CN205764084U - A kind of double end height ray machine - Google Patents

Abstract

Basis is the most novel discloses a kind of double end height ray machine, including matrix, X to assembly, Y to assembly, Z-direction assembly and control device;Y-direction assembly is located on matrix table top, Y-direction assembly sets and can be driven the table device that Y-direction moves, its arranging gantry, rear portion, the crossbeam at gantry is installed X to assembly;X sets two Z-direction assemblies on assembly, each Z-direction assembly is all provided with frame head apparatus, frame head apparatus sets Cutting tool installation manner position, milling cutter is installed and just to table device on Cutting tool installation manner position, table device includes base plate and the sucker being distributed on base plate, a pair vacuum absorption holes it is shaped with on each sucker, sucker pipeline connects vacuum pump, control device control vacuum pump work and control X to assembly, Y to assembly and Z-direction component matching action, workpiece is adsorbed on sucker by vacuum absorption holes, and two milling cutters carry out synchronous processing to two workpiece on same sucker or the adjacent sucker of X-direction two.This novel high ray machine makes operation more convenient, and improves the machining accuracy of product.

Description

A kind of double end height ray machine

Technical field

This utility model relates to the equipment of metal surface processing, especially a kind of double end height ray machine.

Background technology

For metal surface processes, common machines processing effect is poor, and machined surface is coarse, and mechanical stability against short circuit is the highest, and service life of a machine is shorter.Defect for common machines, Chinese patent is known a kind of high ray machine (patent No.: 201510568847.4), it includes host matrix, in the middle of host matrix, end face is provided with two Y-direction line slideway assemblies, on described Y-direction line slideway assembly, workbench is installed, Y-direction moving parts drives workbench to do Y-direction translation;It is furnished with gantry after Y-direction line slideway, described gantry beam is provided with X and drives Z-direction line slideway assembly thereon to be X to translation to line slideway assembly, described X to line slideway assembly;Mounting tool post on described Z-direction line slideway assembly, and knife rest does Z-direction translation on Z-direction line slideway, described worktable upper surface uses general frock clamp to fix workpiece.

In foregoing invention patent 201510568847.4, using general frock clamp to fix workpiece is the way that we commonly use when tradition is processed, and this operating type is not only wasted time and energy, and affected yield;In addition, during feed, the skew causing the location of workpiece to occur due to some unfixed factors can cause the reduction of machining accuracy.

Utility model content

Of the present utility model solving the technical problem that is the defect for above-mentioned existence of the prior art, it is provided that a kind of double end height ray machine, and this novel high light function makes metal surface processing operation more convenient, and improves the machining accuracy of converted products.

In order to solve above-mentioned technical problem, this utility model provides following technical scheme: a kind of double end height ray machine, including matrix, matrix arranges X to assembly, Y is to assembly, Z-direction assembly and controls device;Wherein, described Y-direction assembly is fixed on the table top of described matrix, and described Y-direction assembly is provided with one can be driven the table device that Y-direction moves, and the rear portion of described Y-direction assembly is also equipped with gantry, the crossbeam at described gantry is installed described X to assembly;Described X is provided with Z-direction assembly described in two to assembly, Z-direction assembly described in two can be synchronized X to movement by described X to Component driver, it is all provided with frame head apparatus on each described Z-direction assembly, described frame head apparatus sets Cutting tool installation manner position, install milling cutter and the most right with the upper surface of described table device on each Cutting tool installation manner position, and Z-direction can be driven to move by described Z-direction assembly;Described table device includes base plate and some suckers, described some suckers are distributed on described base plate, it is shaped with a pair vacuum absorption holes on each described sucker, described some suckers also pipeline connects vacuum pump, described control device controls the work of described vacuum pump and controls X to assembly, Y to assembly and Z-direction component matching action, workpiece is adsorbed on sucker by vacuum absorption holes, and two milling cutters carry out synchronous processing to two workpiece on same sucker or the adjacent sucker of X-direction two.

It is expanded on further as to technique scheme:

In technique scheme, also including being arranged on the electric cabinet below described matrix and scrap collecting tank, described scrap collecting tank the most also docks with described table device coupling;The shell backplate for protection it is additionally provided with on the periphery of described matrix, one is installed in this shell backplate for irradiating the LED of described table device according to assembly, and described shell backplate side is additionally provided with the industry control operating board of rotatable and described control device electrical connection.

In technique scheme, described matrix is granite matrix.

In technique scheme, described frame head apparatus also includes sprayer unit and water cooling system, described sprayer unit matches in position with described Cutting tool installation manner position, for course of processing milling cutter and workpiece are lubricated, described water cooling system is then installed in the main shaft of frame head apparatus, milling cutter described in water-cooled in the course of processing.

