CN204770775U - Numerical control floor type boring machine that linear electric motor directly drove - Google Patents

Abstract

The utility model relates to a numerical control floor type boring machine that linear electric motor directly drove, including the lathe bed, be equipped with the slide on the lathe bed, be fixed with the stand on the slide, install slide linear electric motor between lathe bed and the slide, fixed mounting has the headstock on the stand, be equipped with the ram in the headstock, be equipped with the boring bar in the ram, be fixed with the support on the headstock, install ram linear electric motor between support and the ram, still be fixed with arc linear electric motor on the support, be fixed with disk linear electric motor on the arc linear electric motor, be fixed with the support on the disk linear electric motor, the boring bar is connected with the integral key shaft that runs through in arc linear electric motor and disk linear electric motor, install boring bar linear electric motor between integral key shaft and the support, install headstock lift linear electric motor between stand and the headstock, a slide seat, common fixed mounting has the platform on stand and the headstock, slide linear electric motor, ram linear electric motor, headstock lift linear electric motor, all be provided with guider and locking piece locking device on the boring bar linear electric motor.

Description

A kind of numerical control floor boring machine of linear motor direct-driven

Technical field

The utility model relates to field of machine tool equipment, is specifically related to a kind of numerical control floor boring machine of linear motor direct-driven.

Background technology

The early 21st century, the developing history of U.S., moral, Deng various countries boring machine, is roughly divided into three phases: the birth stage of boring machine; Boring machine industry from be born to formed compared with the stage of integral framework; The stage of boring machine quality, performance, level great development.Along with the development of electronic technology, computer, automation, control survey technology and material industry, the control technology of external boring machine, boring technique, structural design and ancillary equipment have all had new development, reach the visibly different new high degree with the seventies.Its main development current situation and tendency is summarized as follows: boring machine Numeric Control Technology is developed rapidly; Horizontal boring machine project organization and technique development; Gradually to flexibility, unmanned, become precise treatment development.External numerical control borer and horizontal Machining centers product are greatly mainly with based on common sleeping boring, develop into the product of varying level, to crouch boring as become different numerical controls after mix the digital control system of varying level in common sleeping boring, crouch on the basis of boring in numerical control, add tool magazine and manipulator, become automatic tool changer type product, finally all will develop into the horizontal Machining centers product of different layout and different accuracy level.

China's boring machine industry, through semicentennial development, has become a metal cutting machine industry with considerable scale, covering extensive fields, to have certain technical merit and production capacity.The TK6925 numerical control landing milling process bed of current largest domestic completes, and it has 12 axles and controls, and any four axles can link, with high content of technology.China's machine tool industry has achieved huge achievement, but compared with advanced international standard, also has larger gap.

Floor type boring machine is development one of machining equipment faster, and the advantages such as the technique excellent with it and higher efficiency are widely used in all trades and professions.In recent years, quickly, be characterized in that product structure is constantly updated, New technical use emerged in an endless stream in the technical development of domestic and international horizontal boring and milling machine and floor-type milling & boring machine, processing performance Composite, and speed, efficiency improve constantly, the outstanding manufacture that becomes more meticulous.With regard to current machine industry, the application of linear electric motors and direct driving motor will be the development trend that lathe improves control accuracy and energy-saving and noise-reducing.

Existing boring machine mostly is motor and is slowed down by stage-geared, shortcomings such as there is complex structure, safeguard inconvenience, transmission efficiency is low, control accuracy is low, noise is large, energy consumption is high.Therefore, the numerical control floor boring machine designing a kind of new linear motor direct-driven is needed badly, to solve prior art above shortcomings.

Utility model content

The purpose of this utility model is to provide a kind of numerical control floor boring machine of linear motor direct-driven, to overcome currently available technology above shortcomings.

