CN102554428A

CN102554428A - Numerical control cantilever plasma cutting machine

Info

Publication number: CN102554428A
Application number: CN2012100360506A
Authority: CN
Inventors: 邵燕瑛; 吴美琴; 周冰峰; 陆志远; 刘胜荣
Original assignee: Wuxi Hualian Precision Machinery Co Ltd
Current assignee: Wuxi Hualian Science and Technology Group Co Ltd; Wuxi Hualian Precision Machinery Co Ltd
Priority date: 2012-02-17
Filing date: 2012-02-17
Publication date: 2012-07-11

Abstract

The invention discloses a numerical control cantilever plasma cutting machine. A cutting torch is fixedly clamped on a Z-axis lifter through a clamping device, the Z-axis lifter is mounted on an X-axis slide carriage, and the X-axis slide carriage slides on an X axis along a transverse guide rail through a transverse slider and is driven by means of meshing of a transverse gear and a transverse rack. A transverse beam component is of a cantilever structure, the transverse guide rail and the transverse rack are mounted on a cantilever of the transverse beam component, a support of the transverse beam component is connected to a longitudinal guide rail through a longitudinal slider to realize Y-axis movement, a longitudinal gear at an output end of the transverse beam component is meshed with a longitudinal rack, the longitudinal guide rail and the longitudinal rack are parallelly mounted on a longitudinal beam component, and a cutting table is arranged below the transverse beam component. The precision of the numerical control cantilever plasma cutting machine is higher than that of a small cutting machine, the manufacturing cost of the numerical control cantilever plasma cutting machine is lower than that of a large cutting machine, the numerical control cantilever plasma cutting machine is simple and compact in structure, small in occupied area, simple and convenient in maintenance and easy in operation, and installation is convenient and rapid and running is stable by the aid of the cantilever structure.

Description

Numerical control cantilever CUT

Technical field

The present invention relates to the cutting equipment technical field, especially a kind of numerical control cantilever CUT.

Background technology

At present, CUT generally all is planer type structure or desk-top all-in-one, for little span cutting machine if make planer type structure; Its longitudinal rail also must be made two identical with big span cutting machine, and this can be very high for manufacturing cost, and vertically the major-minor guide rail is installed consuming time; The complete machine fabrication cycle is long; Floor space is big, and complicacy is installed, and makes the basis for the user and has relatively high expectations; And desk-top all-in-one needs large-scale finish machining equipment, processed complex, and cost of manufacture is high.

Summary of the invention

The applicant provides a kind of numerical control cantilever CUT rational in infrastructure, thereby reduces volume to shortcomings such as above-mentioned existing CUT complex structure, installation complicacies, simplifies and installs, and has reduced cost of manufacture.

The technical scheme that the present invention adopted is following:

A kind of numerical control cantilever CUT, cutting torch is clamped on the Z axle goes up and down by clamper, the Z axle goes up and down to be installed on the X axle slide carriage, X axle slide carriage through transverse slider transversely guide rail carry out the slippage of X axle, drive through the transverse gear and the horizontal engagement of tooth bar; Beam part is a cantilever design; Cross slide way and horizontal tooth bar are installed in the cantilever portion of beam part; The support portion of beam part is connected longitudinal rail through longitudinal sliding block and realizes moving of Y axle, vertical gear of beam part end output and longitudinal rack engagement, and longitudinal rail and longitudinal rack are installed in parallel on the longeron parts; The longeron parts are evenly supported by a plurality of support foots, through adjustment bolt adjustment level height; Cutting bed is arranged on the below of beam part.

Further improvement as technique scheme: through the motion of numerical control operating case control X axle, Y axle, Z axle.

Beneficial effect of the present invention is following:

The present invention is higher than gantry cutting machine precision, and lower than table saw cost; Simple and compact for structure, floor space is little, and easy maintenance is easy to operate; It is easy for installation rapid, stable to adopt cantilever structure to make.

Description of drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is the right view of Fig. 1.

