CN201565780U - Combined type milling machine with turning tool array device and lathe tool changing mechanism - Google Patents

Abstract

The utility model relates to a combined type milling machine, in particular to a combined type milling machine with a turning tool array device and a lathe tool changing mechanism, which aims to solve the problem of the prior combined type milling machine that the production efficiency is reduced due to the unavailability of intensive and automatically-controlled coherence between the milling process and the turning processing, as well as that of automatic clamping and changing of turning tools. The combined type milling machine is characterized in that a lathe spindle assembly is mounted at the left end of a worktable and connected with the worktable in a sliding manner, the lathe tool changing mechanism is fixedly arranged at the right end of the worktable, and the turning tool array device is mounted below a main spindle box or on the lathe tool changing mechanism. The utility model has the advantages that the turning tool changing and fixing methods of similar products in the prior art is altered, thereby improving the production efficiency; the functions of the machine is extended, and a lathe spindle can be flexibly moved according to the actual needs of users, so that the machine can be totally used as a vertical milling center; and the processing range of the machine is widened, and the milling effect is improved.

Description

What have lathe tool cutter row device and lathe cutter-exchange mechanism mills the car composite processing machine tool

Technical field

The utility model relates to a kind of car composite processing machine tool that mills, be specifically related to a kind of have lathe tool cutter row device and a lathe tool tool changing device mill the car composite processing machine tool, belong to metal cutting numerically controlled processing equipment field.

Background technology

Mill the car composite processing machine tool because of it rolls into one milling function and turning function, reduced the floor space of machining tool, reduced the clamping location number of times of processing a workpiece, saved because of operation and changed the needed time; Mill the car composite processing machine tool because of having above-mentioned advantage, be widely used in the machining of metal.But the existing car composite processing machine tool that mills is not provided with lathe tool cutter row device and lathe tool tool changing device, cause milling operation and turning operation when conversion, can't realize the intensification of milling operation and turning procedure connection and control automatically, can't realize the automated exchanged cutter and the tool changing of lathe tool cutter, influence the automaticity of milling the car composite processing machine tool, thereby reduced the production efficiency of milling the car composite processing machine tool.

The utility model content

The purpose of this utility model provide a kind of have lathe tool cutter row device and a lathe cutter-exchange mechanism mill the car composite processing machine tool, can't realize the intensification of milling operation and turning procedure connection and control automatically to solve the existing car composite processing machine tool that mills, can't realize the automated exchanged cutter and the tool changing of lathe tool cutter, influence the automaticity of milling the car composite processing machine tool, thereby reduced the problem of the production efficiency of milling the car composite processing machine tool.

The utility model is to solve the problems of the technologies described above the technical scheme of taking to be: the car composite processing machine tool that mills with lathe tool cutter row device and lathe cutter-exchange mechanism described in the utility model comprises the milling machine main body, described milling machine main body comprises saddle, workbench, column and main spindle box, the driving water prosposition in the top of saddle and the two be the cross setting, column is positioned at the rear end of workbench and the lower end of column is connected with saddle, and main spindle box is positioned at the top of workbench and main spindle box and column and is slidingly connected; Described composite processing machine tool also comprises lathe spindle assembly, lathe cutter-exchange mechanism and lathe tool cutter row device, the lathe spindle assembly is arranged on the left end of workbench and is slidingly connected with workbench, the lathe cutter-exchange mechanism is installed in the right-hand member of workbench, and the lathe tool cutter row device is provided with the below of main spindle box or connecing on the knife rest of lathe cutter-exchange mechanism;

The lathe cutter-exchange mechanism comprises axle sleeve, final drive shaft, first cylinder, first tooth bar, first gear, the first tooth bar locator, clutch shaft bearing, second bearing, rocking arm, second cylinder, two adjustment of rocking arm positioning link piece, locating piece, rotary body, connects knife rest, second tooth bar, second gear, the second tooth bar locator, two adjustment screws, two setscrew nuts, the 3rd bearing, the 4th bearing and locating shafts; Final drive shaft is installed in the axle sleeve, between the lower end of final drive shaft and the axle sleeve clutch shaft bearing is housed, second bearing is housed between the upper end of final drive shaft and the axle sleeve, the piston rod of first cylinder is connected with first tooth bar, the location that first tooth bar is realized first tooth bar by the first tooth bar locator, first gear is installed in the lower end of final drive shaft, first gear and the engagement of first tooth bar; Rocking arm is arranged on the top of final drive shaft; One end of rocking arm is connected with the upper surface of final drive shaft by the rocking arm positioning link; The lower end of rotary body is by the 3rd bearing; The 4th bearing is installed on the other end of rocking arm; The upper end of rotary body is equipped with and connects knife rest; At the 3rd bearing; Second gear is installed on the rotary body between the 4th bearing; Second tooth bar and the engagement of second gear; The piston rod of second cylinder is connected with second tooth bar; The location that the second tooth bar locator is realized second tooth bar; One end of locating shaft is arranged in the endoporus that has on the rotary body of rocking arm top; The other end of locating shaft is exposed at the outside of rotary body; Two adjustment blocks are arranged on the rocking arm; One end of two adjustment blocks is folded in the two ends of rotary body; The locating shaft that is exposed at the rotary body outside is corresponding with an adjustment block position in two adjustment blocks; The other end of two adjustment blocks is provided with locating piece; Adjust screw for two and pass respectively locating piece; Each screw terminal of adjusting screw withstands on the corresponding adjustment block, and each is adjusted on the screw and is screwed with a setscrew nut;