The purpose of this utility model is achieved through the following technical solutions:

A kind of numerical control floor boring machine of linear motor direct-driven, comprise lathe bed, described lathe bed is provided with slide, described slide is fixed with column, slide linear electric motors are installed between described lathe bed and slide, described column is installed with main spindle box, ram is provided with in described main spindle box, boring bar is provided with in described ram, described main spindle box is fixed with bearing, ram linear electric motors are installed between described bearing and ram, described bearing is also fixed with arc linear motor, described arc linear motor is fixed with dish type linear electric motors, described dish type linear electric motors are fixed with support, described boring bar is connected with through the splined shaft of arc linear motor with dish type linear electric motors, boring bar linear electric motors are installed between described splined shaft and support, main spindle box lifting linear electric motors are installed between described column and main spindle box, described slide, column and main spindle box are installed with platform jointly, slide linear electric motors, ram linear electric motors, main spindle box lifting linear electric motors, boring bar linear electric motors are provided with guider and scotch locking device.

Further, described arc linear motor comprises flywheel rotor one and stator module one, and described flywheel rotor one is arranged on bearing, and described stator module one is positioned at flywheel rotor one excircle side and is arranged on bearing.

Further, the flywheel rotor one of described arc linear motor comprises conduction outer ring and magnetic conduction inner ring, and described conduction outer ring and magnetic conduction inner ring are fixedly connected and excircle along flywheel rotor one is arranged.

Further, described magnetic conduction inner ring be arranged on conduction outer ring and flywheel body between and be fixed in flywheel body, the left and right end face of described magnetic conduction inner ring and flywheel body bonding crack is provided with junction of the edges of two sheets of paper screw.

Further, the stator seat one that the stator module one of described arc linear motor comprises at least one stator and is fixed stator module one, described stator seat one is arranged on bearing, the stator winding one that described stator module one comprises stator core one and is arranged in stator core one, be provided with gap between described stator module one and flywheel rotor one, described stator module one is symmetrical and pivot center along flywheel rotor one is arranged at flywheel rotor one periphery face.

Further, described dish type linear electric motors comprise flywheel rotor two and stator module two, and described flywheel rotor two is arranged on flywheel rotor one, and described stator module two is positioned at flywheel rotor its right end face and is arranged on stator seat one.

Further, the flywheel rotor two of described dish type linear electric motors comprises conduction outer shroud and magnetic conducting inner ring, described conduction outer shroud and magnetic conducting inner ring are fixedly connected and are that in the circular its right end face being arranged on flywheel rotor two, described magnetic conducting inner ring is fixed in flywheel body by screw.

Further, the material of described conduction outer ring and conduction outer shroud is conductive metallic material, the material of described magnetic conduction inner ring and magnetic conducting inner ring is magnetic conductive metal material, and described conduction outer ring and conduction outer shroud are the conducting metals of 1-3mm, and described magnetic conduction inner ring and magnetic conducting inner ring are the magnetic conductive metals of 5-10mm.

Further, the stator seat two that the stator module two of described dish type linear electric motors comprises at least one stator and is fixed stator module two, described stator seat two is arranged on arc linear motor, the stator winding two that described stator module two comprises stator core two and is arranged in stator core two, be provided with gap between described stator module two and flywheel rotor two, described stator module two symmetrically and be arranged at the side of flywheel rotor two right side along the pivot center of flywheel rotor two.

Further, described flywheel rotor one is the secondary of arc linear motor, and described stator module one is elementary; Described flywheel rotor two is the secondary of dish type linear electric motors, and described stator module two is elementary.

The beneficial effects of the utility model are: reasonable in design, and structure is simple, and arc linear motor and dish type linear electric motors share flywheel rotor, combined by splined shaft and boring bar, Direct driver boring bar rotates, and decreases the driving-chain of traditional boring machine, improves transmission efficiency high; Progressive numberization controls motor rotation, and linear electric motors drive, and velocity location encoder controls, scotch auto lock, and control accuracy improves; Electric quantity consumption is low, noise is little, easy to maintenance.

Accompanying drawing explanation

Below in order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment below, apparently, accompanying drawing in the following describes is only some embodiments of the application, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the structural representation of the numerical control floor boring machine of linear motor direct-driven described in the utility model embodiment;

Fig. 2 is the B-B line sectional view of the numerical control floor boring machine of linear motor direct-driven described in the utility model embodiment;

Fig. 3 is that the A of the numerical control floor boring machine of linear motor direct-driven described in the utility model embodiment is to diagram;

Fig. 4 is the M enlarged diagram of the numerical control floor boring machine of linear motor direct-driven described in the utility model embodiment.

