CN112077450A

CN112077450A - High-efficient laser engraving module

Info

Publication number: CN112077450A
Application number: CN202010826322.7A
Authority: CN
Inventors: 杨宏帅; 敖冰峰; 王炳尧
Original assignee: Heilongjiang Economic Management Cadre College
Current assignee: Heilongjiang Economic Management Cadre College
Priority date: 2020-08-17
Filing date: 2020-08-17
Publication date: 2020-12-15

Abstract

The invention discloses a high-efficiency laser engraving module which comprises a control console and an installation platform, wherein the installation platform is installed at the rear end of the control console, a shell is arranged at the upper end of the installation platform, second connecting plates are respectively arranged at the left end and the right end of a bottom plate, the front end of each second connecting plate is connected with a second installation block, a first connecting plate is connected between monomers of each second installation block, a connecting groove is formed in the front end of each first connecting plate, the front end of each connecting groove is connected with a first installation block, a first numerical control block is installed at the lower end of each first installation block, a connecting block is installed at the rear end of each first numerical control block, a laser engraving head is connected at the rear end of each connecting block, a support plate is installed on the upper end face of the installation platform, and a fan is connected at the. This high-efficient laser engraving module, the high-efficient processing of being convenient for, the convenient laser beam machining angle of adjustment has solved the problem that is difficult to clear up the sweeps that processing produced fast.

Description

High-efficient laser engraving module

Technical Field

The invention relates to the technical field of laser engraving, in particular to a high-efficiency laser engraving module.

Background

The laser engraving processing is based on the numerical control technology, laser is a processing medium, processing materials are instantly melted and gasified physical denaturation under the irradiation of laser engraving, the laser engraving can achieve the purpose of processing, patterns engraved by the technology are not indented, the surface of an object is smooth and cannot be abraded, and a laser engraving module can integrally complete the design and processing and manufacturing of the laser processing.

The existing laser engraving module is low in processing speed, inconvenient for efficient processing, inconvenient for adjusting the laser processing angle and difficult to quickly clean scraps generated in processing, so that the invention provides the efficient laser engraving module to solve the problems.

Disclosure of Invention

The invention aims to provide a high-efficiency laser engraving module to solve the problems that the conventional laser engraving module provided in the background art is low in processing speed, inconvenient to efficiently process, inconvenient to adjust the laser processing angle and difficult to quickly clean scraps generated in processing.

In order to achieve the purpose, the invention provides the following technical scheme: a high-efficiency laser engraving module comprises a control console and an installation platform, wherein the installation platform is installed at the rear end of the control console, a shell is arranged at the upper end of the installation platform, a bottom plate is installed inside the shell, second connecting plates are respectively arranged at the left end and the right end of the bottom plate, the front end of each second connecting plate is connected with a second installation block, a first connecting plate is connected between monomers of each second installation block, a second numerical control block is installed at the lower end of each second installation block, a connecting groove is formed in the front end of each first connecting plate, the front end of each connecting groove is connected with a first installation block, a first numerical control block is installed at the lower end of each first installation block, a limiting block is installed at the rear end of each first installation block, a connecting block is installed at the rear end of each first numerical control block, the rear end of each connecting block is connected with a laser engraving head, an air nozzle is arranged below each laser engraving head, a supporting plate is installed at, and the right-hand member of mount table installs the curb plate, the lower extreme of backup pad is connected with the fan, and the bin is installed to the front end of fan.

Preferably, the front end of the second connecting plate is provided with a strip-shaped groove, the inner surface of the groove is provided with a sponge cushion block, and the second connecting plate and the second mounting block form a sliding structure.

Preferably, the connecting block is spherical, and the connecting block and the first numerical control block form a rotating structure.

Preferably, a plurality of openings are formed in the bottom plate at equal intervals, and the longitudinal section of each opening is trapezoidal.

