine of double-end, including the cutting machine body, laser pipe and the single chip microcomputer system of setting in the cutting machine body, single chip microcomputer system and laser pipe control connection, be provided with cutting platform on the cutting machine body, cutting platform's both sides are provided with vertical guide rail respectively, it is provided with two transverse guide to slide between two vertical guide rails, be provided with the first power device that is used for driving transverse guide rail and removes on the vertical guide rail, it is provided with the laser cutting head that is used for receiving the laser that laser pipe sent all to slide on every transverse guide rail, be provided with the second power device that is used for driving the laser cutting head and removes on the transverse guide rail, single chip microcomputer system is connected with first power device and second power device control respectively. It is through setting up two transverse guide on the cutting machine, disposes a laser head on every transverse guide for mutual noninterference has improved work efficiency between the laser head.
Description
Technical Field
The utility model belongs to the technical field of the laser cutting machine technique and specifically relates to a double-end asynchronous intelligent vision positioning laser cutting machine is related to.
Background
Laser light is light, and like other natural light, is generated by atomic (molecular, ionic, etc.) transitions. However, it differs from ordinary light in that laser light depends only on spontaneous emission for an initially very short time, and the process thereafter is determined entirely by the laser emission, so that the laser light has a very pure color, almost no divergent directivity, a very high luminous intensity and high coherence.
Laser cutting is achieved by applying high power density energy generated after laser focusing. Under the control of a computer, the laser is discharged through pulses, so that controlled pulse laser with high repetition frequency is output, a light beam with certain frequency and certain pulse width is formed, the pulse laser beam is conducted and reflected through a light path and focused on the surface of a processed object through a focusing lens group to form fine and high-energy-density light spots, and the focal spots are positioned near a surface to be processed to instantly melt or gasify the processed material at high temperature. Each high-energy laser pulse can be used for sputtering a fine hole on the surface of the object, and under the control of computer the laser processing head and the material to be processed can be continuously and relatively moved to make point-punching according to the pre-drawn pattern so as to make the object be processed into the required form.
In the prior art, a plurality of laser heads are usually installed on the same guide rail, however, the two adjacent laser heads on the same guide rail interfere with each other during working, and therefore the working efficiency of the laser cutting machine is affected.
SUMMERY OF THE UTILITY MODEL
Not enough to prior art exists, the utility model aims at providing an asynchronous intelligent vision location laser cutting machine of double-end, it is through setting up two transverse guide on the cutting machine, disposes a laser head on every transverse guide for mutual noninterference has improved work efficiency between the laser head.
The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:
the utility model provides an asynchronous intelligent vision location laser cutting machine of double-end, is in including cutting machine body, laser pipe and setting this internal single chip microcomputer system of cutting machine, single chip microcomputer system with laser pipe control connection, be provided with cutting platform on the cutting machine body, cutting platform's both sides are provided with vertical guide rail respectively, two it is provided with two transverse guide to slide between the vertical guide rail, be provided with on the vertical guide rail and be used for the drive the first power device that transverse guide removed, every it is provided with to be used for receiving all to slide on the transverse guide rail the laser cutting head of the laser that the laser pipe sent, be provided with on the transverse guide rail and be used for the drive the second power device that the laser cutting head removed, single chip microcomputer system respectively with first power device and second power device control connection.
The present invention may be further configured in a preferred embodiment as: a laser tube cover is fixed on one side of the cutting machine body, the laser tube is fixed in the laser tube cover, and two openable rear covers are arranged on the laser tube cover.
The present invention may be further configured in a preferred embodiment as: an opening for laser emission is formed in one end, close to one side of the laser cutting head, of the laser tube cover, reflectors for reflecting laser are fixed to one ends, in the same direction, of the two transverse guide rails respectively, and the two reflectors reflect the laser in the two laser cutting heads respectively.
The present invention may be further configured in a preferred embodiment as: the laser cutting machine is characterized by further comprising an intelligent image recognition module in control connection with the single chip microcomputer system, wherein the intelligent image recognition module is installed above the cutting platform and used for achieving positioning cutting of the laser cutting head.
The present invention may be further configured in a preferred embodiment as: the intelligent image recognition module comprises a supporting part and a camera and an illumination module which are installed on the supporting part, the supporting part is arranged on the cutting machine body, the camera and the illumination module are respectively in control connection with the single chip microcomputer system, and the camera and the illumination module are arranged above the cutting platform.
The present invention may be further configured in a preferred embodiment as: the supporting part comprises a top plate and side plates fixed on two sides of the cutting machine body respectively, two ends of the top plate are fixed between the two side plates respectively, and the camera and the lighting module are installed on the top plate.
The present invention may be further configured in a preferred embodiment as: the lighting module comprises two flat ceiling lamps, the camera is fixed on the top plate and emits light and shadow to be projected on the cutting platform, and the two flat ceiling lamps are respectively fixed on two sides of the camera.
