CN203221338U - Turntable type multipoint numerical control drilling and tapping machine - Google Patents

Abstract

The utility model provides a turntable type multipoint numerical control drilling and tapping machine, and belongs to the technical field of machinery. The turntable type multipoint numerical control drilling and tapping machine solves the problems that an existing multipoint machine tool is low in practicability and not high in machining efficiency. The turntable type multipoint numerical control drilling and tapping machine comprises a machine base and a turnplate horizontally arranged in the middle of the machine base, a plurality of working positions are evenly distributed on the turnplate, a motor is arranged on the bottom of the machine base, a plurality of machining units which are identical with the working positions of the turnplate in number are evenly distributed on the machine base along the edge of the turnplate, each machining unit comprises a main shaft case and a sliding table, the main shaft cases can slide up and down in the vertical direction, namely, the Z-axis direction, tools are arranged on the lower portions of the main shaft cases, the sliding tables are arranged between the main shaft cases and the machine base, a horizontal guide rail is fixedly arranged on the machine base, the sliding tables are arranged on the horizontal guide rail and are capable of sliding along the horizontal guide rail, vertical guide rails are fixedly arranged on the sliding tables, the main shaft cases are arranged on the vertical guide rails and are capable of sliding along the vertical guide rails in an up and down mode, and a locating structure is arranged between the machine base and the turnplate. The turntable type multipoint numerical control drilling and tapping machine has the advantages of being good in universality, high in machining efficiency, high in machining precision and the like.

Description

A kind of turntable type multi-head numerical control bores attacks lathe

Technical field

The utility model belongs to field of mechanical technique, relates to a kind of multi-station machine tool, relates in particular to a kind of turntable type multi-head numerical control brill and attacks lathe.

Background technology

At present, traditional Digit Control Machine Tool substantially only has a kind of function, only has the function of milling as milling machine, and drilling machine only has the function of boring, and tapping has only the function of tapping, and each lathe function is more single.Similarly, many bull lathes are also arranged on the market, for example multiple drill press, bull lathe etc., can carry out multiple spot processing at a machine tool, improved working (machining) efficiency, but the bull lathe but can only carry out same type manufacturing procedure, multiple drill press for example, though can carry out the deep hole machining in different apertures, the type of its processing also is deep hole machining, the still problem of unresolved function singleness.And parts are adding the requirement of man-hour according to processing technology, usually multi-step process to be arranged, can't finish at a machine tool, for example the processing of traditional drilling hole machine tool once can only be finished on the workpiece single operation processing in a hole or several holes of same specification, and if will finish on the workpiece porose and all process steps (such as drill centers, boring, reaming, fraising, tapping etc.) on the working face, so just must adopt several even production line of tens of bench drill composition to finish.

Certainly, people can come workpiece is carried out the processing of full operation by selecting machining center, but, machining center adds the processing that also can only realize a kind of operation of specification man-hour at every turn, at needs another procedure is added man-hour, just need carry out the operation of tool changing, namely alternately realize different types of processing by tool changing frequently, therefore cause the efficient of its processing not high.

In order to address the above problem, people have proposed diversified solution, have proposed a kind of multistation modular machine tool [notification number: CN101229620A as Chinese patent; Application number: 200810069348.0], it comprises a rotatable circle or foursquare workbench, annular is provided with several stations on workbench, at least therein the position of corresponding each station is equipped with one or more lathe in the part station, and the corresponding station of the Working position on the corresponding lathe is provided with the frock of location workpiece.This multistation modular machine tool can carry out the processing of multiple working procedure at workbench, has reduced clamping and the location number of times of workpiece, has significantly reduced time and the workload of clamping, has improved production efficiency.

Yet, though above-mentioned multistation modular machine tool can carry out multi-step process to workpiece on a machine tool, finish the function of similar machining center, but in the per pass manufacturing procedure, in the machining cell corresponding with station except cutter other each several part all can not move, so just, cause the Working position of cutter on workpiece and processing number of times all more fixing, for example utilize machining cell at deep hole of workpiece processing, because other parts all are fixed, therefore this machining cell just can only be processed a deep hole on workpiece, make that the practicality of lathe is not high, the structure more complicated of particularly working as the required processing of workpiece, as at the equal identical deep hole of same several shape sizes of processing, so just need operating personnel that the clamping that workpiece carries out repeatedly diverse location is processed, so not only need to spend a large amount of time of operating personnel and labour intensity, can't enhance productivity again and economic benefit of enterprises when having improved production cost.