Preferably, the longitudinal section of the limiting block is T-shaped, the limiting block is arranged in bilateral symmetry with respect to the center line of the first mounting block, and the limiting block and the connecting groove form sliding connection.

Preferably, the connection mode between curb plate and the shell is for articulated, and the lower extreme of shell is provided with rubber pad.

Compared with the prior art, the invention has the beneficial effects that: the high-efficiency laser engraving module is convenient for high-efficiency processing, the laser processing angle is convenient to adjust, and the problem that scraps generated by processing are difficult to quickly clean is solved;

1. the laser engraving machine is provided with a first connecting plate, a second connecting plate and a laser engraving head, the second mounting block is controlled to lift at the front end of the second connecting plate through a control console and a second numerical control block, a strip-shaped groove is formed in the front end of the second connecting plate, a sponge cushion block is mounted on the inner surface of the groove, the vertical displacement of the first mounting block is convenient to control, meanwhile, the first numerical control block controls the transverse displacement of the first mounting block, a limiting block at the rear end of the first mounting block slides in the connecting groove, the displacement of the first mounting block is limited, and efficient machining is convenient;

2. the laser engraving machine is provided with a first numerical control block and a connecting block, the connecting block is arranged between the first numerical control block and the laser engraving head, the connecting block is spherical, multi-angle rotation is facilitated, the rotation of the connecting block is controlled by the first numerical control block, the processing angle of the laser engraving head is facilitated to be controlled, and therefore the laser processing angle is adjusted;

3. be equipped with air nozzle, fan and bin, set up the air nozzle through the below at laser engraving head, the sweeps that laser engraving head sculpture produced is blown down by the air nozzle, falls on the bottom plate to in falling into the mount table through the opening in the bottom plate, through being inhaled by the fan, and by letting in the inside collection of bin, solved the problem that is difficult to clear up the sweeps that processing produced fast.

Drawings

FIG. 1 is a schematic front sectional view of the present invention;

FIG. 2 is a schematic side view of the cross-sectional structure of the present invention;

FIG. 3 is a schematic view of the connection structure of the outer shell and the side plate according to the present invention;

FIG. 4 is an enlarged view of the structure at A in FIG. 2 according to the present invention;

FIG. 5 is a schematic view of a connection structure of the first mounting block and the first numerical control block of the present invention.

In the figure: 1. a console; 2. an installation table; 3. a housing; 4. a first connecting plate; 5. a second connecting plate; 6. a first mounting block; 7. a first numerical control block; 8. connecting blocks; 9. a laser engraving head; 10. an air nozzle; 11. a base plate; 12. a support plate; 13. a fan; 14. a storage tank; 15. connecting grooves; 16. a second mounting block; 17. a second numerical control block; 18. a limiting block; 19. side plates.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a high-efficiency laser engraving module comprises a control console 1, an installation platform 2, a shell 3, a first connecting plate 4, a second connecting plate 5, a first installation block 6, a first numerical control block 7, a connecting block 8, a laser engraving head 9, an air nozzle 10, a bottom plate 11, a supporting plate 12, a fan 13, a storage box 14, a connecting groove 15, a second installation block 16, a second numerical control block 17, a limiting block 18 and a side plate 19, wherein the installation platform 2 is installed at the rear end of the control console 1, the shell 3 is arranged at the upper end of the installation platform 2, the bottom plate 11 is installed inside the shell 3, the second connecting plates 5 are respectively arranged at the left end and the right end of the bottom plate 11, the second installation block 16 is connected at the front end of the second connecting plate 5, the first connecting plate 4 is connected between monomers of the second installation block 16, the second numerical control block 17 is installed at the lower end of the second installation block 16, the connecting groove 15 is formed at, the front end of the connecting groove 15 is connected with a first mounting block 6, the lower end of the first mounting block 6 is provided with a first numerical control block 7, the rear end of the first mounting block 6 is provided with a limiting block 18, the rear end of the first numerical control block 7 is provided with a connecting block 8, the rear end of the connecting block 8 is connected with a laser engraving head 9, an air nozzle 10 is arranged below the laser engraving head 9, the upper end surface of the mounting table 2 is provided with a supporting plate 12, the right end of the mounting table 2 is provided with a side plate 19, the lower end of the supporting plate 12 is connected with a fan 13, and the front end of the fan 13 is provided with a storage box 14;