In technique scheme, described Y-direction assembly includes the line rail that two Y-directions extend, two line rails are parallel be located at the X of a pedestal to dual-side on;It is equipped with a slide on described two line rails, this slide is also flexibly connected with the Y-direction connecting plate of described pedestal, described slide upper surface is fixing installs described table device, described slide lower surface divide into driving assembly, described driving assembly is connected with described slide, and drives described slide to move along described two line rail Y-directions.

Further, described driving means includes ball screw and servomotor, described ball screw one end connects described slide, the other end connects described servomotor, described servomotor provides the power needed for the rotation of described ball screw, and described ball screw rotates and drives described slide and table device Y-direction translation.

Further, before and after described two line rails, two ends are equipped with the stopping means for preventing table device from skidding off two line rails.

Further, described line rail is quiet line rail.

In technique scheme, described X includes ball screw drive subcomponent, drag chain and the cross slide way being installed on described crossbeam to assembly;Described drag chain is arranged at the upper surface of described crossbeam;Described ball screw drive subcomponent and cross slide way are set on the Y-direction front end face of described crossbeam, and described ball screw drive subcomponent is arranged in the groove of described cross slide way, Z-direction assembly described in two is installed on described cross slide way, and described Z-direction assembly is connected with described ball screw drive subcomponent, described ball screw drive subcomponent can drive Z-direction assembly described in two to synchronize X to movement along described cross slide way.

Further, described ball screw drive subcomponent includes being fixedly arranged on the bearing of described cross slide way transverse ends, the two bearings ball screw supported, the slide block being located on ball screw and the servomotor driving ball screw to rotate, Z-direction assembly described in described slide block and two connects, described slide block counter ball screw rod moves, and drives Z-direction component synchronization X described in two to movement.

In technique scheme, each described Z-direction assembly all includes the vertical base being connected with described X to assembly, the line slideway that twice Z-direction extends it is provided with on described vertical base, one vertical slide, across and being flexibly connected therewith on two line slideways, described vertical slide installs described frame head apparatus;Also including screw rod and servomotor, this screw rod connects described vertical slide, and is rotated by this driven by servomotor, and this screw rod rotates and drives described vertical slide to slide along line slideway described in two, drives described frame head apparatus to lift on Z-direction direction.

In technique scheme, described base plate is provided with four suckers, and four suckers are arranged in two row two row on described base plate.

Compared with prior art, the beneficial effects of the utility model are: this novel double end height ray machine has the table device of multiple sucker by employing, and employing Double-head device carries double milling cutter and carries out synchronous processing to by two workpiece of same sucker or the adjacent sucker suction of X-direction two, make metal surface processing operation more convenient, and improve the machining accuracy of converted products;Coupling scrap collecting tank, water cooling system and sprayer unit, the service life of high ray machine is long;Meanwhile, during the work of high ray machine, noise of equipment is low, and place uses cleaning.

Accompanying drawing explanation

Accompanying drawing is used for providing being further appreciated by of the present utility model, is not intended that restriction of the present utility model.In the accompanying drawings:

Fig. 1 is the overall structure schematic diagram of this novel high ray machine；

Fig. 2 is the decomposing schematic representation of Fig. 1；

Fig. 3 is this novel high ray machine partial structurtes schematic diagram；

Fig. 4 is this novel high ray machine Y-direction assembly and table device part-structure schematic diagram；

Fig. 5 is that this novel high ray machine X is to assembly, Z-direction assembly and frame head apparatus part-structure schematic diagram.

Detailed description of the invention

Below in conjunction with the accompanying drawings this utility model is described in further detail.