In figure:

1, lathe bed; 2, slide; 3, column; 4, slide linear electric motors; 5, main spindle box; 6, boring bar; 7, ram; 8, bearing; 9, ram linear electric motors; 10, arc linear motor; 101, flywheel rotor one; 1011, conduction outer ring; 1012, magnetic conduction inner ring; 102, stator module one; 1021, stator core one; 1022, stator winding one; 103, flywheel body; 104, junction of the edges of two sheets of paper screw; 105, stator seat one; 11, dish type linear electric motors; 111, flywheel rotor two; 1111, conduction outer shroud; 1112, magnetic conducting inner ring; 112, stator module two; 1121, stator core two; 1122, stator winding two; 113, screw; 114, stator seat two; 12, support; 13, splined shaft; 14, boring bar linear electric motors; 15, main spindle box lifting linear electric motors; 16, platform.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, the every other embodiment that those of ordinary skill in the art obtain, all belongs to the scope of the utility model protection.

The numerical control floor boring machine of a kind of linear motor direct-driven as Figure 1-4, comprise lathe bed 1, described lathe bed 1 is provided with slide 2, described slide 2 is fixed with column 3, between described lathe bed 1 and slide 2, slide linear electric motors 4 are installed, described column 3 is installed with main spindle box 5, described column 3 inside is provided with balance weight iron, for balancing main shaft case 5 moiety by weight, ram 7 is provided with in described main spindle box 5, boring bar 6 is provided with in described ram 7, described main spindle box 5 is fixed with bearing 8, between described bearing 8 and ram 7, ram linear electric motors 9 are installed, described bearing 8 is also fixed with arc linear motor 10, described arc linear motor 10 is fixed with dish type linear electric motors 11, described dish type linear electric motors 11 are fixed with support 12, described boring bar 6 is connected with the splined shaft 13 of dish type linear electric motors 11 with through arc linear motor 10, between described splined shaft 13 and support 12, boring bar linear electric motors 14 are installed, main spindle box lifting linear electric motors 15 are installed between described column 3 and main spindle box 5, described slide 2, column 3 and main spindle box 5 are installed with platform 16 jointly, described slide linear electric motors 4, ram linear electric motors 9, main spindle box lifting linear electric motors 15 and boring bar linear electric motors 14 are provided with guider and scotch locking device,

Described arc linear motor 10 comprises flywheel rotor 1 and stator module 1, and described flywheel rotor 1 is arranged on bearing 8, and described stator module 1 is positioned at flywheel rotor 1 excircle side and is arranged on bearing 8;

The flywheel rotor 1 of described arc linear motor 10 comprises conduction outer ring 1011 and magnetic conduction inner ring 1012, and described conduction outer ring 1011 is fixedly connected with magnetic conduction inner ring 1012 and excircle along flywheel rotor 1 is arranged;

Described magnetic conduction inner ring 1012 to be arranged between conduction outer ring 1011 and flywheel body 103 and to be fixed in flywheel body 103, and described magnetic conduction inner ring 1012 is provided with junction of the edges of two sheets of paper screw 104 with the left and right end face of flywheel body 103 bonding crack;

The stator seat 1 that the stator module 1 of described arc linear motor 10 comprises two stators and is fixed stator module 1, described stator seat 1 is arranged on bearing 8, the stator winding 1 that described stator module 1 comprises stator core 1021 and is arranged in stator core 1, be provided with gap between described stator module 1 and flywheel rotor 1, described stator module 1 is symmetrical and pivot center along flywheel rotor 1 is arranged at flywheel rotor 1 periphery face;

Described dish type linear electric motors 11 comprise flywheel rotor 2 111 and stator module 2 112, and described flywheel rotor 2 111 is arranged on flywheel rotor 1, and described stator module 2 112 is positioned at flywheel rotor 2 111 its right end face and is arranged on stator seat 1;

The flywheel rotor 2 111 of described dish type linear electric motors comprises conduction outer shroud 1111 and magnetic conducting inner ring 1112, described conduction outer shroud 1111 and magnetic conducting inner ring 1112 are fixedly connected and are in the circular its right end face being arranged on flywheel rotor 2 111, and described magnetic conducting inner ring 1112 is fixed in flywheel body 103 by screw 113;