Summary of the invention

The purpose of this utility model is the problems referred to above that exist at prior art, has proposed a kind of versatility height, can realize that clamping finishes the accurate processing of all process steps on machined surface of workpiece and the high turntable type multi-head numerical control of machining accuracy and bore and attack lathe.

The purpose of this utility model can realize by following technical proposal:

A kind of turntable type multi-head numerical control bores attacks lathe, comprise a support, be horizontally placed on the rotating disk that can rotate at support middle part, be evenly equipped with the station that several can place work piece on the described rotating disk, the bottom of described support is provided with the motor that can drive dial rotation, it is characterized in that, edge along described rotating disk on the described support is evenly equipped with the machining cell identical with the station quantity of above-mentioned rotating disk, described each machining cell comprises main spindle box and slide unit, described main spindle box can vertically be that Z-direction slides up and down, the bottom of described main spindle box is provided with cutter, described slide unit is located between described main spindle box and the described support, be installed with horizontal guide rail on the described support, described slide unit is positioned on the described horizontal guide rail and can slides along horizontal guide rail, be installed with perpendicular guide rail on the described slide unit, above-mentioned main spindle box is positioned on the described perpendicular guide rail and can slides up and down along perpendicular guide rail, is provided with the location structure that can prevent dial rotation between described support and the rotating disk.

This turntable type multi-head numerical control bores to attack to be provided with in the lathe to be specifically designed to realizes the accurately electronic control system of control, in the time of in working order, electronic control system can be controlled the specific angle of driven by motor dial rotation and guarantee that the station on the rotating disk can turn to the machining cell place corresponding with the required manufacturing procedure of carrying out of workpiece in this station.After dial rotation puts in place, by location structure rotating disk is stopped operating and be in static state, can guarantee that like this rotating disk can not be subjected to the collision of cutter and produce swing in process, guarantee that machining accuracy is unaffected.

Because the slide unit at each machining cell place can slide along horizontal guide rail, therefore workpiece is being added man-hour, the coordinate position that slide unit has configured in can the electronic control system according to lathe moves, by this control cutter is accurately processed to the position of required processing on machined surface of workpiece, similarly, can also accurately guarantee the working depth of cutter by the slip of electronic control system control main spindle box.In addition, by the movement along horizontal guide rail, slide unit can make the cutter in the main spindle box that the diverse location on machined surface of workpiece is carried out identical manufacturing procedure, has so just improved the practicality of lathe.And after a procedure machined, rotating disk can turn to next machining cell place again, and then carried out said process, finished manufacturing procedures all on the whole lathe until the workpiece on the rotating disk.

Attack in the lathe at above-mentioned turntable type multi-head numerical control brill, described horizontal guide rail comprises cross rail and vertical guide rail, be provided with between described slide unit and the support and can make the X-axis slide plate that slide unit moves along cross rail and the Y-axis slide plate that is arranged on the X-axis slide plate and slide unit is moved along vertical guide rail, described vertical guide rail is arranged on the X-axis slide plate.

Attack in the lathe at above-mentioned turntable type multi-head numerical control brill, described X-axis slide plate inboard is provided with first screw mandrel, described X-axis slide plate sidepiece is provided with the servomotor one that links with first screw mandrel, described Y-axis slide plate inboard is provided with second screw mandrel, and described Y-axis slide plate sidepiece is provided with the servomotor two that links with second screw mandrel.

Under the electronic control system control of lathe, servomotor one and servomotor two drive first screw mandrel respectively and second screw mandrel rotates, thereby make X-axis slide plate and Y-axis slide plate move to the position coordinates place that configures in the electric machine control system, thereby reach the accurate control to slide unit, can make each machining cell can both carry out the processing of same operation diverse location to each workpiece like this, and can also guarantee accurate machining accuracy simultaneously.

Attack in the lathe at above-mentioned turntable type multi-head numerical control brill, as another kind of situation, described horizontal guide rail comprises an arc-shaped guide rail, is provided with the arc skateboard that slide unit is slided along arc-shaped guide rail between described slide unit and the support.Arc-shaped guide rail can realize that equally also slide unit moves to the X-axis that configures on the electronic control system and the position coordinates place of Y-axis.