The lathe tool cutter row device comprises blade row locator, handle of a knife and blade row main body, the profile of blade row locator is cylindrical, it is conical that the profile of handle of a knife is, the blade row main body has four vertical grooves on side along its length, four vertical grooves are used to place the lathe tool of four processing excircles, have a tool bore on the same side of the blade row main body of the vertical groove both sides that are positioned at the end, four tool bores are used to place the lathe tools of four processing endoporus; Handle of a knife is arranged on the middle part of the upper surface of blade row main body, the big end of handle of a knife is connected with the upper surface of blade row main body, the blade row locator is arranged on the top of blade row main body, and handle of a knife is arranged in the inner chamber of blade row locator, and the lower surface of blade row locator is connected with the upper surface of blade row main body;

The lathe spindle assembly is made of housing and the lathe spindle and the main shaft clamping device that are positioned at housing, and lathe spindle is installed on the brake disc on the main shaft clamping device; Main shaft clamping device is made of the 3rd cylinder, brake disc, two clamping plates, the 3rd cylinder connection piece, connecting rod and base plates, two clamping plates are set in parallel on the end of base plate, the lower end of the big end cap of brake disc is arranged between two clamping plates, the 3rd cylinder is connected with base plate by the 3rd cylinder connection piece, connecting rod passes the 3rd cylinder connection piece and two clamping plates successively, and the piston rod in an end of connecting rod and the 3rd cylinder is connected.

This utility model is with high rigidity, heavy cut is a guiding theory, based on the vertical machining centre lathe bed, on original vertical machining centre structure, performance basis of invariable, increased the parts and the function of numerically controlled lathe, be combined into and mill the car Compositions of metal-working machines, and can remove (only need unload four screws) with increasing part flexibly, and independently use as vertical machining centre, belong to home and abroad new structure design and application mode.

Because this utility model is to expand to form, all processing characteristicies of former vertical machining centre have therefore been kept on the basis of vertical machining centre.It is little in the scope of milling aspect the processing to have broken through existing turnning and milling Compositions of metal-working machines, the restriction of working ability weakness.Kept the function of numerical control car to reach the independently range of work and working ability fully simultaneously.Guarantee one time clamping workpiece, the working ability that turnning and milling is finished has increased by four calibration of milling, four-axle linked function simultaneously again.Realized the processing characteristics of turnning and milling Compositions of metal-working machines fully.Because the milling ability greatly improves, and can be used as vertical machining centre and independently use, and mills the car Compositions of metal-working machines so be called.

This utility model has not only realized the processing characteristics of turnning and milling Compositions of metal-working machines, and improved the ability of turnning and milling Compositions of metal-working machines aspect Milling Process, the more important thing is all resources that make full use of vertical machining centre, shared core component, carry out functional expansion and lifting, price only is about 1/3 of a same specification turnning and milling Compositions of metal-working machines, has greatly reduced production cost, has improved production efficiency.This utility model market demand is huge, and wide application prospect is long-range.

The beneficial effects of the utility model are:

The utility model is by being provided with lathe tool cutter row device and lathe cutter-exchange mechanism, to mill the milling operation and the turning operation organic linking of car composite processing machine tool coordinates, intensification of car composite processing machine tool and control have automatically been realized milling, realize the automated exchanged cutter and the tool changing of lathe tool cutter, improved processing efficient.And the utlity model has the excellent advantage such as honest and clean of simple in structure, flexible operation, price.The utility model is realized one-machine-multi-function, a tractor serves several purposes, not only reaches the performance of turnning and milling Compositions of metal-working machines fully, can also independently use as vertical machining centre.

The utility model has changed the lathe tool substitute mode of existing like product, and the lathe tool fixed form.Have more flexible easier function, concrete advantage is:

1, lathe cutter-exchange mechanism: traditional same item product is to locate tool changing by disc type cutter tower by the motor rotation mostly, and this structure has been save transmission gear for electric motor than like product, has improved the mode of angle orientation control.

2, main shaft clamping device: traditional structure passes through hydraulic pressure or air pressure, magnetic valve, and the special machinery that steps up is realized stepping up.This structure is oversimplified than like product, and cost performance is higher.