as shown in fig. 1 and 2, a strip-shaped groove is formed in the front end of the second connecting plate 5, a sponge cushion block is mounted on the inner surface of the groove, the second connecting plate 5 and the second mounting block 16 form a sliding structure to facilitate control of vertical displacement of the first mounting block 6, the connecting block 8 is spherical, the connecting block 8 and the first numerical control block 7 form a rotating structure to facilitate control of a processing angle of the laser engraving head 9, a plurality of openings are formed in the bottom plate 11 at equal intervals, longitudinal sections of the openings are trapezoidal to facilitate falling of scraps on the bottom plate 11, the longitudinal sections of the limiting blocks 18 are T-shaped, the limiting blocks 18 are arranged in bilateral symmetry with respect to a center line of the first mounting block 6, and the limiting blocks 18 and the connecting grooves 15 form a sliding connection to facilitate control of lateral displacement of the first mounting block 6;

as shown in fig. 3, the connection between the side plate 19 and the housing 3 is hinged, and the lower end of the housing 3 is provided with a rubber pad block, so that the housing 3 can be opened to take out the scraps in the storage box 14, and the rubber pad block can prevent the bottom surface of the housing 3 from being worn.

The working principle is as follows: when the high-efficiency laser engraving module is used, firstly, a control console 1 and an installation console 2 in fig. 1 are installed on a horizontal ground, a second installation block 16 is controlled to ascend and descend at the front end of a second connection plate 5 through the control console 1 and a second numerical control block 17, as shown in fig. 2, a strip-shaped groove is formed in the front end of the second connection plate 5, a sponge cushion block is installed on the inner surface of the groove, the vertical displacement of a first installation block 6 is controlled conveniently, meanwhile, abrasion and shaking in the sliding process are reduced, meanwhile, a first numerical control block 7 controls the transverse displacement of the first installation block 6, a limiting block 18 at the rear end of the first installation block 6 slides in a connecting groove 15 at the front end of a first connection plate 4, the displacement of the first installation block 6 is limited, the rotation of a connection block 8 is controlled through the first numerical control block 7, and the machining angle of a laser engraving;

as in fig. 2, an air nozzle 10 is arranged below the laser engraving head 9, the scraps generated by engraving the laser engraving head 9 are blown down by the air nozzle 10, and fall on the upper end of the bottom plate 11, a plurality of openings are formed in the bottom plate 11 at equal intervals, the longitudinal section of each opening is trapezoidal, the scraps on the bottom plate 11 can fall into the mounting table 2 conveniently, the supporting plate 12 is a latticed mechanism, the scraps falling from the bottom plate 11 are sucked by the fan 13 through the supporting plate 12 and are introduced into the storage box 14 for internal collection, as in fig. 3, the shell 3 can be opened through the side plate 19, the storage box 14 is taken out for cleaning the scraps, and the use method is the high-efficiency laser engraving module.