To sum up, the utility model discloses a beneficial technological effect does:
this laser cutting machine is in the actual work in-process, with the product tiling on cutting platform, makes two transverse guide on the cutting platform back-and-forth movement on vertical guide rail through control single chip microcomputer system, and two laser cutting heads remove about respectively on two transverse guide rail to realized the removal of laser cutting head at X axle and Y axle direction, the laser cutting head of being convenient for carries out laser cutting to the optional position of product. And controlling the singlechip system to enable the laser tube to emit laser, enabling the emitted laser to reach the laser cutting head, and enabling the laser cutting head to emit laser to cut the product. Wherein through setting up two transverse guide on the cutting machine, dispose a laser cutting head on every transverse guide for mutual noninterference has improved work efficiency between two laser cutting heads.
Drawings
Fig. 1 is a schematic view of the overall structure of the present invention.
Reference numerals: 1. a cutter body; 11. a laser tube cover; 12. a rear cover; 13. an opening; 14. a mirror; 2. cutting the platform; 3. a vertical guide rail; 4. a transverse guide rail; 5. a laser cutting head; 6. a support portion; 61. a top plate; 62. a side plate; 7. a camera; 8. flat ceiling lamp.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings.
Referring to fig. 1, for the utility model discloses an asynchronous intelligent vision location laser cutting machine of double-end, including cutting machine body 1, laser pipe and the single chip microcomputer system of setting in cutting machine body 1, single chip microcomputer system and laser pipe control connection are provided with cutting platform 2 on the cutting machine body 1, and cutting platform 2's both sides are provided with vertical guide rail 3 respectively, and it is provided with two transverse guide 4 to slide between two vertical guide rail 3.
The vertical guide rail 3 is provided with a first power device for driving the transverse guide rails 4 to move, each transverse guide rail 4 is slidably provided with a laser cutting head 5 for receiving laser emitted by a laser tube, each transverse guide rail 4 is provided with a second power device for driving the laser cutting head 5 to move, and the single chip microcomputer system is respectively in control connection with the first power device and the second power device.
Referring to fig. 1, a laser tube cover 11 is fixed on one side of a cutting machine body 1, a laser tube is fixed in the laser tube cover 11, and two openable rear covers 12 are arranged on the laser tube cover 11. The laser tube is arranged in the laser tube cover, so that the laser tube can be effectively protected, and the service life of the laser cutting machine is prolonged. Under special conditions, the laser tube can be replaced or maintained by opening the rear cover 12 of the laser tube cover, and the practicability is improved.
Furthermore, an opening 13 for emitting laser is formed in one end, close to the laser cutting head 5, of the laser tube cover 11, reflectors 14 for reflecting laser are respectively fixed to one ends, in the same direction, of the two transverse guide rails 4, and the laser is reflected in the two laser cutting heads 5 by the two reflectors 14 respectively. Laser emitted by the laser tube is projected on the reflector 14 through the opening 13, and is reflected in the two laser cutting heads 5 under the reflection action of the reflector 14, so that the cutting precision is high, the high-speed, stable and smooth operation of the laser cutting heads 5 is ensured, and the production and processing speed is high.
In this embodiment, this laser cutting machine still includes the intelligent image recognition module with single chip microcomputer system control connection, and intelligent image recognition module installs and is used for realizing the location cutting of laser cutting head 5 in the top of cutting platform 2. The intelligent image recognition module comprises a supporting part 6 and a camera 7 and an illumination module which are installed on the supporting part 6, the supporting part 6 is arranged on the cutting machine body 1, the camera 7 and the illumination module are respectively in control connection with the single chip microcomputer system, and the camera 7 and the illumination module are arranged above the cutting platform 2. The supporting portion 6 includes a top plate 61 and side plates 62 respectively fixed on both sides of the cutter body 1, both ends of the top plate 61 are respectively fixed between the two side plates 62, and the camera 7 and the lighting module are mounted on the top plate 61.
Only two side plates 62 and a top plate 61 fixed between the two side plates 62 are arranged above the cutter body 1, and the camera 7 and the lighting module are arranged on the top plate 61. On one hand, the periphery of the cutting platform 2 is in an open state, so that the visual range of users is enlarged, and workers can observe the cutting condition of the material from any direction; on the other hand camera 7 can send the shadow and throw on cutting platform 2 to be convenient for scan the discernment to the material on cutting platform 2, the image after the scanning discernment is in camera 7 transmission to single chip microcomputer system, automatic control cutting mechanism cuts the material after being analyzed the image by single chip microcomputer system again, has realized the location cutting to super large figure digital printing product, and does not receive the influence of product colour and shape, finds the limit accurately and tailors automatically. Wherein lighting module can carry out the light filling to cutting platform 2 and handle for laser cutting machine can realize accurate the tailorring under the environment of dark.
