CN106181389A - Numerical control flank hole tapping lathe - Google Patents

Abstract

A kind of numerical control flank hole tapping lathe, including support, support surface configuration has working panel, also includes spindle motor, tapping motor, drives X-axis, driving Y-axis, driving Z axis, controller；X-axis is driven to be arranged on support surface parallel with working panel, drive Y-axis to support seat by X-axis and be vertically vertically set on driving X-axis surface, drive Z axis to support seat by Y-axis and be vertically set on driving Y-axis surface, spindle motor, tapping motor is arranged in parallel to each other and drives on Z axis and distance between and arbor parallel with driving Z axis is more than machined surface thickness, the surface of working panel is provided with lower lock block near the side driving X-axis, the side adjacent with lower lock block is provided with positioning strip, described spindle motor, tapping motor, drive X-axis, drive Y-axis, Z axis is driven to be connected with controller respectively.The present invention realizes workpiece carries out the most accurate flank hole and tapping simultaneously, effectively reduces cost of labor, improves working (machining) efficiency and quality.

Description

Numerical control flank hole tapping lathe

Technical field

The present invention relates to Drilling operation apparatus field, espespecially a kind of numerical control flank hole tapping lathe.

Background technology

Mechanical processing industry, is used for combining a casing, support, a mechanical mould whenever processing various different materials Group, even a whole set of automated machine equipment or streamline, always be unable to do without the flank hole at material, tapping.This work at present Sequence still uses hand drill milling machine to hole coordinate, even uses traditional fitter line to get the artificial mode side using electric hand drill ready Hole in face, then Manual tapping.Production efficiency is low, and quality is completely dependent on workman's industrial grade.Many times above-mentioned behaviour In work, arising that breaking of rod head unless you give your whole attention to it, fracture of wire such as attacks at the fortuitous event, is directed at material scrap.Man-hour scraps.

It is in order to two parts are combined by screw tightening, for reaching stress the main mesh of flank hole tapping Intensity, machinery industry all has strict standard to every kind of screw thread, depth of threat, aperture.Use the boring of hand-operated vertical drilling and milling machine, especially It is manually to use electric hand drill punching, because rotating speed is low or main shaft precision is low, can only use normal drill bit or white steel bit boring, this Planting drill bit the sharpest, chip removal is poor, and therefore bore diameter is bigger than normal, it is difficult to control precision.The most often because clamping is asked Topic, causes hole scattering, causes breaking cellular wall.In vast mechanical processing industry kind, there is a various milling, car, to bore, die cut etc. is each Plant various Digit Control Machine Tool the front or back of part is perfectly processed, but the last complete machine assembled is because of side Screw hole is installed and is affected overall precision by processing manually.The equipment performance of the most original design theory receives a lot of limit System.

Summary of the invention

For solving the problems referred to above, the present invention provides one workpiece can carry out the most accurate flank hole simultaneously and attack Tooth, effectively reduces cost of labor, improves working (machining) efficiency and the numerical control flank hole tapping lathe of quality.

For achieving the above object, the technical solution used in the present invention is: a kind of numerical control flank hole tapping lathe, including machine Seat, support is provided with working panel on front side of surface, the most also includes driving the driving X-axis moved along X, Y, Z axis direction, driving Y Axle, driving Z axis, spindle motor, tapping motor, controller；X-axis is driven to be arranged on the rear side on support surface and put down with working panel OK, drive Y-axis to support seat by X-axis and be vertically vertically set on driving X-axis surface, drive Z axis to support seat edge by Y-axis Working panel direction is vertically set on driving Y-axis surface, and spindle motor, tapping motor are arranged on driving Z axis in parallel to each other And with drive Z axis parallel, spindle motor, tapping motor arbor all relative with working panel, and the distance between arbor be more than work The machined surface thickness of part, the surface of working panel is provided with lower lock block near the side driving X-axis, working panel surface with under press The side that block is adjacent is provided with positioning strip, described spindle motor, tapping motor, drive X-axis, drive Y-axis, drive Z axis respectively with Controller connects.

