CN219093962U - Novel laser engraving equipment is with multi-functional line rail module - Google Patents

Abstract

The utility model discloses a novel multifunctional wire rail module for laser engraving equipment, which comprises the following components: the pair of first mounting sections are provided with a double-shaft moving track structure; the double-shaft moving track structure comprises: the device comprises two pairs of first linear guide rails, a pair of first sliding blocks, a plurality of first movable guide wheels, a pair of movable driving racks, a pair of driving motors, a pair of driving gears, a second mounting section bar, a pair of second linear guide rails, a second sliding block and two pairs of second movable guide wheels; the utility model relates to the technical field of line rail equipment, and the scheme has the beneficial effects that: the utility model effectively solves the limitation of single-function guide rail module transmission for laser engraving equipment, improves transmission under long-distance heavy load, has simple design structure and low manufacturing cost, is suitable for working in various severe environments, and has smooth and free reciprocating movement and higher working precision.

Description

Novel laser engraving equipment is with multi-functional line rail module

Technical Field

The utility model relates to the technical field of wire rail equipment, in particular to a novel multifunctional wire rail module for laser engraving equipment.

Background

The guide rail module is widely applied to automatic production equipment in various industries and is mainly used for supporting and guiding moving parts. In the field of laser processing, the guide rail module is an important component of laser engraving equipment, and the quality of the performance of the guide rail module directly has great influence on the quality of a machined part; at present, most of guide rail modules used by laser engraving equipment are of single transmission type, only synchronous belts can be used for transmission, the transmission length cannot be too long, and the guide rail modules are not suitable for accurate positioning and continuous motion control; in addition, the installation of the inner and outer tracks has certain limitation, and the normal production activities are affected to different degrees, so that the designer actively searches and researches to create the multifunctional line track guide rail module for the laser engraving equipment, and hopefully solves the problems.

Disclosure of Invention

In order to achieve the above purpose, the utility model is realized by the following technical scheme: novel laser engraving equipment is with multi-functional line rail module includes: the pair of first mounting sections are provided with a double-shaft moving track structure;

the double-shaft moving track structure comprises: the device comprises two pairs of first linear guide rails, a pair of first sliding blocks, a plurality of first movable guide wheels, a pair of movable driving racks, a pair of driving motors, a pair of driving gears, a second mounting section bar, a pair of second linear guide rails, a second sliding block and two pairs of second movable guide wheels;

the two pairs of first linear guide rails are embedded on a pair of first installation sectional materials, a plurality of first movable guide wheels are installed on a pair of first sliding blocks, a pair of first sliding blocks are installed on the two pairs of first linear guide rails through a plurality of first movable guide wheels, a pair of movable driving racks are installed at the lower position of the outer side wall surfaces of the pair of first installation sectional materials, a pair of driving motors are installed at the outer side positions of the lower wall surfaces of the pair of first sliding blocks, a pair of driving gears are installed at the output ends of the pair of driving motors, the pair of driving gears are meshed with the pair of movable driving racks, a second installation sectional material is installed on the pair of first sliding blocks, a pair of second linear guide rails are embedded on a second installation sectional material, and the two pairs of second movable guide wheels are installed on the lower wall surfaces of the second sliding blocks.

Preferably, the first mounting profile and the second mounting profile are hollow structures.

Preferably, the first mounting section bar and the second mounting section bar are provided with embedded grooves for mounting the first linear guide rail and the second linear guide rail.

Preferably, a pair of movable driving racks are provided with mounting holes for fixing.

Preferably, the first sliding block and the second sliding block are provided with guide wheel holes for installing the first movable guide wheels and the second movable guide wheels.

Preferably, the drive gear is mounted on the drive motor output via a gear mounting bar.

Advantageous effects

The utility model provides a novel multifunctional wire rail module for laser engraving equipment, which has the following beneficial effects: according to the utility model, the novel structural design is adopted, the linear guide rail is embedded into the profile groove, the rack is fastened on the profile, the synchronous transmission belt is annularly covered on the upper surface and the lower surface of the linear guide rail, the limitation of single-function guide rail module transmission for laser engraving equipment is effectively solved, the transmission under long-distance heavy load is improved, the design structure is simple, the manufacturing cost is low, the device is suitable for working in various severe environments, the reciprocating motion is smooth and free, and the working precision is higher.

Drawings

Fig. 1 is a schematic perspective view of a multifunctional wire rail module for a novel laser engraving device according to the present utility model.

Fig. 2 is a schematic diagram of a front cross-sectional structure of a first installation profile of a multifunctional wire rail module for a novel laser engraving device.

Fig. 3 is a schematic perspective view of a first sliding block of a multifunctional wire rail module for a novel laser engraving device according to the present utility model.

In the figure: 1-a first mounting profile; 2-a first linear guide; 3-a first slider; 4-a first movable guide wheel; 5-moving the drive rack; 6-driving a motor; 7-a drive gear; 8-a second mounting profile; 9-a second linear guide rail; 10-a second slider; 11-a second moving guide wheel; 12-embedding grooves; 13-mounting holes; 14-a guide wheel hole; 15-gear fixing rod.