3, blade row main body: traditional blade row is disc type or fixed position clamping mostly, dismounting flexibly.This structure is easy to dismounting than like product, and is convenient, flexible, is more suitable for replacing of milling machine function.

4, blade row locator: traditional structure blade row location is that its locate mode is manual mostly by the location, fixed position mostly.This structure locate mode is simply unique, can locate automatically.

The utility model is a clamping workpiece once on same lathe, once just can finish the processing tasks of turning, milling, has not only improved crudy, machining accuracy, also effectively reduce processing cost simultaneously, improved working (machining) efficiency, aspect metal cutting, be badly in need of extensive use.This utility model is simple in structure, has the combination flexible characteristic, and the Milling Process scope of having improved traditional product is little, the disadvantage that working ability is weak.The utility model is equivalent to the ingenious combination of four-axle linked Milling Machining Center and turning center.When the single-minded on a large scale milling product of processing, can remove the building block of corresponding numerically controlled lathe flexibly, thereby realize powerful milling requirement, can become independently Milling Machining Center.Because the ingenious simplification of project organization is compared with the project organization of like product complexity, greatly reduces cost, has very high cost performance, is a users that adapt to more, the best equipment of particularly middle-size and small-size user's process requirements.Spindle of numerical control lathe of the present utility model and standard spindle of numerical control lathe are identical, just with the shared same digital control system of vertical machining centre.

Description of drawings

Fig. 1 is the main parallax stereogram of integral body of the present utility model, Fig. 2 is a whole rear perspective view of the present utility model, Fig. 3 is the main parallax stereogram (broken section) of lathe cutter-exchange mechanism of the present utility model, Fig. 4 is the rear perspective view of lathe cutter-exchange mechanism of the present utility model, Fig. 5 is the stereogram that connects knife rest on the lathe cutter-exchange mechanism, Fig. 6 is the stereogram of the rotary body on the lathe cutter-exchange mechanism, Fig. 7 is the stereogram of first tooth bar, Fig. 8 is the stereogram of second tooth bar, Fig. 9 is the stereogram of blade row main body, Figure 10 is the stereogram of handle of a knife and blade row main body assembly relation, the stereogram of Figure 11 lathe tool cutter row device of the present utility model, Figure 12 is that the three-dimensional cutaway view of lathe spindle assembly of the present utility model is (for ease of expressing, housing 5-1 and lathe spindle 5-5 do not draw), Figure 13 is the stereogram (for ease of expressing, housing 5-1 and lathe spindle 5-5 do not draw) of lathe spindle assembly of the present utility model.

The specific embodiment

The specific embodiment one: shown in Fig. 1～13, present embodiment is described have lathe tool cutter row device and a lathe cutter-exchange mechanism mill the car composite processing machine tool, described composite processing machine tool comprises the milling machine main body, described milling machine main body comprises saddle 1, workbench 2, column 3 and main spindle box 4, workbench 2 levels are positioned at the top of saddle 1 and the two is the cross setting, column 3 is positioned at the rear end of workbench 2 and the lower end of column 3 is connected with saddle 1, and top and main spindle box 4 that main spindle box 4 is positioned at workbench 2 are slidingly connected with column 3; Described composite processing machine tool also comprises lathe spindle assembly 5, lathe cutter-exchange mechanism 6 and lathe tool cutter row device 7, lathe spindle assembly 5 is arranged on the left end of workbench 2 and is slidingly connected with workbench 2, lathe cutter-exchange mechanism 6 is installed in the right-hand member of workbench 2, and lathe tool cutter row device 7 is provided with the below of main spindle box 4 or connecing on the knife rest 6-18 of lathe cutter-exchange mechanism 6;