Attack in the lathe at above-mentioned turntable type multi-head numerical control brill, being provided with in the described station can be with the anchor clamps of workpiece location.By being set in station, anchor clamps come can prevent like this that to the workpiece location position that adds the workpiece in man-hour is offset.The anchor clamps of configuration are identical in each station, can guarantee uniformity and the high accuracy of workpiece processing like this, only need correspondingly change anchor clamps corresponding with workpiece in each station man-hour and get final product and will add different workpiece.

Attack in the lathe at above-mentioned turntable type multi-head numerical control brill, described main spindle box fixedly connected to the inner side can be along erecting the Z axle slide plate that guide rail slides up and down, be provided with the 3rd screw mandrel between described Z axle slide plate and the slide unit, be provided with the servomotor three that links by belt with the 3rd screw mandrel in the described slide unit.

After adjusting to the right place in the position of slide unit, driving the 3rd screw mandrel by the control of the electronic control system on lathe servomotor three rotates, make Z axle slide plate drive main spindle box and move according to the amount of moving down that configures and workpiece is processed, guarantee that by this mode each working depth is all identical simultaneously.

Attack in the lathe at above-mentioned turntable type multi-head numerical control brill, described support center is provided with rotating shaft, and the inner of described rotating shaft is fixed with travelling gear, and the rotating shaft of described motor matches with travelling gear, and the outer end of described rotating shaft is connected mutually with rotating disk.

Machine shaft matches with travelling gear, drive travelling gear and rotate when machine shaft rotates, thereby the feasible rotating shaft that is connected mutually with travelling gear also rotates, thereby be finally converted into the rotation into rotating disk.

Attack in the lathe at above-mentioned turntable type multi-head numerical control brill, the cylinder that described location structure comprises the limiting plate that is connected in rotating shaft the inner and is connected in the support bottom, be evenly equipped with several tapered pin-and-holes on the described limiting plate, the outer end of the piston rod of described cylinder is fixed with a bearing pin, and described bearing pin end shape and pin-and-hole shape are complementary.

After program that rotating disk configures on according to electronic control system forwards the angle of setting to, motor stop operating and guarantee on the limiting plate pin-and-hole and the bearing pin that is connected the cylinder piston rod outer end over against, then cylinder produces action under the control of electronic control system, the piston rod of cylinder moves up, and positions in the pin-and-hole on the bearing pin insertion limiting plate.

Attack in the lathe at above-mentioned turntable type multi-head numerical control brill, as another kind of situation, the cylinder that described location structure comprises the limiting plate that is connected in rotating shaft the inner and is connected in the support bottom, described limiting plate sidepiece is evenly equipped with some projections that are square, the outer end of described cylinder piston rod is fixed with a brake bar, and described brake bar end offers and the equal identical square groove of projection shape size.

After program that rotating disk configures on according to electronic control system forwards the angle of setting to, motor stop operating and the projection that guarantees the limiting plate sidepiece and the brake bar that is connected the cylinder piston rod outer end over against, then cylinder produces action under the control of electronic control system, the piston rod of cylinder moves up, brake bar move up and the square groove of brake bar outer end with the projection clamping of limiting plate sidepiece.

Attack in the lathe at above-mentioned turntable type multi-head numerical control brill, described support bottom is fixed with a mount pad, and described cylinder is arranged on the mount pad.

Attack in the lathe at above-mentioned turntable type multi-head numerical control brill, described support bottom surface is fixed with some cushion blocks.

When each station all was in machining state, the collision of cutter and workpiece made support produce easily and rocks, and the stationarity that cushion block can guarantee support is set, and certain pooling feature also is provided simultaneously.

Compared with prior art, this turntable type multi-head numerical control bores and to attack lathe and have the following advantages:

1, this turntable type multi-head numerical control brill is attacked lathe and is realized that by horizontal guide rail slide unit is mobile arbitrarily in horizontal plane, thereby realize carrying out the multiple operation processing of diverse location on the machined surface of workpiece, realize the processing of clamping, porous multiple operation, time saving and energy saving, improved the degree of flexibility of lathe, also make lathe can tackle various processing requests, can also enhance productivity and economic benefit of enterprises when reducing production costs; Simultaneously each slide unit of lathe all can carry out movement on the horizontal plane by horizontal guide rail, therefore can carry out the full operation processing on the workpiece machined surface, has realized the machine function of machine at most;