Detailed Description

All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Examples: please refer to fig. 1-3; the main components of the scheme are as follows: a pair of first mounting profiles 1, on which a biaxial movement track structure is mounted on the pair of first mounting profiles 1;

the double-shaft moving track structure comprises: two pairs of first linear guide rails 2, a pair of first sliding blocks 3, a plurality of first movable guide wheels 4, a pair of movable driving racks 5, a pair of driving motors 6, a pair of driving gears 7, a second mounting profile 8, a pair of second linear guide rails 9, a second sliding block 10 and two pairs of second movable guide wheels 11;

the two pairs of first linear guide rails 2 are embedded on the pair of first installation section bars 1, the plurality of first movable guide wheels 4 are installed on the pair of first sliding blocks 3, the pair of first sliding blocks 3 are installed on the two pairs of first linear guide rails 2 through the plurality of first movable guide wheels 4, the pair of movable driving racks 5 are installed on the lower side wall surface of the pair of first installation section bars 1, the pair of driving motors 6 are installed on the outer side position of the lower wall surface of the pair of first sliding blocks 3, the pair of driving gears 7 are installed on the output ends of the pair of driving motors 6, the pair of driving gears 7 are meshed with the pair of movable driving racks 5, the second installation section bars 8 are installed on the pair of first sliding blocks 3, the pair of second linear guide rails 9 are embedded on the second installation section bars 8, the two pairs of second movable guide wheels 11 are installed on the lower wall surface of the second sliding blocks 10, and the second sliding blocks 10 are installed on the pair of second linear guide rails 9 through the two pairs of second movable guide wheels 11.

When the double-shaft moving track structure is used, an external optical engraving component is mounted on a second sliding block 10, a pair of first sliding blocks 3 are mounted on a first linear guide rail 2 on a first mounting section bar 1 through a plurality of first moving guide wheels 4, a driving motor 6 mounted on the first sliding blocks 3 is started, the driving motor 6 rotates to drive a driving gear 7 mounted on the output end of the driving motor to start rotating, the driving gear 7 is mounted on the first mounting section bar 1 in a rotating fit manner to move a driving rack 5 to drive the first sliding blocks 3 to move, the first sliding blocks 3 move on the first mounting section bar 1 through the first moving guide wheels 4, the first sliding blocks 3 move to realize movement in the Y-axis direction, the second sliding blocks 10 move on a second mounting section bar 8 through a second moving guide wheels 11 to realize movement in the X-axis direction, and the linear guide rail movement of laser engraving equipment is realized through synchronous movement of the X-axis and Y-axis.

In a specific implementation, further, the first mounting profile 1 and the second mounting profile 8 are hollow structures.

In the specific implementation process, further, the first mounting section bar 1 and the second mounting section bar 8 are provided with embedded grooves 12 for mounting the first linear guide rail 2 and the second linear guide rail 9.

In the specific implementation process, further, a pair of movable driving racks 5 are provided with mounting holes 13 for fixing.

In the implementation process, further, the first sliding block 3 and the second sliding block 10 are provided with guide wheel holes 14 for installing the first moving guide wheel 4 and the second moving guide wheel 11.

In the specific implementation process, further, the driving gear 7 is mounted on the output end of the driving motor 6 through a gear fixing rod 15.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. Novel laser engraving equipment is with multi-functional line rail module includes: a pair of first mounting profiles, wherein a biaxial movement track structure is mounted on the pair of first mounting profiles;

the double-shaft moving track structure comprises: the device comprises two pairs of first linear guide rails, a pair of first sliding blocks, a plurality of first movable guide wheels, a pair of movable driving racks, a pair of driving motors, a pair of driving gears, a second mounting section bar, a pair of second linear guide rails, a second sliding block and two pairs of second movable guide wheels;

the two pairs of first linear guide rails are embedded on a pair of first installation sectional materials, a plurality of first movable guide wheels are installed on a pair of first sliding blocks, a pair of first sliding blocks are installed on the two pairs of first linear guide rails through a plurality of first movable guide wheels, a pair of movable driving racks are installed at the lower position of the outer side wall surfaces of the pair of first installation sectional materials, a pair of driving motors are installed at the outer side positions of the lower wall surfaces of the pair of first sliding blocks, a pair of driving gears are installed at the output ends of the pair of driving motors, the pair of driving gears are meshed with the pair of movable driving racks, a second installation sectional material is installed on the pair of first sliding blocks, a pair of second linear guide rails are embedded on a second installation sectional material, and the two pairs of second movable guide wheels are installed on the lower wall surfaces of the second sliding blocks.

2. The multifunctional wire rail module for the novel laser engraving equipment according to claim 1, wherein the first mounting profile and the second mounting profile are hollow structures.

3. The multifunctional linear rail module for novel laser engraving equipment according to claim 1, wherein the first mounting section bar and the second mounting section bar are provided with embedded grooves for mounting the first linear guide rail and the second linear guide rail.

4. The multifunctional wire rail module for the novel laser engraving equipment according to claim 1, wherein a pair of movable driving racks are provided with mounting holes for fixing.

5. The multifunctional wire rail module for the novel laser engraving equipment according to claim 1, wherein guide wheel holes for installing the first movable guide wheels and the second movable guide wheels are formed in the first sliding block and the second sliding block.

6. The multifunctional wire rail module for the novel laser engraving equipment according to claim 1, wherein the driving gear is installed on the output end of the driving motor through a gear fixing rod.

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