Lathe cutter-exchange mechanism 6 comprises axle sleeve 6-1, final drive shaft 6-2, the first cylinder 6-3, the first tooth bar 6-4, the first gear 6-5, the first tooth bar locator 6-7, clutch shaft bearing 6-8, the second bearing 6-9; Rocking arm 6-10; The second cylinder 6-11; Rocking arm positioning link 6-14; Adjust piece 6-15 for two; Locating piece 6-16; Rotary body 6-17; Meet knife rest 6-18; The second tooth bar 6-19; The second gear 6-20; The second tooth bar locator 6-22; Adjust screw 6-23 for two; Two setscrew nut 6-24; The 3rd bearing 6-26; The 4th bearing 6-27 and locating shaft 6-28; Final drive shaft 6-2 is installed in the axle sleeve 6-1, between the lower end of final drive shaft 6-2 and the axle sleeve 6-1 clutch shaft bearing 6-8 is housed, the second bearing 6-9 is housed between the upper end of final drive shaft 6-2 and the axle sleeve 6-1, the piston rod of the first cylinder 6-3 is connected with the first tooth bar 6-4, the location that the first tooth bar 6-4 realizes the first tooth bar 6-4 by the first tooth bar locator 6-7, the first gear 6-5 is installed in the lower end of final drive shaft 6-2, the first gear 6-5 and first tooth bar 6-4 engagement; Rocking arm 6-10 is arranged on the top of final drive shaft 6-2; The end of rocking arm 6-10 is connected with the upper surface of final drive shaft 6-2 by rocking arm positioning link 6-14; The lower end of rotary body 6-17 is by the 3rd bearing 6-26; The 4th bearing 6-27 is installed on the other end of rocking arm 6-10; The upper end of rotary body 6-17 is equipped with and meets knife rest 6-18; At the 3rd bearing 6-26; The second gear 6-20 is installed on the rotary body 6-17 between the 4th bearing 6-27; The second tooth bar 6-19 and second gear 6-20 engagement; The piston rod of the second cylinder 6-11 is connected with the second tooth bar 6-19; The location that the second tooth bar locator 6-22 realizes the second tooth bar 6-19; The end of locating shaft 6-28 is arranged in the endoporus that has on the rotary body 6-17 of rocking arm 6-10 top; The other end of locating shaft 6-28 is exposed at the outside of rotary body 6-17; Two adjustment block 6-15 are arranged on the rocking arm 6-10; The end of two adjustment block 6-15 is folded in the two ends of rotary body 6-17; The locating shaft 6-28 that is exposed at rotary body 6-17 outside is corresponding with an adjustment block 6-15 position among two adjustment block 6-15; The other end of two adjustment block 6-15 is provided with locating piece 6-16; Adjust screw 6-23 for two and pass respectively locating piece 6-16; Each screw terminal of adjusting screw 6-23 withstands on the corresponding adjustment block 6-15, and each is adjusted on the screw 6-23 and is screwed with a setscrew nut 6-24;

Lathe tool cutter row device 7 comprises blade row locator 7-1, handle of a knife 7-2 and blade row main body 7-3, the profile of blade row locator 7-1 is cylindrical, it is conical that the profile of handle of a knife 7-2 is, blade row main body 7-3 has four vertical groove 7-3-1 on side along its length, four vertical groove 7-3-1 are used to place the lathe tool of four processing excircles, have a tool bore 7-3-2 on the same side of the blade row main body 7-3 of the vertical groove 7-3-1 both sides that are positioned at the end, four tool bore 7-3-2 are used to place the lathe tools of four processing endoporus; Handle of a knife 7-2 is arranged on the middle part of the upper surface of blade row main body 7-3, the big end of handle of a knife 7-2 is connected with the upper surface of blade row main body 7-3, blade row locator 7-1 is arranged on the top of blade row main body 7-3, handle of a knife 7-2 is arranged in the inner chamber of blade row locator 7-1, and the lower surface of blade row locator 7-1 is connected with the upper surface of blade row main body 7-3; Add man-hour carrying out turning, the lower end of the milling machine spindle in handle of a knife 7-2 and the main spindle box 4 is connected, and the upper end of blade row locator 7-1 is connected with main spindle box 4; When carrying out Milling Process, handle of a knife 7-2 is placed on connecing on the knife rest 6-18 of lathe cutter-exchange mechanism 6 together with blade row main body 7-3;

Lathe spindle assembly 5 is made of housing 5-1 and the lathe spindle 5-5 and the main shaft clamping device that are positioned at housing 5-1, and lathe spindle 5-5 is installed on the brake disc 5-3 on the main shaft clamping device; Main shaft clamping device is made of the 3rd cylinder 5-2, brake disc 5-3, two clamping plate 5-4, the 3rd cylinder connection piece 5-6, connecting rod 5-7 and base plate 5-8, two clamping plate 5-4 are set in parallel on the end of base plate 5-8, the lower end of the big end cap 5-3-1 of brake disc 5-3 is arranged between two clamping plate 5-4, the 3rd cylinder 5-2 is connected with base plate 5-8 by the 3rd cylinder connection piece 5-6, connecting rod 5-7 passes the 3rd cylinder connection piece 5-6 and two clamping plate 5-4 successively, and the piston rod in the end of connecting rod 5-7 and the 3rd cylinder 5-2 is connected.

While clamping 8 is lathe tool (4 of vertical direction, 4 of horizontal directions) in the blade row main body 7-3.Lathe tool blade row (blade row main body 7-3) is placed in the top of lathe cutter-exchange mechanism 6.Lathe cutter-exchange mechanism 6 can place Working position with horizontal lathe tool with blade row original place Rotate 180 degree, is used for the side processing of turning.After finishing tool changing, add man-hour, this device will rotate to tailstock seat top automatically, to expand wider processing space.Lathe tool blade row locking decide fixing apparatus (blade row locator 7-1, handle of a knife 7-2) the lathe tool blade row is locked on the main shaft of the work in-process heart, at utmost reduces run-out tolerance, the machining accuracy of assurance lathe tool.