The material of described conduction outer ring 1011 and conduction outer shroud 1111 is conductive metallic material, the material of described magnetic conduction inner ring 1012 and magnetic conducting inner ring 1112 is magnetic conductive metal material, described conduction outer ring 1011 and conduction outer shroud 1111 are conducting metals of 1-3mm, and described magnetic conduction inner ring 1012 and magnetic conducting inner ring 1112 are magnetic conductive metals of 5-10mm;

The stator seat 2 114 that the stator module 2 112 of described dish type linear electric motors 11 comprises two stators and is fixed stator module 2 112, described stator seat 2 114 is arranged on arc linear motor 10, the stator winding 2 1122 that described stator module 2 112 comprises stator core 2 1121 and is arranged in stator core 2 1121, be provided with gap between described stator module 2 112 and flywheel rotor 2 111, described stator module 2 112 symmetrically and be arranged at the side of flywheel rotor 2 111 right side along the pivot center of flywheel rotor 2 111;

Described flywheel rotor 1 is the secondary of arc linear motor 10, and described stator module 1 is elementary, and described flywheel rotor 2 111 is the secondary of dish type linear electric motors 11, and described stator module 2 112 is elementary.

During concrete use, the dish type linear electric motors 11 electromagnetic force driving flywheel rotor 1 being fixed on the arc linear motor 10 on bearing 8 and be fixed on arc linear motor 10 or flywheel rotor 2 111, described flywheel rotor 1 or flywheel rotor 2 111 are fixedly connected with screw 113 by junction of the edges of two sheets of paper screw 104 with flywheel body 103, described flywheel rotor 1 and flywheel rotor 2 111 are rotated through splined shaft 13 with flywheel body 103 and drive boring bar 6 to rotate, described flywheel rotor 1 and flywheel rotor 2 111 are provided with rotary transformer, described rotary transformer is by measuring the speed thus the accurate rotating speed controlling boring bar 6 of feeding back described flywheel rotor 1 and flywheel rotor 2 111, realize infinitely variable speeds, described arc linear motor 10 and dish type linear electric motors 11 inside are provided with electromagnetic braking, described conduction outer ring 1011 and magnetic conduction inner ring 1012, conduction outer shroud 1111 and magnetic conducting inner ring 1112 are combined into by explosive welding (EW), described slide linear electric motors 4, ram linear electric motors 9, main spindle box lifting linear electric motors 15 and boring bar linear electric motors 14 are equipped with guider, described guider is provided with scotch locking, linear electric motors working hydraulic pressure pushes pretension disc spring open, linear electric motors stop solution breaks electricity, scotch locking guide rail, described electromagnetic system kinetic energy realizes stopping time equipment is any, position control accuracy is high, described slide linear electric motors 4, ram linear electric motors 9, main spindle box lifting linear electric motors 15 and boring bar linear electric motors 14 are provided with velocity location encoder, displacement and the speed of linear electric motors is accurately controlled by signal feedback.

The utility model is not limited to above-mentioned preferred forms; anyone can draw other various forms of products under enlightenment of the present utility model; no matter but any change is done in its shape or structure; every have identical with the application or akin technical scheme, all drops within protection domain of the present utility model.

Claims (10)

1. the numerical control floor boring machine of a linear motor direct-driven, it is characterized in that, comprise lathe bed (1), described lathe bed (1) is provided with slide (2), described slide (2) is fixed with column (3), slide linear electric motors (4) are installed between described lathe bed (1) and slide (2), described column (3) is installed with main spindle box (5), ram (7) is provided with in described main spindle box (5), boring bar (6) is provided with in described ram (7), described main spindle box (5) is fixed with bearing (8), ram linear electric motors (9) are installed between described bearing (8) and ram (7), described bearing (8) is also fixed with arc linear motor (10), described arc linear motor (10) is fixed with dish type linear electric motors (11), described dish type linear electric motors (11) are fixed with support (12), described boring bar (6) is connected with the splined shaft (13) of dish type linear electric motors (11) with through arc linear motor (10), boring bar linear electric motors (14) are installed between described splined shaft (13) and support (12), main spindle box lifting linear electric motors (15) is installed between described column (3) and main spindle box (5), described slide (2), column (3) and main spindle box (5) are installed with platform (16) jointly, described slide linear electric motors (4), ram linear electric motors (9), main spindle box lifting linear electric motors (15), boring bar linear electric motors (14) are provided with guider and scotch locking device.

