CN202986610U - Intelligent automatic control driving system used for high rotating speed carving machine - Google Patents

Abstract

The utility model discloses an intelligent automatic control driving system used for a high rotating speed carving machine. The system comprises a base, a support column fixed on the base and a beam arranged on the support column in erection mode. An X-axis driving mechanism driving a working platform to move in translational mode is arranged on the base, a Y-axis driving mechanism used for connecting a sliding plate seat of a carving assembly and driving the sliding plate seat to move transversely is arranged on the beam, and a Z-axis driving mechanism driving the carving assembly to move vertically is arranged on the sliding plate seat. The intelligent automatic control driving system can well improve carving accuracy of a carving machine, and simultaneously prolongs service life of a track.

Description

The intelligent automation control-driven system that is used for high rotating speed engraving machine

Technical field

The utility model relates to Automatic Driving System, in particular for the intelligent automation control-driven system of high rotating speed engraving machine.

Background technology

engraving machine is widely used in the industries such as Mould Machining and decoration, engraving machine is generally by cutter, the compositions such as driving mechanism and slide unit assembly, driving mechanism is comprised of interlinked mechanism and the motor that is connected in interlinked mechanism, yet, the motor general control workbench of existing driving mechanism is at X, Y, three directions of Z axis move, the lathe airframe structure is complicated, the bare bare area of the sliding rail of workbench is arranged on base, without any safeguard procedures, chip and the airborne dust of engraving generation are easy to injection like this, reduce the service life of track, and need to manually control the electric machine rotation stroke, realize opening and closing, by manually-operated, can not accurately realize the opening and closing of motor, precision is low.

The utility model content

In order to solve the problems of the technologies described above, the utility model is provided for the intelligent automation control-driven system of high rotating speed engraving machine, carves the position by adopting multidirectional automatic driving mechanism to regulate, and realizes controlling accurately.

To achieve these goals, the technical scheme that adopts of the utility model is:

A kind of intelligent automation control-driven system for high rotating speed engraving machine comprises base, is fixed on the pillar on base and is erected at crossbeam on pillar, is provided with the X-axis driving mechanism that drives table translation on base; Be provided with the Y-axis driving mechanism for the slide plate chair that connects the engraving assembly and driving slide plate chair lateral displacement on crossbeam; Be provided with the Z axis driving mechanism that drives the vertical displacement of engraving assembly on described slide plate chair; Be provided with telescopic protective cover on described X-axis driving mechanism, protective cover is connected and composed by polylith protective plate Telescopic sliding successively, and an end of protective cover is connected on an end of workbench glide direction, covers on the translation track of workbench one side.

Further, described X-axis driving mechanism comprises X-axis drive motors and X-axis drive rail, and described X-axis drive motors drives X-axis drive rail interlock workbench and carries out translation, and described X-axis drive rail adopts roller Linear transmission guide rail to be connected with workbench.

Further, described Y-axis driving mechanism comprises Y-axis drive motors and Y-axis drive rail, and described Y-axis drive motors drives Y-axis drive rail interlock slide plate chair lateral displacement, and described Y-axis drive rail adopts roller Linear transmission guide rail to be connected with slide plate chair.

Further, described Z axis driving mechanism comprises Z axis drive motors and Z-axis transmission guide rail, and described Z axis drive motors drives the vertical displacement of Z-axis transmission guide rail interlock engraving assembly, and described Z-axis transmission guide rail adopts roller Linear transmission guide rail to be connected with the engraving assembly.

Further, described X-axis driving mechanism, Y-axis driving mechanism and the Z axis driving mechanism reception control signal that is connected with digital control system by data-interface.Set running parameter by digital control system and drive the relative position that three spindle motors are adjusted graver and workbench.

The beneficial effect that the utility model brings is:

The utility model provides a kind of and is easy to control, the high rotating speed engraving machine type of drive of multidirectional transmission mechanism, the X, Y, Z axis direction adopts respectively linear electric motors to drive, the characteristics that have fast response time, operate steadily, can improve well the engraving precision of engraving machine, be coated with the concertina type protective cover on the driving mechanism of workbench simultaneously, improved the service life of track.

Description of drawings

Below in conjunction with accompanying drawing, the specific embodiment of the present utility model is described further.

Fig. 1 is overall structure schematic diagram of the present utility model.

Fig. 2 is side structure schematic diagram of the present utility model.

The specific embodiment

A kind of intelligent automation control-driven system for high rotating speed engraving machine comprises base 1, is fixed on the pillar 2 on base 1 and is erected at crossbeam 3 on pillar 2, is provided with the X-axis driving mechanism 5 that drives workbench 4 translations on base 1; Be provided with the Y-axis driving mechanism 6 for the slide plate chair 8 that connects engraving assembly 9 and driving slide plate chair 8 lateral displacements on crossbeam 3; Be provided with the Z axis driving mechanism 7 that drives 9 vertical displacements of engraving assembly on described slide plate chair 8.