2, this turntable type multi-head numerical control bores and to attack lathe and utilize location structure that rotating disk is positioned when stopping operating, and prevents from rotating at the process turntable, thereby makes that the accuracy of processing is higher, has also improved the qualification rate of product;

3, this turntable type multi-head numerical control bores and attacks lathe owing to adopted electronic control system that lathe is carried out automatically accurately control, workpiece just can be finished the processing of all process steps on the machined surface after by a clamping automatically, the staff only need finish clamping and the disassembling section of workpiece, saved labour intensity greatly, a people can be realized to many operation of machine tool, the qualification rate of machining accuracy and product can also be guaranteed simultaneously;

4, this turntable type multi-head numerical control bores and to attack the machine adopted anchor clamps workpiece is carried out the clamping location, and in order to process at different workpiece, therefore can on each station of rotating disk, respectively dispose the identical anchor clamps of a cover, just can realize the processing to all process steps on machined surface of workpiece behind such clamping, thereby improve uniformity and the precision of workpiece processing greatly; Different workpiece of while adds only need can be processed different workpiece by the anchor clamps in the replacing station and the establishment of Electronic Control program man-hour, has improved versatility and the practicality of lathe;

5, this turntable type multi-head numerical control bores and to attack lathe and realize slide unit movement on Z-direction in the movement on the horizontal plane and main spindle box by screw mandrel and servomotor, and is simple in structure and be easy to make, and can realize brill, attacks the accurate control of hole depth.

Description of drawings

Fig. 1 is that this turntable type multi-head numerical control bores the structural representation of attacking lathe.

Fig. 2 is that this turntable type multi-head numerical control bores the vertical view of attacking lathe.

Fig. 3 is that this turntable type multi-head numerical control bores the partial sectional view of attacking support place in the lathe.

Fig. 4 is that this turntable type multi-head numerical control bores the enlarged drawing of attacking when location structure is located rotating disk in the lathe.

Among the figure, 1, support; 2, rotating disk; 3, station; 4, motor; 5, main spindle box; 6, slide unit; 7, X-axis slide plate; 8, Y-axis slide plate; 9, first screw mandrel; 10, servomotor one; 11, second screw mandrel; 12, servomotor two; 13, anchor clamps; 14, Z axle slide plate; 15, the 3rd screw mandrel; 16, servomotor three; 17, rotating shaft; 18, travelling gear; 19, limiting plate; 20, cylinder; 21, pin-and-hole; 22, bearing pin; 23, mount pad; 24, cushion block; 25, chuck; 26, drive link; 27, drive motors.

The specific embodiment

Below be specific embodiment of the utility model and by reference to the accompanying drawings, the technical solution of the utility model is further described, but the utility model be not limited to these embodiment.

Embodiment one

As shown in Figure 1-Figure 3, a kind of multistation 3 numerical controls are bored and are attacked milling machine tool, comprise a support 1, being horizontally placed on of support 1 middle part can be by the rotating disk 2 of predefined angular turn, be evenly equipped with the station 3 that several can place work piece on the rotating disk 2, the bottom of support 1 is provided with the motor 4 of the band reducing gear that can drive rotating disk 2 rotations, support 1 center is provided with rotating shaft 17, the inner of rotating shaft 17 is fixed with a travelling gear 18, the rotating shaft of motor 4 matches with travelling gear 18, and the outer end of rotating shaft 17 is connected mutually with rotating disk 2.In the present embodiment, be provided with in the station 3 can work piece positioning is tight anchor clamps 13, these anchor clamps 13 can be designed to the multi-form of automated exchanged cutter or manual clamping workpiece, and these anchor clamps 13 also can be designed to the one or more workpiece of clamping No. one time according to the difference of workpiece size simultaneously.Support 1 bottom surface is fixed with some cushion blocks 24; The angle that rotating disk 2 rotates is that the quantity by station 3 determines, is 6 as the quantity of station 3, just then the rotational angle of rotating disk 3 is 60 degree, and if the quantity of station 3 is 12, then the rotational angle of rotating disk 3 just is 30 degree.

