CN203956513U - Numerical control engraving and milling ray machine - Google Patents

Abstract

The utility model discloses a kind of numerical control engraving and milling ray machine, comprise box-type base, Z axis slide plate for carrying, the left and right sides of box-type base is connected with respectively left box body formula column and right case formula column; Box-type base is provided with workbench; The structure of the structure of right case formula columns assemblies and left box body formula columns assemblies is symmetrical; Left box body formula columns assemblies comprises left box body formula column, on left box body formula column, is connected with crossbeam base plate; On crossbeam base plate, be connected with box-type crossbeam; The front portion of box-type crossbeam is connected with Z axis base plate; The left and right sides of Z axis base plate is connected with respectively slide plate left plate and slide plate right plate; Z axis slide plate is connected on Z axis base plate; The bottom of Z axis slide plate is connected with collar bush.The utility model adopts three axis rails, has increased the stability of lathe, has greatly strengthened cutting, the rigidity of carving milling; Adopt dynamic cross beam type Dual Drive, strengthened the transfer of torque power of stroke.

Description

Numerical control engraving and milling ray machine

Technical field

The utility model relates to machine tooling apparatus field, refers more particularly to a kind of numerical control engraving and milling ray machine.

Background technology

Carving milling ray machine is a kind of high accuracy, high efficiency automation Metal Cutting Machine Tool, its lathe bed part has higher requirement compared with machine tool, as high accuracy, high-speed, Highly-absorbing performance, the white greasy property of low friction etc., wherein high rigidity, Highly-absorbing performance are that carving milling ray machine is realized high accuracy, high-speed basic guarantee.In prior art, the frame structure of base, column, its lifting surface area is little, and balance and weight capacity are inadequate, easily produce convexity and backward twisted phenomena; And the bad control in mobile position of main shaft etc.

Summary of the invention

The purpose of this utility model is to overcome above-mentioned weak point of the prior art and a kind of stability that increases lathe is provided, and greatly strengthened the rigidity of cutting, carving milling, practical numerical control engraving and milling ray machine.

The utility model is realized in the following way:

Numerical control engraving and milling ray machine, is characterized in that: comprise box-type base 1, Z axis slide plate 17 for carrying, the left and right sides of described box-type base 1 is connected with respectively left box body formula column 2 and right case formula column 3; Described box-type base 1 is provided with workbench 4; Described workbench 4 is between left box body formula columns assemblies 2 and right case formula columns assemblies 3; The structure of the structure of described right case formula columns assemblies 3 and left box body formula columns assemblies 2 is symmetrical; Described left box body formula column 2 assemblies comprise left box body formula column 21, and described left box body formula column 21 is provided with Y-axis linear track 5 and Y-axis ball screw 6; Described Y-axis ball screw 6 is connected with the Y-axis motor 7 being fixed on left box body formula column 2; On described Y-axis linear track 5, be connected with crossbeam base plate 8; Described crossbeam base plate 8 is connected with Y-axis ball screw 6;

On described crossbeam base plate 8, be connected with box-type crossbeam 9; Described box-type crossbeam 9 is positioned at the top of workbench 4; The front portion of described box-type crossbeam 9 is connected with Z axis base plate 11 by X-axis linear track 10; Described box-type crossbeam 9 is provided with X-axis ball screw 12; Described X-axis ball screw 12 is connected with the X-axis motor 13 being fixed on box-type crossbeam 9; Described Z axis base plate 11 is connected with X-axis ball screw 12;

The left and right sides of described Z axis base plate 11 is connected with respectively slide plate left plate 14 and slide plate right plate 15; Described Z axis slide plate 17 is connected on Z axis base plate 11; The left and right sides of described Z axis slide plate 17 is respectively equipped with a Z axis linear track 18; Described Z axis linear track 18 is connected with slide plate right plate 15 with slide plate left plate 14 respectively; On described Z axis slide plate 17, be connected with Z axis ball screw; Described Z axis ball screw is connected with the Z axis motor 19 being fixed on Z axis slide plate 17; The bottom of described Z axis slide plate 17 is connected with collar bush 20.

The beneficial effects of the utility model are: adopt X-axis linear track, Y-axis linear track, Z axis linear track, increased the stability of lathe, greatly strengthened cutting, the rigidity of carving milling; Adopt dynamic cross beam type Dual Drive, strengthened the transfer of torque power of stroke.

Accompanying drawing explanation

Fig. 1 the utility model structural representation;

Fig. 2 the utility model STRUCTURE DECOMPOSITION figure.