It is exemplary by the embodiment being described with reference to the drawings, it is intended to be used for explaining the application, and it is not intended that restriction to the application.In the description of the present application, it will be appreciated that, term " " center ", " longitudinally ", " laterally ", " length ", " width ", " thickness ", on " ", D score, " front ", " afterwards ", " left ", " right ", " vertically ", " level ", " push up ", " end " " interior ", " outward ", " clockwise ", orientation or the position relationship of the instruction such as " counterclockwise " are based on orientation shown in the drawings or position relationship, it is for only for ease of description the application and simplifies description, rather than indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that restriction to the application.Additionally, term " first ", " second " are only used for describing purpose, and it is not intended that instruction or hint relative importance or the implicit quantity indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can express or implicitly include one or more this feature.In the description of the present application, " several ", " multiple " are meant that two or more, unless otherwise expressly limited specifically.In this application, unless otherwise clearly defined and limited, term " is installed ", " being connected ", " connection ", the term such as " fixing " should be interpreted broadly, and connects for example, it may be fixing, it is also possible to be to removably connect, or be integrally connected；Can be to be mechanically connected, it is also possible to be electrical connection；Can be to be joined directly together, it is also possible to be indirectly connected to by intermediary, can be the connection of two element internals.For the ordinary skill in the art, above-mentioned term concrete meaning in this application can be understood as the case may be.In this application, unless otherwise clearly defined and limited, fisrt feature second feature it " on " or D score can include that the first and second features directly contact, it is also possible to include that the first and second features are not directly contact but by the other characterisation contact between them.And, fisrt feature second feature " on ", " top " and " above " include that fisrt feature directly over second feature and oblique upper, or is merely representative of fisrt feature level height higher than second feature.Fisrt feature second feature " under ", " lower section " and " below " include that fisrt feature directly over second feature and oblique upper, or is merely representative of fisrt feature level height less than second feature.

The specific embodiment of this novel high ray machine such as accompanying drawing 1-5 example.

With reference to accompanying drawing 1-3, a kind of double end height ray machine, including matrix 1, this matrix 1 is the granite matrix of slot type bed-type, matrix 1 arranges X to assembly 4, Y to assembly 2, Z-direction assembly 5 and control device (not shown).Wherein, described Y-direction assembly 2 is fixed on the table top of described matrix 1, described Y-direction assembly 2 is provided with a table device 3 that Y-direction can be driven to move by Y-direction assembly 2, on described matrix 1, it is also equipped with gantry 7, and gantry 7 is positioned at the rear portion of Y-direction assembly 2, described X is installed to assembly 4 on the crossbeam 71 at described gantry 7, described X is provided with Z-direction assembly 5 described in two to assembly 4, Z-direction assembly 5 described in two can be driven synchronization X to movement by described X to assembly 4, it is all provided with frame head apparatus 6 on each described Z-direction assembly 5, described frame head apparatus 6 sets Cutting tool installation manner position 61, milling cutter and the most right with the upper surface of described table device 3 is installed on each Cutting tool installation manner position 61, and Z-direction can be driven to move by described Z-direction assembly 5;nullDescribed table device 3 includes base plate 31 and some suckers 32,Described some suckers 32 are distributed on described base plate,As preferably，With reference to accompanying drawing 4，Base plate 31 in the present embodiment is provided with four suckers 32,And four sucker 32 on described base plate 31 in two row two row arrange，I.e. four suckers 32 are two row's distributions in Y-direction direction，And two suckers 32 of each row be arranged in parallel to direction at X,A pair vacuum absorption holes 33 it is shaped with on each described sucker 32,The all of equal pipeline of sucker 32 connects vacuum pump (not shown),Described control device controls vacuum pump work and controls X to assembly 4、Y mates action to assembly 2 and Z-direction assembly 5,Workpiece is fixed on sucker 32 by vacuum absorption holes 33 absorption,Two milling cutters installed on two frame head apparatus 6 are to two workpiece on same sucker 32 or the adjacent sucker of X-direction two 32 being carried out synchronization synchronous processing;To assembly and Z-direction component matching action, above-mentioned middle X refers to that Y-direction assembly drives table device 3 to move to assembly, Y, table device 3 is made to be placed under frame head apparatus 6, and to the action of assembly 4, X refers to that X drives Z-direction assembly 5 and frame head apparatus 6 mobile to (horizontal direction) along X to assembly 4, so that the milling cutter of frame head apparatus 6 is positioned at directly over workpiece, when milling cutter is positioned at directly over workpiece, Z-direction assembly 6 then on Z-direction direction (vertical direction) move up and down, make milling cutter carry out feed;Need explanation time, the interval that two frame head apparatus 6 are arranged in the X direction determines it and selects which kind of mode to be processed, simultaneously, in above-mentioned, when two milling cutters processing be two workpiece on the X two suckers 32 on direction time, can be that a sucker 32 adsorbs a workpiece owing to sucker 32 adsorbs the mode of workpiece or be that a sucker 32 adsorbs two workpiece, therefore during milling cutter processes, or to sucker 32 absorption two work piece operations, or on two sucker 32 same positions work pieces process (same position refer to vacuum absorption holes 33 sucker 32Y to front end or rear end).Also including being arranged on the electric cabinet 10 below described matrix 1 and scrap collecting tank 9, described scrap collecting tank 9 the most also docks with described table device 3 coupling, for collecting the scrap and waste liquid produced in the milling cutter course of processing;The shell backplate 10 for protection it is additionally provided with on the periphery of described matrix 1, one LED is installed on this shell backplate 10 according to assembly 11, and rotatably (90 ° of rotations in horizontal plane, vertical plane 180 ° rotation) the described table device of irradiation 3, described shell backplate 10 side is additionally provided with the industry control operating board 12 of rotatable and described control device electrical connection, this industry control operating board 12 input the command adapted thereto to work piece operations and show the parameter that each parts of high ray machine run.