Referring to fig. 1, the lighting module includes two ceiling lamps 8, the camera 7 is fixed on the top plate 61 and emits light and shadow to be projected on the cutting platform 2, and the two ceiling lamps 8 are respectively fixed on two sides of the camera 7. Two dull and stereotyped ceiling lamps 8 are installed respectively in the both sides of camera 7, make the shadow that camera 7 produced throw on cutting platform 2 more extensively on the one hand, and on the other hand makes dull and stereotyped ceiling lamp 8 can all illuminate cutting platform 2 for laser cutting machine is more intelligent.
The implementation principle of the embodiment is as follows: this laser cutting machine is in the actual work in-process, with the product tiling on cutting platform 2, makes two transverse guide 4 on cutting platform 2 go up the back-and-forth movement on vertical guide rail 3 through control single chip microcomputer system, and two laser cutting heads 5 remove about respectively on two transverse guide 4 to realized laser cutting head 5 at the removal of X axle with the Y axle direction, the laser cutting head 5 of being convenient for carries out laser cutting to the optional position of product. The singlechip system is controlled to enable the laser tube to emit laser, the emitted laser reaches the laser cutting head 5, and the laser cutting head 5 emits laser to cut a product. Wherein through setting up two transverse guide 4 on the cutting machine, dispose a laser cutting head 5 on every transverse guide 4 for mutual noninterference has improved work efficiency between two laser cutting heads 5.
The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.
Claims (7)
1. The utility model provides an asynchronous intelligent vision location laser cutting machine of double-end, is in including cutting machine body (1), laser pipe and setting single chip microcomputer system in cutting machine body (1), single chip microcomputer system with laser pipe control connection, be provided with cutting platform (2), its characterized in that on cutting machine body (1): the utility model discloses a laser cutting machine, including cutting platform (2), cutting platform, vertical guide rail (3) are provided with respectively to the both sides of cutting platform (2), two it is provided with two transverse guide (4) to slide between vertical guide rail (3), be provided with on vertical guide rail (3) and be used for the drive transverse guide (4) the first power device who removes, every all slide on transverse guide (4) and be provided with and be used for receiving laser cutting head (5) of the laser that the laser pipe sent, be provided with on transverse guide (4) and be used for the drive the second power device that laser cutting head (5) removed, single chip microcomputer system respectively with first power device and second power device control connection.
2. The double-ended asynchronous intelligent vision positioning laser cutting machine according to claim 1, characterized in that: a laser tube cover (11) is fixed on one side of the cutting machine body (1), the laser tube is fixed in the laser tube cover (11), and two openable rear covers (12) are arranged on the laser tube cover (11).
3. The double-ended asynchronous intelligent visual positioning laser cutting machine according to claim 2, characterized in that: an opening (13) for emitting laser is formed in one end, close to one side of the laser cutting head (5), of the laser tube cover (11), reflectors (14) for reflecting the laser are fixed to one ends, in the same direction, of the two transverse guide rails (4), and the two reflectors (14) reflect the laser in the two laser cutting heads (5) respectively.
4. The double-ended asynchronous intelligent vision positioning laser cutting machine according to claim 1, characterized in that: the cutting platform is characterized by further comprising an intelligent image recognition module in control connection with the single chip microcomputer system, and the intelligent image recognition module is installed above the cutting platform (2) and used for achieving positioning and cutting of the laser cutting head (5).
5. The double-ended asynchronous intelligent visual positioning laser cutting machine according to claim 4, characterized in that: the intelligent image recognition module comprises a supporting part (6), a camera (7) and an illumination module, wherein the camera (7) and the illumination module are installed on the supporting part (6), the supporting part (6) is arranged on the cutting machine body (1), the camera (7) and the illumination module are respectively in control connection with the single chip microcomputer system, and the camera (7) and the illumination module are arranged above the cutting platform (2).
6. The double-ended asynchronous intelligent visual positioning laser cutting machine according to claim 5, characterized in that: the supporting portion (6) comprises a top plate (61) and side plates (62) fixed to two sides of the cutting machine body (1) respectively, two ends of the top plate (61) are fixed between the two side plates (62) respectively, and the camera (7) and the lighting module are installed on the top plate (61).
7. The double-ended asynchronous intelligent vision positioning laser cutting machine according to claim 6, characterized in that: the lighting module comprises two flat ceiling lamps (8), the camera (7) is fixed on the top plate (61) and emits light and shadow to be projected on the cutting platform (2), and the two flat ceiling lamps (8) are respectively fixed on two sides of the camera (7).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202122544292.3U CN216421419U (en) | 2021-10-21 | 2021-10-21 | Asynchronous intelligent vision positioning laser cutting machine of double-end |
Applications Claiming Priority (1)
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CN202122544292.3U CN216421419U (en) | 2021-10-21 | 2021-10-21 | Asynchronous intelligent vision positioning laser cutting machine of double-end |
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CN216421419U true CN216421419U (en) | 2022-05-03 |
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CN202122544292.3U Active CN216421419U (en) | 2021-10-21 | 2021-10-21 | Asynchronous intelligent vision positioning laser cutting machine of double-end |
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2021
- 2021-10-21 CN CN202122544292.3U patent/CN216421419U/en active Active
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