The specific embodiment

Now by reference to the accompanying drawings, the utility model specific embodiment is described in detail in detail:

As shown in Figure 1 and Figure 2, a kind of numerical control engraving and milling ray machine, comprises box-type base 1, Z axis slide plate 17 for carrying, and the left and right sides of box-type base 1 is connected with respectively left box body formula column 2 and right case formula column 3; Box-type base 1 is provided with workbench 4; Workbench 4 is between left box body formula columns assemblies 2 and right case formula columns assemblies 3; The structure of the structure of right case formula columns assemblies 3 and left box body formula columns assemblies 2 is symmetrical; Left box body formula column 2 assemblies comprise left box body formula column 21, and left box body formula column 21 is provided with Y-axis linear track 5 and Y-axis ball screw 6; Y-axis ball screw 6 is connected with the Y-axis motor 7 being fixed on left box body formula column 2; On Y-axis linear track 5, be connected with crossbeam base plate 8; Crossbeam base plate 8 is connected with Y-axis ball screw 6; On crossbeam base plate 8, be connected with box-type crossbeam 9; Box-type crossbeam 9 is positioned at the top of workbench 4; The front portion of box-type crossbeam 9 is connected with Z axis base plate 11 by X-axis linear track 10; Box-type crossbeam 9 is provided with X-axis ball screw 12; X-axis ball screw 12 is connected with the X-axis motor 13 being fixed on box-type crossbeam 9; Z axis base plate 11 is connected with X-axis ball screw 12; The left and right sides of Z axis base plate 11 is connected with respectively slide plate left plate 14 and slide plate right plate 15; Z axis slide plate 17 is connected on Z axis base plate 11; The left and right sides of Z axis slide plate 17 is respectively equipped with a Z axis linear track 18; Z axis linear track 18 is connected with slide plate right plate 15 with slide plate left plate 14 respectively; On Z axis slide plate 17, be connected with Z axis ball screw; Z axis ball screw is connected with the Z axis motor 19 being fixed on Z axis slide plate 17; The bottom of Z axis slide plate 17 is connected with collar bush 20.

1 design of the utility model box-type base, strengthens foundry goods rigidity and stability.

The utility model left box body formula columns assemblies 2 and 3 designs of right case formula columns assemblies, the toughness of the foundry goods of enhancing and rigidity.

The utility model adopts X-axis linear track 10, Y-axis linear track 5, Z axis linear track 18, has increased the stability of lathe, has greatly strengthened cutting, and the rigidity of carving milling has improved cutting output and the walking dynamics of processing simultaneously.

During work, by Y-axis motor 7, drive Y-axis ball screw 6 to rotate, realize the movement of crossbeam 9, by Z axis motor 19, drive Z axis ball screw to rotate, realize moving up and down of Z axis slide plate 17, thereby adjust the distance between collar bush 20 and workbench 4; By X-axis motor 13, drive X-axis ball screw 12 to move, realize moving left and right of Z axis slide plate 17, be convenient to the workpiece on processing work platform 4.

The foregoing is only embodiment of the present utility model; not thereby limit the scope of the claims of the present utility model; every equivalent structure or conversion of equivalent flow process that utilizes the utility model description and accompanying drawing content to do; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (1)

1. numerical control engraving and milling ray machine, is characterized in that: comprise box-type base (1), Z axis slide plate (17) for carrying, the left and right sides of described box-type base (1) is connected with respectively left box body formula column (2) and right case formula column (3); Described box-type base (1) is provided with workbench (4); Described workbench (4) is positioned between left box body formula columns assemblies (2) and right case formula columns assemblies (3); The structure of the structure of described right case formula columns assemblies (3) and left box body formula columns assemblies (2) is symmetrical; Described left box body formula column (2) assembly comprises left box body formula column (21), and described left box body formula column (21) is provided with Y-axis linear track (5) and Y-axis ball screw (6); Described Y-axis ball screw (6) is connected with the Y-axis motor (7) being fixed on left box body formula column (2); On described Y-axis linear track (5), be connected with crossbeam base plate (8); Described crossbeam base plate (8) is connected with Y-axis ball screw (6);

On described crossbeam base plate (8), be connected with box-type crossbeam (9); Described box-type crossbeam (9) is positioned at the top of workbench (4); The front portion of described box-type crossbeam (9) is connected with Z axis base plate (11) by X-axis linear track (10); Described box-type crossbeam (9) is provided with X-axis ball screw (12); Described X-axis ball screw (12) is connected with the X-axis motor (13) being fixed on box-type crossbeam (9); Described Z axis base plate (11) is connected with X-axis ball screw (12);

The left and right sides of described Z axis base plate (11) is connected with respectively slide plate left plate (14) and slide plate right plate (15); Described Z axis slide plate (17) is connected on Z axis base plate (11); The left and right sides of described Z axis slide plate (17) is respectively equipped with a Z axis linear track (18); Described Z axis linear track (18) is connected with slide plate right plate (15) with slide plate left plate (14) respectively; On described Z axis slide plate (17), be connected with Z axis ball screw; Described Z axis ball screw is connected with the Z axis motor (19) being fixed on Z axis slide plate (17); The bottom of described Z axis slide plate (17) is connected with collar bush (20).