Wherein, described frame head apparatus 6 also includes sprayer unit (not shown) and water cooling system (not shown), described sprayer unit matches in position with described Cutting tool installation manner position 61, for course of processing milling cutter and workpiece are lubricated, described water cooling system is then installed in the main shaft of frame head apparatus 6, milling cutter described in water-cooled in the course of processing.

Wherein, with reference to accompanying drawing 4, described Y-direction assembly 2 includes the line rail 21 that two Y-directions extend, and preferred quiet line rail advised by line, reduces the noise produced when equipment runs, two line rails 21 are parallel be located at the X of a pedestal 22 to dual-side on;It is equipped with a slide 23 on described two line rails 22, this slide 23 also Y-direction connecting plate 24 with described pedestal 22 is flexibly connected, described slide 23 upper surface is fixing installs described table device 3, the driving assembly of dividing into of described slide 23 lower surface (does not shows in figure, and this assembly can be selected for conventional design and implements), described driving assembly is connected with described slide 23, and drive described slide 23 along described two line rail 21Y to movement, namely Y-direction assembly 2 can drive table device 3 (Y-direction) before and after matrix to move, so that travelling workpiece, it is allowed to be processed by milling cutter.

As preferably, described driving means includes ball screw and servomotor, described ball screw one end connects described slide 23, the other end connects described servomotor, described servomotor provides the power needed for the rotation of described ball screw, and described ball screw rotates and drives described slide 23 and table device 3Y to translation；Meanwhile, before and after described two line rails 21, two ends are provided for the stopping means 25 preventing table device 3 from skidding off two line rails 21.

Wherein, with reference to accompanying drawing 5, described X includes illustrate only dee in the ball screw drive subcomponent (not shown) being installed on described crossbeam 71, drag chain 42(figure to assembly 4, and does not shows in its tank chain figure) and cross slide way 41;Described drag chain 42 is arranged at the upper surface of described crossbeam 71;Described ball screw drive subcomponent and cross slide way 41 are set on the Y-direction front end face of described crossbeam 71, and described ball screw drive subcomponent is arranged in the groove of described cross slide way 41, Z-direction assembly 5 described in activity clamping two on described cross slide way 41, and described Z-direction assembly 5 is connected with described ball screw drive subcomponent, described ball screw drive subcomponent can drive Z-direction assembly 5 described in two to synchronize towards X to movement along described cross slide way 41, namely along crossbeam 71 transverse shifting at relative gantry 7.And as preferably, described ball screw drive subcomponent (not showing its concrete structure in figure) includes being fixedly arranged on the bearing of described cross slide way 41 transverse ends, the two bearings ball screw supported, the slide block being located on ball screw and the servomotor driving ball screw to rotate, described in described slide block and two, Z-direction assembly 5 connects, described slide block counter ball screw rod moves, and drives described Z-direction assembly 5 to move left and right to direction at X.

Wherein, with reference to accompanying drawing 5, described Z-direction assembly 5 includes the vertical base 51 being connected with described X to assembly 4, the line slideway (not shown) that twice Z-direction extends it is provided with on described vertical base 51, one vertical slide 53, across and being flexibly connected therewith on two line slideways, described vertical slide 53 installs described frame head apparatus 6;Also include that screw rod is (in reality, screw rod is positioned under vertical slide 42, figure does not shows) and servomotor 52, this screw rod connects described vertical slide 53, and being driven rotation by this servomotor 52, this screw rod rotates and drives described vertical slide 53 to slide along line slideway described in two, drives described frame head apparatus 6 to lift on Z-direction direction, milling cutter feed the most vertically (Z-direction) is landed, and withdrawing then rises.

Above embodiment simply indicates that rather than limits this utility model, therefore all equivalences done according to the method described in this utility model patent claim change or modify, and are all included in this utility model patent claim.