As shown in figures 1 and 3, be provided with the location structure that can prevent that rotating disk 2 from rotating between support 1 and the rotating disk 2, location structure comprises the limiting plate 19 that is connected in rotating shaft 17 the inners and the cylinder 20 that is connected in support 1 bottom, be evenly equipped with several tapered pin-and-holes 21 on the limiting plate 19, the outer end of the piston rod of cylinder 20 is fixed with a bearing pin 22, and bearing pin 22 end shapes and pin-and-hole 21 shapes are complementary.In the present embodiment, support 1 bottom is fixed with a mount pad 23, and cylinder 20 is arranged on the mount pad 23.

As depicted in figs. 1 and 2, edge along rotating disk 2 on the support 1 is evenly equipped with the machining cell identical with station 3 quantity of rotating disk 2, each machining cell comprises main spindle box 5 and slide unit 6, main spindle box 5 can vertically be that Z-direction slides up and down, the bottom of main spindle box 5 is provided with cutter, slide unit 6 is located between main spindle box 5 and the support 1, be installed with perpendicular guide rail on the slide unit 6, main spindle box 5 is positioned on the perpendicular guide rail, main spindle box 5 fixedly connected to the inner side can be along erecting the Z axle slide plate 14 that guide rail slides up and down, be provided with the 3rd screw mandrel 15 between Z axle slide plate 14 and the slide unit 6, be provided with the servomotor 3 16 that links by belt with the 3rd screw mandrel 15 in the slide unit 6.In the present embodiment, main spindle box 5 bottoms are provided with chuck 25 that can the clamping cutter and the drive link 26 that links with chuck 25, and main spindle box 5 tops are provided with and can drive chuck 25 by drive link 26 and drive the drive motors 27 that cutters rotate.

Be installed with horizontal guide rail on the support 1, slide unit 6 is positioned on the horizontal guide rail and can slides along horizontal guide rail.Horizontal guide rail comprises cross rail and vertical guide rail, be provided with between described slide unit 6 and the support 1 and can make the X-axis slide plate 7 that slide unit 6 moves along cross rail and the Y-axis slide plate 8 that is arranged on the X-axis slide plate 7 and slide unit 6 is moved along vertical guide rail, described vertical guide rail is arranged on the X-axis slide plate 7.X-axis slide plate 7 inboards are provided with first screw mandrel 9, and X-axis slide plate 7 sidepieces are provided with the servomotor 1 that links with first screw mandrel 9, and Y-axis slide plate 8 inboards are provided with second screw mandrel 11, and Y-axis slide plate 8 sidepieces are provided with the servomotor 2 12 that links with second screw mandrel 11.

Certainly, this multistation 3 numerical controls brill is attacked milling machine tool and also equally is provided with an electronic control system that is used for control each operational motion of lathe and realizes accurately controlling with other common Digit Control Machine Tools.

Before utilizing 3 numerical controls of this multistation to bore to attack lathe to process, earlier workpiece is fixed by the anchor clamps 13 in the station 3.Then, connect power supply, motor 4 is worked under the control of electronic control system, the rotating shaft of motor 4 makes rotating disk 2 turn to the angle of setting by matching with the travelling gear 18 that is connected in rotating shaft 17 the inners, this station 3 turns to first machining cell place by rotating disk 2 and carries out the processing of first procedure.

Can make rotating disk 2 produce swing during owing to workpiece processing tool and have influence on machining accuracy, therefore in order to address the above problem, as shown in Figure 4, control by electronic control system, when rotating disk 2 turns over the angle of setting and stops operating, be connected on the limiting plate 19 on the rotating shaft 17 pin-and-hole 21 can with the bearing pin 22 that is connected in support 1 bottom upper cylinder 20 piston rod outer ends over against, cylinder 20 moves under the control of electronic control system, the bearing pin 22 of cylinder 20 piston rod outer ends moves up under the driving of cylinder 20 and inserts in the pin-and-hole 21 on the limiting plate 19, rotating disk 2 is just located securely and firmly can not produced swing like this, certainly this has also guaranteed the repetitive positioning accuracy of lathe at running hours simultaneously, and the uniformity of workpiece processing is guaranteed.Then electronic control system is just controlled this machining cell is finished first procedure to this workpiece processing.

