CN104526028A - Double-workbench application based intelligent machining center - Google Patents

Abstract

The invention discloses a double-workbench application based intelligent machining center, which comprises a rack, wherein the rack comprises a work platform and a displacement mechanism linked with the work platform, and the work platform is formed by two machining stations which are arranged in parallel; the displacement mechanism comprises an X-axis movement mechanism, a Z-axis movement mechanism and a Y-axis movement mechanism, and the Y-axis movement mechanism is respectively arranged at the lower parts of the machining stations and is directly and slidably connected with the machining stations; the X-axis movement mechanism and the Z-axis movement mechanism are respectively combined and connected by a cross beam and stand columns. The two machining stations are set, the continuous machining of double stations is sequentially realized by the arrangement of three-axis displacement mechanisms without waiting for the feed time, so that the work efficiency is effectively improved, the structural design is simple, and the manufacturing cost is effectively controlled; a servo control system is adopted to achieve the intelligent control, the machining precision is high, and the machining of precision parts with different sizes and specifications is met, so that the machining center can be conveniently popularized and used on a large scale in different fields.

Description

Based on the Intelligent Machining Center of double-workbench application

Technical field

The present invention relates to machining center technical field, particularly relate to a kind of Intelligent Machining Center based on double-workbench application.

Background technology

CNC milling machine grows up on the basis of general milling machine, and both processing technologys are substantially identical, and also some is similar for structure.CNC milling machine has to be divided into is not with tool magazine and the large class of band tool magazine two.CNC milling machine wherein with tool magazine is also called machining center.

CNC milling machine is various informative, though dissimilar CNC milling machine difference to some extent on composition, has many similarities.General lathe is made up of 6 major parts. i.e. lathe bed part, milling head part, workbench portion, infeed part, lifting platform part, cooling, lubrication portion.Lathe bed interior layout is reasonable, has good rigidity, although traditional machining center possesses the design of the micro-precision component of superelevation, production and processing high-efficient integrated system.Especially Product processing field relates to communication, automotive connector and accurate electric appliance component association area.Wide range of services is in the sophisticated technologies such as automobile, aviation manufacturing.But traditional machining center all only has single workbench, complete the time needing to wait for once material loading return in process at charging aft-loaded airfoil, cannot Continuous maching be accomplished, thus cause the process-cycle to extend, have impact on working (machining) efficiency.

Summary of the invention

The object of the present invention is to provide a kind of Intelligent Machining Center based on double-workbench application, set two processing stations, by configuration three-shaft displacement mechanism, realizing double successively continuation processing, without the need to waiting for feed time, effectively increasing work efficiency.

For effectively solving the problems of the technologies described above, the technical scheme that the present invention takes is as follows:

Based on the Intelligent Machining Center of double-workbench application, comprise a frame, the displacement mechanism that described frame comprises workbench and links with it, described workbench is made up of the processing stations of two laid out in parallel, and institute's displacement mechanism comprises X-axis motion, Z axis motion and Y-axis motion; Described Y-axis motion is separately positioned on the bottom of described processing stations, and be directly slidably connected with described processing stations, described X-axis motion and Z axis motion are connected respectively by crossbeam and column.

Especially, institute's displacement mechanism comprises drive unit, and described drive unit is made up of one or more groups drive motors.

Especially, described in comprise a controller, described controller and institute's displacement mechanism and workbench control connection, described controller is made up of control chip connection control button and display unit, in the built-in control program of described control chip.

Especially, described Z axis motion is made up of the slide plate of lifting spindle and mobile link.

Especially, described column is fixed on described frame both sides, and is fixedly connected with described crossbeam two ends.

Especially, described X-axis motion is arranged on described crossbeam, and by arranging slide rail and described crossbeam is slidably connected.

Especially, institute's Z axis motion and described X-axis are integral type combining structure, and described X-axis motion moves left and right along described crossbeam, the oscilaltion campaign on described X-axis motion of described Z axis motion.

Especially, described Y-axis motion carry described processing stations move forward and backward.

Especially, comprise the movable support axle that penetrates described X-axis motion in the middle of described crossbeam, this movable support axle is arranged in the middle of the slide rail of described crossbeam upper and lower both sides.

Especially, described X-axis motion is provided with motor cabinet.

Beneficial effect of the present invention is: the Intelligent Machining Center based on double-workbench application provided by the invention, set two processing stations, by configuration three-shaft displacement mechanism, realize double successively continuation processing, without the need to waiting for feed time, effectively increase work efficiency, structural design is simple, effectively controls manufacturing cost, servo-control system is adopted to realize intelligentized control method, machining accuracy is high, meets the accurate accessory processing of different size and specification, is convenient to realize large-scale promotion in different field and uses.

Below in conjunction with accompanying drawing, the present invention is described in detail.

Accompanying drawing explanation

Fig. 1 is the Intelligent Machining Center structural representation based on double-workbench application of the present invention.

Wherein:

001 frame, 002 workbench, 003 processing stations, 004X shaft movement mechanism, 005 Z axis motion, 006 Y-axis motion, 007 crossbeam, 008 column, 009 drive motors, 010 motor cabinet, 011 lifting spindle, 012 slide plate, 013 slide rail, 014 movable support axle.

Detailed description of the invention

Embodiment 1:

In the present embodiment, the composition original paper of described conventional known structure does not do explanatory note and display in the drawings.