Claims (10)

1. a double end height ray machine, it is characterised in that: include matrix, matrix arranges X to assembly, Y to assembly, Z-direction assembly and control device;Wherein, described Y-direction assembly is fixed on the table top of described matrix, and described Y-direction assembly is provided with one can be driven the table device that Y-direction moves, and the rear portion of described Y-direction assembly is also equipped with gantry, the crossbeam at described gantry is installed described X to assembly;Described X is provided with Z-direction assembly described in two to assembly, Z-direction assembly described in two can be synchronized X to movement by described X to Component driver, it is all provided with frame head apparatus on each described Z-direction assembly, described frame head apparatus sets Cutting tool installation manner position, install milling cutter and the most right with the upper surface of described table device on each Cutting tool installation manner position, and Z-direction can be driven to move by described Z-direction assembly;Described table device includes base plate and some suckers, described some suckers are distributed on described base plate, it is shaped with a pair vacuum absorption holes on each described sucker, described some suckers also pipeline connects vacuum pump, described control device controls the work of described vacuum pump and controls X to assembly, Y to assembly and Z-direction component matching action, workpiece is adsorbed on sucker by vacuum absorption holes, and two milling cutters carry out synchronous processing to two workpiece on same sucker or the adjacent sucker of X-direction two.

A kind of double end height ray machine the most according to claim 1, it is characterised in that: also including being arranged on the electric cabinet below described matrix and scrap collecting tank, described scrap collecting tank the most also docks with described table device coupling;The shell backplate for protection it is additionally provided with on the periphery of described matrix, one is installed in this shell backplate for irradiating the LED of described table device according to assembly, and described shell backplate side is additionally provided with the industry control operating board of rotatable and described control device electrical connection.

A kind of double end height ray machine the most according to claim 1, it is characterized in that: each described frame head apparatus is additionally provided with sprayer unit and water cooling system, described sprayer unit matches in position with described Cutting tool installation manner position, for course of processing milling cutter and workpiece are lubricated, described water cooling system is then installed in the main shaft of frame head apparatus, milling cutter described in water-cooled in the course of processing.

4. according to a kind of double end height ray machine described in claim 1-3 any one, it is characterised in that: described Y-direction assembly includes the line rail that two Y-directions extend, two line rails are parallel be located at the X of a pedestal to dual-side on;It is equipped with a slide on described two line rails, this slide is also flexibly connected with the Y-direction connecting plate of described pedestal, described slide upper surface is fixing installs described table device, described slide lower surface divide into driving assembly, described driving assembly is connected with described slide, and drives described slide to move along described two line rail Y-directions.

A kind of double end height ray machine the most according to claim 4, it is characterized in that: described driving means includes ball screw and servomotor, described ball screw one end connects described slide, the other end connects described servomotor, described servomotor provides the power needed for the rotation of described ball screw, and described ball screw rotates and drives described slide and table device Y-direction translation.

A kind of double end height ray machine the most according to claim 5, it is characterised in that: before and after described two line rails, two ends are equipped with the stopping means for preventing table device from skidding off two line rails, and described line rail is quiet line rail.

7. according to a kind of double end height ray machine described in claim 1-3 any one, it is characterised in that: described X includes ball screw drive subcomponent, drag chain and the cross slide way being installed on described crossbeam to assembly;Described drag chain is arranged at the upper surface of described crossbeam;Described ball screw drive subcomponent and cross slide way are set on the Y-direction front end face of described crossbeam, and described ball screw drive subcomponent is arranged in the groove of described cross slide way, Z-direction assembly described in two is installed on described cross slide way, and described Z-direction assembly is connected with described ball screw drive subcomponent, described ball screw drive subcomponent can drive Z-direction assembly described in two to synchronize X to movement along described cross slide way.

A kind of double end height ray machine the most according to claim 7, it is characterized in that: described ball screw drive subcomponent includes being fixedly arranged on the bearing of described cross slide way transverse ends, the two bearings ball screw supported, the slide block being located on ball screw and the servomotor driving ball screw to rotate, Z-direction assembly described in described slide block and two connects, described slide block counter ball screw rod moves, and drives Z-direction component synchronization X described in two to movement.

A kind of double end height ray machine described in any one the most according to Claim 8, it is characterized in that: each described Z-direction assembly all includes the vertical base being connected with described X to assembly, the line slideway that twice Z-direction extends it is provided with on described vertical base, one vertical slide, across and being flexibly connected therewith on two line slideways, described vertical slide installs described frame head apparatus;Also including screw rod and servomotor, this screw rod connects described vertical slide, and is rotated by this driven by servomotor, and this screw rod rotates and drives described vertical slide to slide along line slideway described in two, drives described frame head apparatus to lift on Z-direction direction.

10. according to a kind of double end height ray machine described in claim 1-3 any one, it is characterised in that: described base plate is provided with four suckers, and four suckers are arranged in two row two row on described base plate.