The process of processing is: the programme-control slide unit 6 that electronic control system has write according to operating personnel moves to the coordinate position place that configures, thereby X-direction drives first screw mandrel, 9 rotation drive X-axis slide plates 7 by servomotor 1 and moves to setting coordinate place along horizontal guide rail, then thereby Y direction is then rotated drive Y-axis slide plate 8 by servomotor 2 12 drivings second screw mandrel 11 and is moved to setting coordinate place along vertical guide rail, and slide unit 6 is just finished the movement on horizontal plane like this.Then, electronic control system is controlled servomotor 3 16 work again, the rotating shaft of servomotor 3 16 is rotated and is driven the 3rd screw mandrel 15 by belt pulley and rotates, and main spindle box 5 moves down along perpendicular guide rail by Z axle slide plate 14, thereby the cutter that is arranged at main spindle box 5 bottoms is processed workpiece.

Because slide unit 6 can be implemented in movement on the horizontal plane by X-axis slide plate 7 and Y-axis slide plate 8, therefore the control by electronic control system, can realize that machining cell finishes this procedure at the diverse location with workpiece, for example this workpiece needs 5 diverse locations but the identical deep hole of size, movement by electronic control system control X-axis slide plate 7 and Y-axis slide plate 8 just can be implemented in the quantity that just processes needed deep hole in the procedure at workpiece so, does not finish and do not need to be divided into the identical operation in some roads.

After first procedure machines, cylinder 20 moves under the control of electronic control system, the piston rod of cylinder 20 moves down, the bearing pin 22 of cylinder 20 piston rod outer ends separates with pin-and-hole 21 on the limiting plate 19, motor 4 is task again, rotating disk 2 rotates again, and stops operating after rotating angle to the second a machining cell place that sets again, and the bearing pin 22 by cylinder 20 piston rod outer ends comes rotating disk 2 location again then.

At this moment, workpiece turns to the processing that second machining cell place finishes second operation work, the process of its processing is identical with above-mentioned process, and when this workpiece carries out second operation work processing, is positioned at the workpiece of 3 li of stations again in the processing of carrying out first procedure.

In addition, when utilizing 3 numerical controls of this multistation to bore, needs attack lathe carries out multiple working procedure to different workpiece the man-hour that adds, only need the anchor clamps 13 corresponding with this workpiece in the corresponding replacing rotating disk 2, and then the setting program of revising in the lathe electronic control system gets final product, making this multistation 3 numerical controls brill attack lathe so not only can produce in batches as a production line, especially when processing structure requires the workpiece of more complicated, working (machining) efficiency is greatly improved, and after a collection of workpiece process finishing, can also carry out processing in batches again to other a collection of different workpiece.

Embodiment two

Present embodiment is basic identical with structure and the principle of embodiment one, difference is: the horizontal guide rail in the present embodiment comprises an arc-shaped guide rail, be provided with the arc skateboard that slide unit 6 is slided along arc-shaped slide rail between slide unit 6 and the arc-shaped slide rail, the arc skateboard inboard is provided with screw mandrel and can drives the servomotor 4 that screw mandrel rotates.Arc skateboard slides along arc-shaped slide rail, and slide unit 6 can directly move to the position coordinates place of the set X-axis of reserving and Y-axis by the slip of arc.

Embodiment three

Present embodiment is basic identical with structure and the principle of embodiment one, difference is: the location structure in the present embodiment comprises the limiting plate 19 that is connected in rotating shaft 17 the inners and the cylinder 20 that is connected in support 1 bottom, limiting plate 19 sidepieces are evenly equipped with some projections that are square, the outer end of cylinder 20 piston rods is fixed with a brake bar, and the brake bar end offers and the equal identical square groove of projection shape size.After rotating disk 2 stops operating, cylinder moves under the control of lathe electronic control system, the brake bar of cylinder 20 piston rod outer ends moves up, thereby the square groove of brake bar outer end can be stuck in the both sides of rotating disk 2 sidepiece projections that projection is stuck, rotating disk 2 just can't rotate again like this.

Specific embodiment described herein only is that the utility model spirit is illustrated.The utility model person of ordinary skill in the field can make various modifications or replenishes or adopt similar mode to substitute described specific embodiment, but can't depart from spirit of the present utility model or surmount the defined scope of appended claims.

