CN203254058U - Transmission structure of small precision laser engraving machine - Google Patents

Abstract

The utility model provides a transmission structure of a small precision laser engraving machine, and belongs to the technical field of engraving machines. The transmission structure structurally comprises a frame body and a laser head, the upper surface of the frame body is provided with an X-axis motion structure and a Y-axis motion structure, the X-axis motion structure is arranged above the Y-axis motion structure, and the laser head is arranged on the X-axis motion structure. Compared with the prior art, the transmission structure has the advantages of being reasonable in design, simple in structure, good in use effect and the like, and enables the small laser engraving machine to achieve a largest processing space and a most accurate engraving effect within a minimum space.

Description

Miniature precision laser engraving machine drive mechanism

Technical field

The utility model relates to the laser engraving machine field, specifically a kind of miniature precision laser engraving machine drive mechanism.

Background technology

Spatial dimension in the existing miniature laser engraving machine is less, in narrow space like this, laser head position adjustments in running is convenient not, for laser engraving, need accurate engraving size during engraving, if the adjustment of laser head position is meticulous not, just this impacts product so that the effect of engraving is had a greatly reduced quality.

Summary of the invention

Technical assignment of the present utility model is for the deficiencies in the prior art, and a kind of reasonable in design, miniature precision laser engraving machine drive mechanism that result of use is good is provided.

The technical scheme that its technical problem that solves the utility model adopts is:

Miniature precision laser engraving machine drive mechanism, comprise support body and laser head, upper surface at support body is provided with X-axis motion structure and Y-axis motion structure, described X-axis motion structure is arranged on the top of Y-axis motion structure, the aforementioned laser head is arranged on the X-axis motion structure, described X-axis motion structure comprises X-axis motor, X beam and X belt, the two ends of X beam are respectively arranged with the X belt wheel, the X belt is arranged on the X belt wheel, one of them X belt wheel directly is connected with aforementioned X-axis motor, the X motor is arranged on the X beam, and laser head is arranged on the X belt.

Miniature precision laser engraving machine drive mechanism, its described Y-axis motion structure comprises Y motor, Y beam, Y rotating shaft, Y driving belt and Y belt, the a pair of Y beam that be arranged in parallel is separately positioned on the left and right sides of support body upper surface, the two ends of each Y beam are respectively arranged with the Y belt wheel, described Y belt is separately positioned on two pairs of Y belt wheels, the two ends of aforementioned Y rotating shaft are connected with the Y belt wheel of the same side on each Y beam respectively, and aforementioned Y motor is connected with the Y rotating shaft by the Y driving belt.

Miniature precision laser engraving machine drive mechanism, its described X-axis motion structure comprises X-axis motor, X beam and X belt, the two ends of X beam are respectively arranged with the X belt wheel, the X belt is arranged on the X belt wheel, wherein an X belt wheel is connected with aforementioned X-axis motor, the X motor is arranged on the X beam, and laser head is arranged on the X belt.

Miniature precision laser engraving machine drive mechanism, its Y rotating shaft parallels with the X belt.

Miniature precision laser engraving machine drive mechanism of the present utility model compared with prior art, what produce has

Beneficial effect really is:

The utlity model has the characteristics such as reasonable in design, simple in structure, easy to use, function admirable, practicality,

Mainly to miniature laser engraving machine usefulness, reach the processing space of maximum, the most accurate engraving effect by the space of minimum, by utilizing precise guide rail, the precise synchronization band moves when making machine works gently, and data are accurate.

Description of drawings

Accompanying drawing 1 is plan structure schematic diagram of the present utility model;

Accompanying drawing 2 is forward sight structural representations of the present utility model.

The specific embodiment

Below in conjunction with accompanying drawing the utility model is described in detail below.

As shown in drawings, miniature precision laser engraving machine drive mechanism of the present utility model, its structure comprises support body 1 and laser head 12, upper surface at support body 1 is provided with X-axis motion structure and Y-axis motion structure, described Y-axis motion structure comprises Y motor 4, Y beam 6, Y rotating shaft 2, Y driving belt 3 and Y belt 7, the a pair of Y beam 6 that be arranged in parallel is separately positioned on the left and right sides of support body 1 upper surface, the two ends of each Y beam 6 are respectively arranged with Y belt wheel 5, described Y belt 7 is separately positioned on two pairs of Y belt wheels 5, the two ends of aforementioned Y rotating shaft 2 are connected with the Y belt wheel 5 of the same side on each Y beam 6 respectively, and aforementioned Y motor 4 is connected with Y rotating shaft 2 by Y driving belt 3.Described X-axis motion structure comprises X-axis motor 8, X beam 10 and X belt 11, the two ends of X beam 10 are respectively arranged with X belt wheel 9, X belt 11 is arranged on the X belt wheel 9, wherein an X belt wheel 9 is connected with aforementioned X-axis motor 8, described X motor 8 is arranged on X beam 10 upper surfaces, laser head 12 is arranged on the X belt 11, and Y rotating shaft 2 parallels with X belt 11.

Y motor 4 drives Y rotating shafts 2 rotations by Y driving belt 3, and Y rotating shaft 2 is moved by affixed with it Y belt wheel band 5 moving Y belts 7 again, and Y belt 7 drags again X beam 10 along the translation of Y track, and the laser head 12 of realizing being fixed on the X beam 10 moves along Y-direction.

X motor 8 drive X belts 11 and with it affixed laser head 12 realize that along the translation of X track laser head 12 moves along directions X.

Its processing and fabricating of miniature precision laser engraving machine drive mechanism of the present utility model is simple and convenient, and processing and fabricating gets final product shown in the by specification accompanying drawing.

Except the described technical characterictic of specification, be those skilled in the art's known technology.

Claims (3)

1. miniature precision laser engraving machine drive mechanism, comprise support body and laser head, it is characterized in that being provided with X-axis motion structure and Y-axis motion structure at the upper surface of support body, described X-axis motion structure is arranged on the top of Y-axis motion structure, the aforementioned laser head is arranged on the X-axis motion structure, described X-axis motion structure comprises X-axis motor, X beam and X belt, the two ends of X beam are respectively arranged with the X belt wheel, the X belt is arranged on the X belt wheel, one of them X belt wheel directly is connected with aforementioned X-axis motor, the X motor is arranged on the X beam, and laser head is arranged on the X belt.

2. miniature precision laser engraving machine drive mechanism according to claim 1, it is characterized in that described Y-axis motion structure comprises Y motor, Y beam, Y rotating shaft, Y driving belt and Y belt, the a pair of Y beam that be arranged in parallel is separately positioned on the left and right sides of support body upper surface, the two ends of each Y beam are respectively arranged with the Y belt wheel, described Y belt is separately positioned on two pairs of Y belt wheels, the two ends of aforementioned Y rotating shaft are connected with the Y belt wheel of the same side on each Y beam respectively, and aforementioned Y motor is connected with the Y rotating shaft by the Y driving belt.

3. miniature precision laser engraving machine drive mechanism according to claim 2 is characterized in that the Y rotating shaft parallels with the X belt.

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