The specific embodiment two: as shown in Figure 3 and Figure 4, the described lathe cutter-exchange mechanism 6 of present embodiment also comprises the fork-shaped connector 6-6 and the first cylinder connecting plate 6-25, the piston rod of the first cylinder 6-3 is connected with the first tooth bar 6-4 by fork-shaped connector 6-6, and the first cylinder 6-3 is connected with the lower end sidewall of axle sleeve 6-1 by the first cylinder connecting plate 6-25.So be provided with, make more compact structure, be convenient to assembling.Other composition and annexation are identical with the specific embodiment one.

The specific embodiment three: as shown in Figure 3 and Figure 4, the described lathe cutter-exchange mechanism 6 of present embodiment also comprises the second cylinder connecting plate 6-12, the second cylinder connecting plate connector 6-13 and the second tooth bar connecting plate 6-21, the second cylinder connecting plate 6-12 is connected with rocking arm 6-10 by the second cylinder connecting plate connector 6-13, and the second cylinder 6-11 is installed on the second cylinder connecting plate 6-12.So be provided with, make more compact structure, be convenient to assembling.Other composition and annexation are identical with the specific embodiment two.

The specific embodiment four: shown in Fig. 9～11, the described lathe tool cutter row device 7 of present embodiment also comprises two positioning key 7-4, the two ends of blade row main body 7-3 upper surface respectively have a positioning spline 7-3-3, and the lower surface of blade row locator 7-1 is connected with the upper surface of blade row main body 7-3 by the positioning key 7-4 that is contained in the positioning spline 7-3-3.Positioning spline 7-3-3 is parallel with lathe Y-axis (saddle 1).Go up the keyway bottom surface by 7-4 positioning key upper surface and 7-1 and contact, alleviate the impulsive force of turning, thereby milling machine spindle has been obtained extension service life milling spindle.Other composition and annexation are identical with the specific embodiment one.

The specific embodiment five: shown in Figure 12～13, two clamping plate 5-4 in the described lathe spindle assembly 5 of present embodiment form by substrate 5-4-1 and working plate 5-4-2, working plate 5-4-2 is fixed in the upper end of the side end face of substrate 5-4-1, and working plate 5-4-2 is connected with the big end cap 5-3-1 contact of brake disc 5-3; Substrate 5-4-1 is made by the steel material, and working plate 5-4-2 is made by copper product.Be in contact with one another increase frictional force by metallic surface hardness difference, increase the frictional force of clamping plate.Other composition and annexation are identical with the specific embodiment one.

The specific embodiment six: as shown in Figure 1, the described composite processing machine tool of present embodiment also comprises disc type milling cutter storehouse 8, and described disc type milling cutter storehouse 8 is installed on the upper end of column 3 left side walls.Other composition and annexation are identical with the specific embodiment one, two, three, four or five.

About some explanation of the present utility model:

1, on the workbench of the spindle of numerical control lathe installation site work in-process heart, also can adopt the main shaft of other form or dividing head to be installed in identical or different position, carry out workpiece and step up.

2, blade row design: mainly be the full back arbor that the BT40 milling cutter has been installed, and realize milling the function that main shaft grasps blade row.Also can adopt BT30, other handle of a knifes that mill spindle taper such as BT50 design.

3, lathe tool tool changing device, can be installed in the diverse location of lathe, except that rotation blade row 180 degree change the position of horizontal lathe tool, can also be by fixing a plurality of knife rests, place a plurality of blade rows, the lathe tool direction difference of blade row is selected different row's cuttves by position difference, realizes the tool changing function of lathe tool.

4, grasp and the mode of the blade row that is locked: its key point is to utilize the moving of main tapping position of machining center, realize the function of lathe tool automatic tool changer, grab the mode of cutter except that adopting the machining center main shaft, also can adopt other mode, utilize moving of machining center main tapping to grasp the lathe tool blade row that is locked.

Operation principle (referring to Fig. 1～13):

The cutter-exchange mechanism operation principle: the purpose of design of cutter-exchange mechanism be realize lathe tool send cutter and withdrawing.Realize that by the blade row rotation replacing of lathe tool reaches the purpose of cylindrical processing and endoporus processing.Drive connection: the first cylinder 6-3 does and stretches out recoil movement, the first tooth bar 6-4 is done seesaw, and drives the first gear 6-5 and rotates, and rotation realizes sending the cutter tool backlash movement thereby the first gear 6-5 drives final drive shaft 6-2 rotation drive rocking arm 6-10 (tool arm); The second cylinder 6-11 does and stretches out recoil movement and make and connect that knife rest 6-18 (connecing cutterhead) does 0 degree and 180 degree rotations make the cutter of blade row processing excircles and endoporus realize switching.

Main shaft clamping device: drive two clamping plate 5-4 motions by the 3rd cylinder 5-2, realize the clamping and release action.