In said structure, described X-axis driving mechanism 5 comprises X-axis drive motors 51 and X-axis drive rail 52, and described X-axis drive motors 51 drives X-axis drive rail 52 interlock workbench 4 and carries out translation; Described Y-axis driving mechanism 6 comprises Y-axis drive motors 61 and Y-axis drive rail 62, and described Y-axis drive motors 61 drives Y-axis drive rail 62 interlock slide plate chair 8 lateral displacements; Described Z axis driving mechanism 7 comprises Z axis drive motors 71 and Z-axis transmission guide rail 72, and described Z axis drive motors 71 drives 72 interlock engraving assembly 9 vertical displacements of Z-axis transmission guide rail.Described X-axis drive rail 52 all adopts roller Linear transmission guide rail to be connected with slide plate chair 8, Z-axis transmission guide rail 72 with engraving assembly 9 with workbench 4, Y-axis drive rail 62.

Preferably, described X-axis driving mechanism 5, Y-axis driving mechanism 6 and Z axis driving mechanism 7 reception control signal that is connected with digital control system by data-interface.

In order effectively to prevent carving chip and dust and other impurities falls into track, the platform 4 that hinders one's work slides, be provided with telescopic protective cover 10 on described X-axis driving mechanism 5, protective cover 10 is connected and composed by polylith protective plate Telescopic sliding successively, one end of protective cover 10 is connected on an end of workbench 4 glide directions, and protective cover 10 covers on the translation track of workbench 4 one sides fully.

The utility model adopts digital control system operating and setting program, positioning accuracy is high, control is simple, workpiece is positioned on workbench 4, can do along X-axis driving mechanism 5 with workbench 4 and move forward and backward, engraving member is done the left and right and moves vertically with Y-axis driving mechanism 6 and Z axis driving mechanism 7 on crossbeam 3, in the engraving process, adjust the relative position of engraving member and workpiece by X, Y, the axial motor of Z three and carve.

The above is preferred embodiment of the present utility model, and the utility model is not limited to above-mentioned embodiment, as long as it reaches technique effect of the present utility model with identical means, all should belong to protection domain of the present utility model.

Claims (5)

1. intelligent automation control-driven system that is used for high rotating speed engraving machine is characterized in that: comprises,

Base (1) is provided with the X-axis driving mechanism (5) that drives workbench (4) translation on base (1);

Pillar (2) is fixed on base (1);

Crossbeam (3) is erected on pillar (2), is provided with the Y-axis driving mechanism (6) for the slide plate chair (8) that connects engraving assembly (9) and driving slide plate chair (8) lateral displacement on crossbeam (3);

Be provided with the Z axis driving mechanism (7) that drives the vertical displacement of engraving assembly (9) on described slide plate chair (8);

Be provided with telescopic protective cover (10) on described X-axis driving mechanism (5), protective cover (10) is connected and composed by polylith protective plate Telescopic sliding successively, one end of protective cover (10) is connected on an end of workbench (4) glide direction, covers on the translation track of workbench (4) one sides.

2. the intelligent automation control-driven system for high rotating speed engraving machine according to claim 1, it is characterized in that: described X-axis driving mechanism (5) comprises X-axis drive motors (51) and X-axis drive rail (52), described X-axis drive motors (51) drives X-axis drive rail (52) interlock workbench (4) and carries out translation, and described X-axis drive rail (52) adopts roller Linear transmission guide rail to be connected with workbench (4).

3. the intelligent automation control-driven system for high rotating speed engraving machine according to claim 1, it is characterized in that: described Y-axis driving mechanism (6) comprises Y-axis drive motors (61) and Y-axis drive rail (62), described Y-axis drive motors (61) drives Y-axis drive rail (62) interlock slide plate chair (8) lateral displacement, and described Y-axis drive rail (62) adopts roller Linear transmission guide rail to be connected with slide plate chair (8).

4. the intelligent automation control-driven system for high rotating speed engraving machine according to claim 1, it is characterized in that: described Z axis driving mechanism (7) comprises Z axis drive motors (71) and Z-axis transmission guide rail (72), described Z axis drive motors (71) drives the vertical displacement of Z-axis transmission guide rail (72) interlock engraving assembly (9), and described Z-axis transmission guide rail (72) adopts roller Linear transmission guide rail to be connected with engraving assembly (9).

5. the intelligent automation control-driven system for high rotating speed engraving machine according to claim 1 is characterized in that: described X-axis driving mechanism (5), Y-axis driving mechanism (6) and Z axis driving mechanism (7) reception control signal that is connected with digital control system by data-interface.

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