The beneficial effects of the present invention is: the present invention is provided by driving X-axis, the driving Y moved along X, Y, Z axis direction Axle, drive Z axis, and be controlled arranging by controller, wherein drive Z axis along the setting of working face direction, spindle motor, attack Tooth motor in parallel to each other be arranged on driving Z axis on, workpiece is placed on working face, by controller control drive X-axis, Driving Y-axis to drive drives Z axis to move the bore position to workpiece side and carry out precise positioning along X-axis, Y direction, then control Drive Z axis to drive spindle motor to move along workpiece side surface direction to realize the automatization of workpiece side is precisely holed, subsequently Again tapping motor is realized the accurate tapping of automatization toward drilling out movement, it is achieved automatization precisely holes and tapping simultaneously, it is to avoid Manually boring and tapping and the position error that produces, is effectively improved efficiency and the precision of flank hole processing, saves processing Time, minimizing human cost；In addition by arranging lower lock block on working face, workpiece can be fixed, prevent boring During shake or shift and affect the precision of flank hole, and positioning strip is set in the side of lower lock block, can realize processing The location of part coordinate, it is not necessary to reset coordinate before processing, improves efficiency and the convenience of operation of processing.

Accompanying drawing explanation

Fig. 1 is the structural representation of the present invention；

Fig. 2 is the enlarged drawing in Fig. 1 at A；.

Fig. 3 is to drive X-axis, driving Y-axis, the explosive view of driving Z axis；

Fig. 4 is the explosive view driving Z axis.

Drawing reference numeral illustrates: 1-support；11-working panel；12-lower lock block；13-positioning strip；14-containment vessel；21-main shaft Motor；22-tapping motor；23-main shaft tapping motor cabinet；3-drives X-axis；31-X axis drive motor；32-X axial filament bar；33-X axle Feed screw nut；34-X axle slide rail；35-X axle slide block；Seat fixed by 36-screw mandrel；37-motor cabinet；4-drives Y-axis；41-Y axle drives electricity Machine；42-Y axial filament bar；43-Y axial filament stem nut；44-Y axle slide rail；45-Y axle slide block；46-Y axial filament pole socket；461-Y axle positions Hole；5-drives Z axis;51-Z axis drive motor；52-Z axial filament bar；53-Z axial filament stem nut；54-optical axis；The fixing lid of 55-optical axis； Hole, 551-Z axle location；6-controller；7-X axle supports seat；8-Y axle supports seat；81-hole slot；9-shaft coupling.

Detailed description of the invention

Referring to shown in Fig. 1-4, the present invention is about a kind of numerical control flank hole tapping lathe, including support 1, support 1 table It is provided with working panel 11 on front side of face, the most also includes spindle motor 21, tapping motor 22, drive and move along X, Y, Z axis direction Driving X-axis 3, drive Y-axis 4, drive Z axis 5, controller 6, drive X-axis 3 be arranged on support 1 surface rear side and and work surface Plate 11 is parallel, drives Y-axis 4 to support seat 7 by X-axis and is vertically vertically set on driving X-axis 3 surface, drives Z axis 5 to pass through Y Axle supports seat 8 and is vertically set on driving Y-axis 4 surface along working panel 11 direction, and spindle motor 21, tapping motor 22 are parallel to each other Be arranged on driving Z axis 5 on and with drive Z axis 5 parallel, spindle motor 21, arbor and working panel 11 phase of tapping motor 22 To and arbor between distance be provided with near the side driving X-axis 3 more than the thickness in work pieces process face, the surface of working panel 11 Lower lock block 12, the working panel 11 surface side adjacent with lower lock block 12 is provided with positioning strip 13, described spindle motor 21, tapping Motor 22, driving X-axis 3, driving Y-axis 4, driving Z axis 5 are connected with controller 6 respectively.