Blade row main body: press from both sides according to flexible improvement of the structure of traditional blade row with the ingenious pine that combines the realization blade row of main shaft taper shank.Blade row locator: utilize the positioning and locking device that is installed in the main shaft periphery, adjust, make the be positioned at fixed position of blade row, thereby play the blade row fixation by certain orientation by the specific position design of keyway.Add man-hour carrying out turning, the lower end of the milling machine spindle in handle of a knife 7-2 and the main spindle box 4 is connected, and the upper end of blade row locator 7-1 is connected with main spindle box 4; When carrying out Milling Process, handle of a knife 7-2 is placed on connecing on the knife rest 6-18 of lathe cutter-exchange mechanism 6 together with blade row main body 7-3.

The utility model (milling machine Compositions of metal-working machines) is based on the vertical knee-type milling machine ray machine, and (in the face of lathe) installs the disc type tool magazine on the upper left side of machine pillar, is the lathe unit head in the workbench left side, and car owner's axle steps up device at lathe unit head tail end.Tool changing device is installed on the workbench right side, and blade row is placed on the tool changing device carriage when non-car function is used.The blade row locator is installed in the main shaft periphery.

Application mode of the present utility model: the exchange by milling machine spindle and circular tool magazine cutter when milling realizes that the replacing of milling cutter uses that (during milling, the main shafts in the main spindle box 4 rotate, and workpiece is fixed on the lathe spindle 5-5 of lathe spindle assembly 5; During turning, no longer motion after the main shafts in the main spindle box 4 are finished and adjusted up and down, the workpiece that is installed on the lathe spindle 5-5 of lathe spindle assembly 5 rotates).During turning, at first confirm milling cutter whether also on main shaft, also put in place to the respective circular disks tool magazine then reducing cutter.Not having under the milling cutter situation at milling machine spindle this moment makes blade row have fixed position (0 degree or 180 degree) to stop by instruction, workbench operation fixed position is carried out the lathe tool blade row by taper shank and milling machine spindle and is grasped, by the blade row fixture, the crawl position, location, the extracting that realizes lathe tool with unclamp, find automatically according to processing request then to constitute the turning relation between corresponding lathe tool and the lathe spindle.

The lathe tool mounting means of the utility model lathe tool blade row: lathe tool blade row side has the groove of fixed dimension, this groove is the lathe tool locating slot, in conjunction with a wedge wherein the screw locking hole is arranged by two wedges one on the other at cutter groove one end, lathe tool is put into the back adjust two wedges, fastening lock screw compresses lathe tool and realizes that fixedly clamping is on blade row.

The utility model utilizes vertical machining centre expansion repacking to become the turnning and milling Compositions of metal-working machines.Original vertical machining centre structure is constant keeping, be under the constant prerequisite of milling function, increase the device and the function of numerically controlled lathe, automated exchanged cutter, the tool changing of utilize the main shaft of vertical machining centre to grasp, locking CNC turning tool (blade row) being finished lathe tool, thereby realization turning function.Under the milling state, the C axle rotates, and the fellowship milling realizes four calibration, four-axle linked function.Realize clamping No. one time, can finish turning processing, can finish the ability of Milling Process again.The utility model has increased the required device of numerically controlled lathe, promptly under the prerequisite that keeps the vertical machining centre structure not change fully, with the overall fixed such as main shaft, main spindle box and spindle motor of numerically controlled lathe workbench left end in vertical machining centre, shared same digital control system, constitute the C axle that mills the car Compositions of metal-working machines, the peripheral oil pressure station that increases is to realize the powerful clamping of workpiece.The utility model is with the form clamping lathe tool of row's cutter, blade row can clamping eight lathe tool (four of vertical direction, horizontal direction four), BT40 milling cutter full back arbor is installed on the blade row, make it can be on the main shaft of vertical machining centre as the milling cutter automated exchanged cutter.The utility model utilizes motor and pneumatic means to realize the automatic conversion of blade row position, can be with blade row original place Rotate 180 degree, horizontal lathe tool is placed Working position, be used for the side processing of turning, the main shaft that satisfies vertical machining centre grasps, locks, fixes the needs of the lathe tool (row's cutter) of different machine directions.The utility model increases lock sleeve in the periphery of vertical machining centre main shaft after grasping the lathe tool blade row, utilize the keyway location to make lathe tool and Y-axis keep vertical direction.Move the position that prevents lathe tool, guarantees the machining accuracy of turning.

Annexation: spindle of numerical control lathe and lathe tool tool changing device are installed on the machining center workbench, and the lathe tool blade row is placed on the lathe tool tool changing device, and the blade row locking and fixing device is installed in the main shaft periphery of vertical machining centre.