Among the figure: 1, longitudinal sliding block; 2, longitudinal rail; 3, vertical gear; 4, longitudinal rack; 5, longeron parts; 6, connecting bolt; 7, support foot; 8, adjustment bolt; 9, beam part; 10, numerical control operating case; 11, cutting bed; 12, transverse gear; 13, horizontal tooth bar; 14, cross slide way; 15, transverse slider; 16, X axle slide carriage; 17, the Z axle goes up and down; 18, plasma cutting-torch; 19, clamper.

The specific embodiment

Below in conjunction with accompanying drawing, the specific embodiment of the present invention is described.

Like Fig. 1, shown in Figure 2; The plasma cutting-torch 18 of numerical control cantilever CUT of the present invention is contained in the Z axle up-down 17 through clamper 19; Z axle up-down 17 is contained on the X axle slide carriage 16; X axle slide carriage 16 is connected with transverse slider 15, the transverse gear 12 of output and laterally tooth bar 13 engagements on the beam part 9, and the guiding through cross slide way 14 can realize moving of X axle.Beam part 9 is a cantilever design; Cross slide way 14 all is installed on the cantilever portion of beam part 9 with horizontal tooth bar 13; The support portion of beam part 9 is connected on four longitudinal sliding blocks 1 of longitudinal rail 2; Vertical gear 3 of beam part 9 ends output and longitudinal rack 4 engagements, the guiding through two longitudinal rails 2 forms moving of Y axle, and two longitudinal rails 2 are installed in parallel on the longeron parts 5 with the direction of longitudinal rack 4 along longeron parts 5; The length of longeron parts 5 can be according to the length setting of workpiece; Longeron parts 5 are evenly supported by a plurality of support foots 7, and are connected fixingly between the support foot 7 by connecting bolt 6, and whole level height is by adjustment bolt 8 adjustment height.Numerical control operating case 10 can be controlled X axle, Y axle, Z axle all around, motion up and down.Lathe guaranteed positioning accuracy when the perpendicularity of X axle of the present invention and Y axle was processed by longitudinal and cross beam, need not adjustment during installation.Cutting bed 11 is used for place work piece, is arranged on the below of beam part 9, and length and width are according to confirming to stroke in length and breadth.

During real work, earlier workpiece is positioned on the cutting bed 11, the cutting process that weaves moves through numerical control operating case 10 control X axles, Y axle and Z axle, carries out the cutting of special-shaped part; Wherein the Y axle moves by vertical gear 3 and longitudinal rack 4 engagement rear drives, through the guiding realization of longitudinal rail 2 and longitudinal sliding block 1; The X axle is a cantilever design, by transverse gear 12 and laterally tooth bar 13 engagement drivings, leads through cross slide way 14 and transverse slider 15; The Z axle goes up and down and 17 to be contained in and to follow the X axle on the X axle slide carriage 16 and move, and the Z axle goes up and down the plasma cutting-torch 18 installed on 17 by clamper 19 clampings, can carry out the cutting to workpiece.

More than describing is to explanation of the present invention, is not that institute of the present invention restricted portion is referring to claim to the qualification of invention, and under the situation of spirit of the present invention, the present invention can do any type of modification.

Claims

1. numerical control cantilever CUT; It is characterized in that: cutting torch (18) is clamped in the Z axle up-down (17) by clamper (19); Z axle up-down (17) is installed on the X axle slide carriage (16); X axle slide carriage (16) through transverse slider (15) transversely guide rail (14) carry out the slippage of X axle, drive through the transverse gear (12) and the horizontal engagement of tooth bar (13); Beam part (9) is a cantilever design; Cross slide way (14) and horizontal tooth bar (13) are installed in the cantilever portion of beam part (9); The support portion of beam part (9) is connected longitudinal rail (2) through longitudinal sliding block (1) and realizes moving of Y axle; Vertical gear (3) of beam part (9) end output and longitudinal rack (4) engagement; Longitudinal rail (2) is installed in parallel on the longeron parts (5) with longitudinal rack (4), and longeron parts (5) are by evenly supporting of a plurality of support foots (7), through adjustment bolt (8) adjustment level height; Cutting bed (11) is arranged on the below of beam part (9).

2. according to the described numerical control cantilever of claim 1 CUT, it is characterized in that: through the motion of numerical control operating case (10) control X axle, Y axle, Z axle.