Compared to existing technology, the present invention is provided by driving X-axis 3, the driving Y-axis moved along X, Y, Z axis direction 4, drive Z axis 5, and be controlled arranging by controller 6, wherein drive Z axis 5 to arrange along working face 11 direction, main shaft electricity Machine 21, tapping motor 22 are arranged on driving Z axis 5 in parallel to each other, and workpiece is placed on working face 11, passes through controller 6 control to drive X-axis 3, drive Y-axis 4 to drive driving Z axis 5 to move the bore position to workpiece side carry out along X-axis, Y direction Precise positioning, then control drive Z axis 5 drive spindle motor 2 along workpiece side surface direction move realize to workpiece side from The accurate boring of dynamicization, the most again by by driving Y-axis and driving the effect of Z axis that tapping motor 21 is moved realization certainly toward drill hole The accurate tapping of dynamicization, it is achieved automatization precisely holes and tapping simultaneously, it is to avoid manually hole and the position error that produces, have Effect improves efficiency and the precision of flank hole, saves process time, reduces human cost, and wherein the distance between two arbors is more than work The thickness of part machined surface, it is ensured that wherein during a motor job, another idle motor will not withstand on workpiece；In addition pass through Lower lock block 12 is set on working face 11, workpiece can be fixed, prevent from boring procedure being shaken or shifting and affect side The precision of face boring, and positioning strip 13 is set in the side of lower lock block, the location to workpiece coordinate can be realized, it is not necessary in processing Before reset coordinate, improve efficiency and the convenience of operation of processing.

The most as Figure 2-3, X-axis drives motor 31, X-axis screw mandrel 32, set to drive X-axis 3 to include in the present embodiment X-axis slide rail 34 that the X-axis feed screw nut 33, two being connected on X-axis screw mandrel 32 be arranged in parallel, it is arranged on X-axis slide block on X-axis slide rail 34 35, X-axis slide rail 35 is arranged on rear side of support 1 surface and parallel with working panel 11, and X-axis screw mandrel 32 is arranged on two X-axis abreast Between slide rail 34, X-axis screw mandrel 32 two ends are fixed seat 36 by screw mandrel and are fixed, and X-axis drives motor 31 by shaft coupling 9 and X-axis silk One end drive connection of bar 32 is also fixed by motor cabinet 37, and X-axis supports seat and sets 7 and put X-axis slide block 35, X-axis feed screw nut 33 Surface, X-axis drive motor 31 be connected with controller 6；When driving X-axis 3 to work, control X-axis by controller 6 and drive motor 31 Rotate clockwise or counterclockwise, drive X-axis screw mandrel 32 to rotate so that X-axis feed screw nut 33 back and forth transports along X-axis screw mandrel 32 Dynamic, and then it is reciprocating along X-axis screw mandrel 32 to drive X-axis to support seat 7, owing to X-axis screw mandrel 32 be arranged in parallel with working face 11, Then by driving X-axis 3 to achieve the location of the boring to workpiece side X-direction, sliding with the X-axis that X-axis screw mandrel 32 be arranged in parallel Rail 34 is to improve the stability of movement with the effect of X-axis slide block 35, thus improves the precision of running fix.

The most as Figure 2-3, Y-axis drives motor 41, Y-axis screw mandrel 42, set to drive Y-axis 4 to include in the present embodiment Y-axis slide rail 44 that the Y-axis feed screw nut 43, two being connected on Y-axis screw mandrel 42 be arranged in parallel, it is arranged on Y-axis slide block on Y-axis slide rail 44 45, Y-axis screw rodb base 46, Y-axis screw rodb base 46 is fixed on X-axis vertically and supports on seat 7, and Y-axis slide rail 44 vertically arranges Y-axis The surface of screw rodb base 46, Y-axis screw mandrel 42 is arranged between two Y-axis slide rails 44 abreast, and Y-axis screw rodb base about 46 two ends are provided with Y Hole 461, axle location, the two ends of Y-axis screw mandrel 42 are arranged on hole 461, Y-axis location, and Y-axis drives motor 41 to be arranged on Y-axis screw rodb base The upper end of 46 is also connected with Y-axis screw mandrel 42 one end by shaft coupling 9, and Y-axis support seat 8 is arranged on Y-axis slide block 45, Y-axis screw mandrel spiral shell The surface of female 43, Y-axis drives motor 41 to be connected with controller 6；As the operation principle driving X-axis 3, Y-axis 4 is driven to work Time, control Y-axis by controller 6 and drive motor 41 to rotate clockwise or counterclockwise, drive Y-axis screw mandrel 42 to rotate so that Y Axial filament stem nut 43 is reciprocating along Y-axis screw mandrel 42, and then it is reciprocating along Y-axis screw mandrel 42 to drive Y-axis to support seat 8, by It is arranged vertically at Y-axis screw rodb base 46 surface in Y-axis screw mandrel 42 and Y-axis slide rail 44, and Y-axis screw rodb base 46 is vertically arranged in X-axis supports on seat 7, drives Z axis 5 moving up and down at the vertical direction driving X-axis 3 by driving Y-axis 4 to drive, it is achieved that right Workpiece side positions in the boring of Y direction, the Y-axis slide rail 44 wherein be arrangeding in parallel with Y-axis screw mandrel 42 and Y-axis slide block 45 Effect is to improve the stability of movement, thus improves the precision of running fix.