2. the numerical control floor boring machine of linear motor direct-driven according to claim 1, it is characterized in that, described arc linear motor (10) comprises flywheel rotor one (101) and stator module one (102), described flywheel rotor one (101) is arranged on bearing (8), and described stator module one (102) is positioned at flywheel rotor one (101) excircle side and is arranged on bearing (8).

3. the numerical control floor boring machine of linear motor direct-driven according to claim 2, it is characterized in that, the flywheel rotor one (101) of described arc linear motor (10) comprises conduction outer ring (1011) and magnetic conduction inner ring (1012), and described conduction outer ring (1011) and magnetic conduction inner ring (1012) are fixedly connected and excircle along flywheel rotor one (101) is arranged.

4. the numerical control floor boring machine of linear motor direct-driven according to claim 3, it is characterized in that, described magnetic conduction inner ring (1012) to be arranged between conduction outer ring (1011) with flywheel body (103) and to be fixed in flywheel body (103), and the left and right end face of described magnetic conduction inner ring (1012) and flywheel body (103) bonding crack is provided with junction of the edges of two sheets of paper screw (104).

5. the numerical control floor boring machine of linear motor direct-driven according to claim 4, it is characterized in that, the stator seat one (105) that the stator module one (102) of described arc linear motor (10) comprises at least one stator and is fixed stator module one (102), described stator seat one (105) is arranged on bearing (8), described stator module one (102) comprises stator core (1021) and is arranged on the stator winding one (1022) in stator core one (1021), gap is provided with between described stator module one (102) and flywheel rotor one (101), described stator module one (102) is symmetrical and pivot center along flywheel rotor one (101) is arranged at flywheel rotor one (101) periphery face.

6. the numerical control floor boring machine of linear motor direct-driven according to claim 5, it is characterized in that, described dish type linear electric motors (11) comprise flywheel rotor two (111) and stator module two (112), described flywheel rotor two (111) is arranged on flywheel rotor one (101), and described stator module two (112) is positioned at flywheel rotor its right end face and is arranged on stator seat one (105).

7. the numerical control floor boring machine of linear motor direct-driven according to claim 6, it is characterized in that, the flywheel rotor two (111) of described dish type linear electric motors comprises conduction outer shroud (1111) and magnetic conducting inner ring (1112), described conduction outer shroud (1111) and magnetic conducting inner ring (1112) are fixedly connected and are that in the circular its right end face being arranged on flywheel rotor two (111), described magnetic conducting inner ring (1112) is fixed in flywheel body (103) by screw (113).

8. the numerical control floor boring machine of linear motor direct-driven according to claim 7, it is characterized in that, the material of described conduction outer ring (1011) and conduction outer shroud (1111) is conductive metallic material, and the material of described magnetic conduction inner ring (1012) and magnetic conducting inner ring (1112) is magnetic conductive metal material.

9. the numerical control floor boring machine of linear motor direct-driven according to claim 8, it is characterized in that, the stator seat two (114) that the stator module two (112) of described dish type linear electric motors (11) comprises at least one stator and is fixed stator module two (112), described stator seat two (114) is arranged on arc linear motor (10), described stator module two (112) comprises stator core two (1121) and is arranged on the stator winding two (1122) in stator core two (1121), gap is provided with between described stator module two (112) and flywheel rotor two (111), described stator module two (112) symmetrically and be arranged at the side of flywheel rotor two (111) right side along the pivot center of flywheel rotor two (111).

10. the numerical control floor boring machine of linear motor direct-driven according to claim 9, is characterized in that, what described flywheel rotor one (101) was arc linear motor (10) is secondary, and described stator module one (102) is for elementary; What described flywheel rotor two (111) was dish type linear electric motors (11) is secondary, and described stator module two (112) is for elementary.