Drive connection: when carrying out the turning function, control system is assigned instruction, forbids that the machining center main shaft rotates, utilize moving of X, Y, Z axle, the machining center main shaft grasps the lathe tool blade row to grasp the mode of milling cutter on the lathe tool tool changing device, by the blade row locking and fixing device, fix the lathe tool blade row; Car owner's axle rotates at a high speed, and X, Z axle move and make lathe tool arrival assigned address carry out turning processing.Utilize moving of Y-axis can the conversion blade row on the position of lathe tool, and reach the purpose of automatic tool changer.At this moment can use the portable cutter tower of the main shaft of grabbing the vertical machining centre behind the cutter (blade row) fully as numerically controlled lathe.After machining, the main shaft of machining center presses the anti-process of cutter, and the lathe tool blade row is put back on the lathe tool tool changing device.Tool changing device can rotate to Working position to the lathe tool of horizontal direction with blade row original position Rotate 180 degree, and main shaft is grabbed cutter once more, just can carry out the side turning processing of workpiece.After turning is finished, the lathe tool tool changing device will load the top that the lathe tool blade row rotates to tailstock seat, finish its tool changing work.Brake gear starts car owner's axle location, promptly can carry out Milling Process.The milling function can be realized by following several modes: 1. clamping workpiece is on car owner's axle, by carrying out the angle faces milling behind car owner's axle calibration function calibration.2. can be by X, Y, Z feed shaft and C axle calibration simultaneously carry out four interpolation millings.3. spindle of numerical control lathe part integral body can be removed, clamping workpiece on the work in-process heart work top carries out milling on a large scale.At this moment, returned to original processing characteristics of vertical machining centre fully.

Claims (6)

1. One kind have lathe tool cutter row device and a lathe cutter-exchange mechanism mill the car composite processing machine tool, described composite processing machine tool comprises the milling machine main body, described milling machine main body comprises saddle (1), workbench (2), column (3) and main spindle box (4), workbench (2) level is positioned at the top of saddle (1) and the two is the cross setting, column (3) is positioned at the rear end of workbench (2) and the lower end of column (3) is connected with saddle (1), and top and main spindle box (4) that main spindle box (4) is positioned at workbench (2) are slidingly connected with column (3); It is characterized in that: described composite processing machine tool also comprises lathe spindle assembly (5), lathe cutter-exchange mechanism (6) and lathe tool cutter row device (7), lathe spindle assembly (5) is arranged on the left end of workbench (2) and is slidingly connected with workbench (2), lathe cutter-exchange mechanism (6) is installed in the right-hand member of workbench (2), and lathe tool cutter row device (7) is provided with the below of main spindle box (4) or connecing on the knife rest (6-18) of lathe cutter-exchange mechanism (6);

   Lathe cutter-exchange mechanism (6) comprises axle sleeve (6-1), final drive shaft (6-2), first cylinder (6-3), first tooth bar (6-4), first gear (6-5), the first tooth bar locator (6-7), clutch shaft bearing (6-8), second bearing (6-9); Rocking arm (6-10); Second cylinder (6-11); Rocking arm positioning link (6-14); Adjust piece (6-15) for two; Locating piece (6-16); Rotary body (6-17); Connect knife rest (6-18); Second tooth bar (6-19); Second gear (6-20); The second tooth bar locator (6-22); Adjust screw (6-23) for two; Two setscrew nuts (6-24); The 3rd bearing (6-26); The 4th bearing (6-27) and locating shaft (6-28); Final drive shaft (6-2) is installed in the axle sleeve (6-1), between the lower end of final drive shaft (6-2) and the axle sleeve (6-1) clutch shaft bearing (6-8) is housed, between the upper end of final drive shaft (6-2) and the axle sleeve (6-1) second bearing (6-9) is housed, the piston rod of first cylinder (6-3) is connected with first tooth bar (6-4), first tooth bar (6-4) is realized the location of first tooth bar (6-4) by the first tooth bar locator (6-7), first gear (6-5) is installed in the lower end of final drive shaft (6-2), first gear (6-5) and first tooth bar (6-4) engagement; Rocking arm (6-10) is arranged on the top of final drive shaft (6-2); One end of rocking arm (6-10) is connected with the upper surface of final drive shaft (6-2) by rocking arm positioning link (6-14); The lower end of rotary body (6-17) is by the 3rd bearing (6-26); The 4th bearing (6-27) is installed on the other end of rocking arm (6-10); The upper end of rotary body (6-17) is equipped with and connects knife rest (6-18); At the 3rd bearing (6-26); Rotary body between the 4th bearing (6-27) is equipped with second gear (6-20) on (6-1 7); Second tooth bar (6-19) and second gear (6-20) engagement; The piston rod of second cylinder (6-11) is connected with second tooth bar (6-19); The second tooth bar locator (6-22) is realized the location of second tooth bar (6-19); One end of locating shaft (6-28) is arranged in the endoporus that has on the rotary body (6-17) of rocking arm (6-10) top; The other end of locating shaft (6-28) is exposed at the outside of rotary body (6-17); Two adjustment blocks (6-15) are arranged on the rocking arm (6-10); One end of two adjustment blocks (6-15) is folded in the two ends of rotary body (6-17); It is corresponding with an adjustment block (6-15) position in two adjustment blocks (6-15) to be exposed at the outside locating shaft (6-28) of rotary body (6-17); The other end of two adjustment blocks (6-15) is provided with locating piece (6-16); Adjust screw (6-23) for two and pass respectively locating piece (6-16); Each screw terminal of adjusting screw (6-23) withstands on the corresponding adjustment block (6-15), and each is adjusted on the screw (6-23) and is screwed with a setscrew nut (6-24);