Claims (10)

1. a turntable type multi-head numerical control bores and attacks lathe, comprise a support (1), be horizontally placed on the rotating disk that can rotate (2) at support (1) middle part, be evenly equipped with the station (3) that several can place work piece on the described rotating disk (2), the bottom of described support (1) is provided with and can drives the motor (4) that rotating disk (2) rotates, it is characterized in that, described support (1) is gone up along the edge of described rotating disk (2) and is evenly equipped with the machining cell identical with station (3) quantity of above-mentioned rotating disk (2), described each machining cell comprises main spindle box (5) and slide unit (6), described main spindle box (5) can vertically be that Z-direction slides up and down, the bottom of described main spindle box (5) is provided with cutter, described slide unit (6) is located between described main spindle box (5) and the described support (1), described support is installed with horizontal guide rail on (1), described slide unit (6) is positioned on the described horizontal guide rail and can slides along horizontal guide rail, described slide unit is installed with perpendicular guide rail on (6), above-mentioned main spindle box (5) is positioned on the described perpendicular guide rail and can slides up and down along perpendicular guide rail, is provided with the location structure that can prevent that rotating disk (2) from rotating between described support (1) and the rotating disk (2).

2. turntable type multi-head numerical control according to claim 1 bores and attacks lathe, it is characterized in that, described horizontal guide rail comprises cross rail and vertical guide rail, be provided with between described slide unit (6) and the support (1) and can make the X-axis slide plate (7) that slide unit (6) moves along cross rail and be arranged at the Y-axis slide plate (8) that X-axis slide plate (7) goes up and can make slide unit (6) to move along vertical guide rail, described vertical guide rail is arranged on the X-axis slide plate (7).

3. turntable type multi-head numerical control according to claim 2 bores and attacks lathe, it is characterized in that, described X-axis slide plate (7) inboard is provided with first screw mandrel (9), described X-axis slide plate (7) sidepiece is provided with the servomotor one (10) that links with first screw mandrel (9), described Y-axis slide plate (8) inboard is provided with second screw mandrel (11), and described Y-axis slide plate (8) sidepiece is provided with the servomotor two (12) that links with second screw mandrel (11).

4. turntable type multi-head numerical control according to claim 1 bores and attacks lathe, it is characterized in that described horizontal guide rail comprises an arc-shaped guide rail, is provided with the arc skateboard that slide unit (6) is slided along arc-shaped guide rail between described slide unit (6) and the support (1).

5. attack lathe according to claim 1 or 2 or 3 or 4 described turntable type multi-head numerical controls brills, it is characterized in that being provided with in the described station (3) can be with the anchor clamps (13) of workpiece location.

6. attack lathe according to claim 1 or 2 or 3 or 4 described turntable type multi-head numerical controls brills, it is characterized in that, described main spindle box (5) fixedly connected to the inner side can be along erecting the Z axle slide plate (14) that guide rail slides up and down, be provided with the 3rd screw mandrel (15) between described Z axle slide plate (14) and the slide unit (6), be provided with the servomotor three (16) that links by belt with the 3rd screw mandrel (15) in the described slide unit (6).

7. attack lathe according to claim 1 or 2 or 3 or 4 described turntable type multi-head numerical controls brills, it is characterized in that, described support (1) center is provided with rotating shaft (17), the inner of described rotating shaft (17) is fixed with travelling gear (18), the rotating shaft of described motor (4) matches with travelling gear (18), and the outer end of described rotating shaft (17) is connected mutually with rotating disk (2).

8. turntable type multi-head numerical control according to claim 7 bores and attacks lathe, it is characterized in that, described location structure comprises the cylinder (20) that is connected in the inner limiting plate (19) of rotating shaft (17) and is connected in support (1) bottom, be evenly equipped with several tapered pin-and-holes (21) on the described limiting plate (19), the outer end of the piston rod of described cylinder (20) is fixed with a bearing pin (22), and described bearing pin (22) end shape and pin-and-hole (21) shape are complementary.

9. turntable type multi-head numerical control according to claim 7 bores and attacks lathe, it is characterized in that, described location structure comprises the cylinder (20) that is connected in the inner limiting plate (19) of rotating shaft (17) and is connected in support (1) bottom, described limiting plate (19) sidepiece is evenly equipped with some projections that are square, the outer end of described cylinder (20) piston rod is fixed with a brake bar, and described brake bar end offers and the equal identical square groove of projection shape size.

According to Claim 8 or 9 described turntable type multi-head numerical controls bore and attack lathe, it is characterized in that, described support (1) bottom is fixed with a mount pad (23), and described cylinder (20) is arranged on the mount pad (23), and described support (1) bottom surface is fixed with some cushion blocks (24).

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