As shown in Figure 1, the disclosed Intelligent Machining Center based on double-workbench application of the present embodiment, comprise a frame 001, the displacement mechanism that described frame 001 comprises workbench 002 and links with it, described workbench 002 is made up of the processing stations 003 of two laid out in parallel, and institute's displacement mechanism comprises X-axis motion 004, Z axis motion 005 and Y-axis motion 006; Described Y-axis motion 006 is separately positioned on the bottom of described processing stations 003, directly be slidably connected with described processing stations 003, described X-axis motion 004 and Z axis motion 005 are connected respectively by the crossbeam 007 of centre and the column 008 on both sides.

Institute's displacement mechanism comprises drive unit, and described drive unit is made up of one or more groups drive motors 009.Describedly comprise a controller, described controller and institute's displacement mechanism and workbench 002 control connection, described controller is made up of control chip connection control button and display unit, in the built-in control program of described control chip.Described Z axis motion 005 is made up of the slide plate 012 of lifting spindle 011 and mobile link.Described column 008 is fixed on described frame 001 both sides, and is fixedly connected with described crossbeam 007 two ends.Described X-axis motion 004 is arranged on described crossbeam 007, and is slidably connected with described crossbeam 007 by arranging slide rail 013.Institute's Z axis motion 005 and described X-axis are integral type combining structure, and described X-axis motion 004 moves left and right along described crossbeam 007, the oscilaltion campaign on described X-axis motion 004 of described Z axis motion 005.Described Y-axis motion 006 year dynamic described processing stations 003 moves forward and backward.Comprise the movable support axle 014 that penetrates described X-axis motion 004 in the middle of described crossbeam 007, this movable support axle 014 is arranged in the middle of the slide rail 013 of described crossbeam about 007 both sides.Described X-axis motion 004 is provided with motor cabinet 010.

Applicant states, person of ordinary skill in the field is on the basis of above-described embodiment, by above-described embodiment step, combined with the technical scheme of summary of the invention part, thus the new method produced, also be one of record scope of the present invention, the application, for making description simple and clear, no longer enumerates other embodiment of these steps.

The technology path being different from prior art in the present embodiment is:

1. double design:

Double designs side by side, meet rotation formula charging aft-loaded airfoil, station machines backed off after random charging on one side, directly proceed to the second station processing, when the second station processing, the first station resets after exiting charging, direct switchback first station processing after the second station machines, second station resets after exiting charging, and circulate above-mentioned manufacturing procedure, effectively improves working (machining) efficiency.

2. three-shaft displacement:

The three-dimensional motion of three axles, Y-axis motion 006 realizes station and moves forward and backward, Z axis motion 005 realizes machining spindle and moves up and down, X-axis motion 004 drives machining spindle transverse shifting effectively to realize three-dimensional transposition processing, and it is adjustable to realize displacement by intelligent controller, flexibly and easily.

The another statement of applicant, the present invention illustrates implementation method of the present invention and apparatus structure by above-described embodiment, but the present invention is not limited to above-mentioned embodiment, does not namely mean that the present invention must rely on said method and structure could be implemented.Person of ordinary skill in the field should understand, any improvement in the present invention, replaces and the interpolation of step, concrete way choice etc., all drop within protection scope of the present invention and open scope implementation method equivalence selected by the present invention.

The present invention is not limited to above-mentioned embodiment, and all employings and analog structure of the present invention and method thereof realize all embodiments of the object of the invention all within scope.

Claims (10)

1. based on the Intelligent Machining Center of double-workbench application, comprise a frame, it is characterized in that, the displacement mechanism that described frame comprises workbench and links with it, described workbench is made up of the processing stations of two laid out in parallel, and institute's displacement mechanism comprises X-axis motion, Z axis motion and Y-axis motion; Described Y-axis motion is separately positioned on the bottom of described processing stations, and be directly slidably connected with described processing stations, described X-axis motion and Z axis motion are connected respectively by crossbeam and column.

2. the Intelligent Machining Center based on double-workbench application according to claim 1, it is characterized in that, institute's displacement mechanism comprises drive unit, and described drive unit is made up of one or more groups drive motors.

3. the Intelligent Machining Center based on double-workbench application according to claim 1, it is characterized in that, describedly comprise a controller, described controller and institute's displacement mechanism and workbench control connection, described controller is made up of control chip connection control button and display unit, in the built-in control program of described control chip.

4. the Intelligent Machining Center based on double-workbench application according to claim 1, it is characterized in that, described Z axis motion is made up of the slide plate of lifting spindle and mobile link.

5. the Intelligent Machining Center based on double-workbench application according to claim 1, it is characterized in that, described column is fixed on described frame both sides, and is fixedly connected with described crossbeam two ends.

6. the Intelligent Machining Center based on double-workbench application according to claim 1, it is characterized in that, described X-axis motion is arranged on described crossbeam, and by arranging slide rail and described crossbeam is slidably connected.

7. the Intelligent Machining Center based on double-workbench application according to claim 1, it is characterized in that, institute's Z axis motion and described X-axis are integral type combining structure, described X-axis motion moves left and right along described crossbeam, the oscilaltion campaign on described X-axis motion of described Z axis motion.

8. the Intelligent Machining Center based on double-workbench application according to claim 1, is characterized in that, described Y-axis motion carries described processing stations and moves forward and backward.

9. the Intelligent Machining Center based on double-workbench application according to claim 1, is characterized in that, comprise the movable support axle that penetrates described X-axis motion in the middle of described crossbeam, this movable support axle is arranged in the middle of the slide rail of described crossbeam upper and lower both sides.

10. the Intelligent Machining Center based on double-workbench application according to claim 1, it is characterized in that, described X-axis motion is provided with motor cabinet.