   Lathe tool cutter row device (7) comprises blade row locator (7-1), handle of a knife (7-2) and blade row main body (7-3), the profile of blade row locator (7-1) is cylindrical, it is conical that the profile of handle of a knife (7-2) is, blade row main body (7-3) has four vertical grooves (7-3-1) on side along its length, four vertical grooves (7-3-1) are used to place the lathe tool of four processing excircles, have a tool bore (7-3-2) on the same side of the blade row main body (7-3) of vertical groove (7-3-1) both sides that are positioned at the end, four tool bores (7-3-2) are used to place the lathe tools of four processing endoporus; Handle of a knife (7-2) is arranged on the middle part of the upper surface of blade row main body (7-3), the big end of handle of a knife (7-2) is connected with the upper surface of blade row main body (7-3), blade row locator (7-1) is arranged on the top of blade row main body (7-3), handle of a knife (7-2) is arranged in the inner chamber of blade row locator (7-1), and the lower surface of blade row locator (7-1) is connected with the upper surface of blade row main body (7-3);

   Lathe spindle assembly (5) is by housing (5-1) and be positioned at the lathe spindle (5-5) of housing (5-1) and main shaft clamping device constitutes, and lathe spindle (5-5) is installed on the brake disc (5-3) on the main shaft clamping device; Main shaft clamping device is by the 3rd cylinder (5-2), brake disc (5-3), two clamping plates (5-4), the 3rd cylinder connection piece (5-6), connecting rod (5-7) and base plate (5-8) constitute, two clamping plates (5-4) are set in parallel on the end of base plate (5-8), the lower end of the big end cap (5-3-1) of brake disc (5-3) is arranged between two clamping plates (5-4), the 3rd cylinder (5-2) is connected with base plate (5-8) by the 3rd cylinder connection piece (5-6), the other end of connecting rod (5-7) passes the 3rd cylinder connection piece (5-6) and two clamping plates (5-4) successively, and the piston rod in an end of connecting rod (5-7) and the 3rd cylinder (5-2) is connected.
2. 2. according to claim 1 have lathe tool cutter row device and a lathe cutter-exchange mechanism mill the car composite processing machine tool, it is characterized in that: described lathe cutter-exchange mechanism (6) also comprises the fork-shaped connector (6-6) and the first cylinder connecting plate (6-25), the piston rod of first cylinder (6-3) is connected with first tooth bar (6-4) by fork-shaped connector (6-6), and first cylinder (6-3) is connected with the lower end sidewall of axle sleeve (6-1) by the first cylinder connecting plate (6-25).
3. 3. according to claim 2 have lathe tool cutter row device and a lathe cutter-exchange mechanism mill the car composite processing machine tool, it is characterized in that: described lathe cutter-exchange mechanism (6) also comprises the second cylinder connecting plate (6-12), the second cylinder connecting plate connector (6-13) and the second tooth bar connecting plate (6-21), the second cylinder connecting plate (6-12) is connected with rocking arm (6-10) by the second cylinder connecting plate connector (6-13), and second cylinder (6-11) is installed on the second cylinder connecting plate (6-12).
4. 4. according to claim 1 have lathe tool cutter row device and a lathe cutter-exchange mechanism mill the car composite processing machine tool, it is characterized in that: described lathe tool cutter row device (7) also comprises two positioning keys (7-4), the two ends of blade row main body (7-3) upper surface respectively have a positioning spline (7-3-3), and the lower surface of blade row locator (7-1) is connected with the upper surface of blade row main body (7-3) by the positioning key (7-4) that is contained in the positioning spline (7-3-3).
5. 5. according to claim 1 have lathe tool cutter row device and a lathe cutter-exchange mechanism mill the car composite processing machine tool, it is characterized in that: two clamping plates (5-4) in the described lathe spindle assembly (5) are formed by substrate (5-4-1) and working plate (5-4-2), working plate (5-4-2) is fixed in the upper end of a side end face of substrate (5-4-1), and working plate (5-4-2) is connected with big end cap (5-3-1) contact of brake disc (5-3); Substrate (5-4-1) is made by the steel material, and working plate (5-4-2) is made by copper product.
6. According to claim 1,2,3,4 or 5 described have lathe tool cutter row device and a lathe cutter-exchange mechanism mill the car composite processing machine tool, it is characterized in that: described composite processing machine tool also comprises disc type milling cutter storehouse (8), and described disc type milling cutter storehouse (8) is installed on the upper end of column (3) left side wall.

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