The standard parts used in the invention can be purchased from the market, the special-shaped parts can be customized according to the description of the specification and the accompanying drawings, the specific connection mode of each part adopts conventional means such as bolts, rivets, welding and the like mature in the prior art, the machinery, parts and equipment adopt conventional models in the prior art, and the circuit connection adopts the conventional connection mode in the prior art, and the details are not described, and the content not described in detail in the specification belongs to the prior art known by persons skilled in the art.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a high-efficient laser engraving module, includes control cabinet (1) and mount table (2), its characterized in that: the rear end of the console (1) is provided with an installation table (2), the upper end of the installation table (2) is provided with a shell (3), a bottom plate (11) is installed inside the shell (3), the left end and the right end of the bottom plate (11) are respectively provided with a second connecting plate (5), the front end of each second connecting plate (5) is connected with a second installation block (16), a first connecting plate (4) is connected between monomers of the second installation blocks (16), the lower end of each second installation block (16) is provided with a second numerical control block (17), the front end of each first connecting plate (4) is provided with a connecting groove (15), the front end of each connecting groove (15) is connected with a first installation block (6), the lower end of each first installation block (6) is provided with a first numerical control block (7), the rear end of each first installation block (6) is provided with a limiting block (18), and the rear end of each first numerical control block (7) is provided with a connecting block (8), and the rear end of connecting block (8) is connected with laser engraving head (9) to the below of laser engraving head (9) is provided with air nozzle (10), backup pad (12) are installed to the up end of mount table (2), and curb plate (19) are installed to the right-hand member of mount table (2), the lower extreme of backup pad (12) is connected with fan (13), and bin (14) are installed to the front end of fan (13).

2. The high efficiency laser engraving module of claim 1, wherein: the front end of the second connecting plate (5) is provided with a strip-shaped groove, the inner surface of the groove is provided with a sponge cushion block, and the second connecting plate (5) and the second mounting block (16) form a sliding structure.

3. The high efficiency laser engraving module of claim 1, wherein: the connecting block (8) is spherical, and the connecting block (8) and the first numerical control block (7) form a rotating structure.

4. The high efficiency laser engraving module of claim 1, wherein: a plurality of openings are formed in the bottom plate (11) at equal intervals, and the longitudinal section of each opening is trapezoidal.

5. The high efficiency laser engraving module of claim 1, wherein: the longitudinal section of the limiting block (18) is T-shaped, the limiting block (18) is arranged in a bilateral symmetry mode relative to the center line of the first mounting block (6), and the limiting block (18) and the connecting groove (15) form a sliding connection.

6. The high efficiency laser engraving module of claim 1, wherein: the side plates (19) are hinged with the shell (3), and a rubber cushion block is arranged at the lower end of the shell (3).

7. The high efficiency laser engraving module of claim 1, wherein: the working principle of the engraving module is as follows: when the high-efficiency laser engraving module is used, firstly, the control platform (1) and the mounting platform (2) are mounted on a horizontal ground, the second mounting block (16) is controlled to lift at the front end of the second connecting plate (5) through the (1) and the second numerical control block (17), the front end of the second connecting plate (5) is provided with a strip-shaped groove, and the inner surface of the groove is provided with a sponge cushion block, which is convenient for controlling the vertical displacement of the first mounting block (6) and simultaneously reducing the abrasion and the shaking in the sliding process, meanwhile, the first numerical control block (7) controls the transverse displacement of the first mounting block (6), a limiting block (18) at the rear end of the first mounting block (6) slides in a connecting groove (15) at the front end of the first connecting plate (4) to limit the displacement of the first mounting block (6), the rotation of the connecting block (8) is controlled through the first numerical control block (7), so that the processing angle of the laser engraving head (9) can be conveniently controlled;

the below of laser engraving (9) is provided with air nozzle (10), the sweeps that lead to the fact is carved through laser engraving head (9) is blown down by air nozzle (10), fall on bottom plate (11) upper end, a plurality of openings have been seted up to the inside equidistant of bottom plate (11), and this open-ended longitudinal section shape is trapezoidal, be convenient for the sweeps on bottom plate (11) fall into in mount table (2), backup pad (12) are latticed mechanism, sweeps mount table (2) that drop in from bottom plate (11) are inhaled by fan (13) through backup pad (12), and let in bin (14) inside collection, can open shell (3) through curb plate (19), take out bin (14) clearance sweeps, this is the application method who just should high-efficient laser engraving module.