The most as in Figure 2-4, in the present embodiment, Z axis drives motor 51, Z axis screw mandrel 52, set to drive Z axis 5 to include Be connected on optical axis 54 that the Z axis feed screw nut 53, two of Z axis screw mandrel 52 front end be arranged in parallel, optical axis fixes lid 55, and described optical axis is fixed Covering 55 two ends and be provided with the Z axis location hole 551 corresponding with optical axis 54, Z axis screw mandrel 52 two ends, the fixing lid 55 of described optical axis is along work Panel 11 direction is fixed on Y-axis and supports on seat 8, and the two ends of optical axis 54 are arranged on hole 551, Z axis location, and described Z axis screw mandrel 52 is flat Row is arranged between two optical axises 54 and is fixed on hole 551, Z axis location, before Z axis feed screw nut 53 is fixed on the fixing lid 55 of optical axis End, described Z axis drives motor 51 to be arranged on optical axis and fixes the rear end of lid 55 and pass through the rear end of shaft coupling 9 and Z axis screw mandrel 52 even Connecing, described Z axis drives motor 51 to be connected with controller 6, and described spindle motor 21, tapping motor 22 are by main shaft tapping motor cabinet 23 are fixedly installed on optical axis fixes the lid outside of 55 and parallel with Z axis screw mandrel 52；When driving Z axis 5 to work, controlled by controller 6 Z axis processed driving motor 51 is toward rotating clockwise or counterclockwise, and then drives Z axis screw mandrel 52 to rotate, and due to Z axis screw mandrel spiral shell Female 53 are fixedly disposed on the fixing lid 55 of optical axis, and therefore Z axis screw mandrel 52 drives optical axis to fix lid 55, Z axis driving electricity when rotating Machine 51 moves along working face 11 direction, owing to spindle motor 21, tapping motor 22 are fixedly installed on outside the fixing lid 55 of optical axis And be arranged in parallel with Z axis screw mandrel 52, then spindle motor 21 can be driven to move on working face 11 toward working face 11 direction Workpiece carries out Drilling operation, controls Z axis by controller 6 subsequently and drives motor 51 to rotate toward rightabout, drives spindle motor 21 exit, then the arbor alignment boring of tapping motor 22 when controlling to drive Y-axis 4 to be moved by tapping motor 22 by controller 6, then Control to drive Z axis 5 to carry out tapping, wherein with Z axis screw mandrel in the arbor of tapping motor 22 moves into boring by controller 6 The effect of 52 two optical axises 54 be arrangeding in parallel is to improve the stability of movement, thus improves the precision of running fix, more enters one Step ground, Y-axis supports seat 8 surface and is provided with and optical axis 54, hole slot 81 that Z axis screw mandrel 52 is corresponding, and optical axis 54, Z axis screw mandrel 52 correspondence are worn It is located on hole slot 81 so that the fixing lid 55 of optical axis is movably disposed at Y-axis and supports on seat 8.

Specifically, in the present embodiment, the both sides of lower lock block 12 lower end are provided with driving cylinder, the work of described driving cylinder Plug is respectively fixedly disposed at the both sides of lower lock block 12 lower end, drives cylinder to be connected with pneumatic means, and pneumatic means is with controller 6 even Connect；After workpiece is positioned by positioning strip 13, then control pneumatic means by controller 6 and act on cylinder, drive the work of cylinder Plug moves down and drives lower lock block 12 to move down workpiece compression location, prevents from shaking in the course of processing or shifting, reduces The precision of flank hole.

Specifically, described driving X-axis, driving Y-axis, the upper end of driving Z axis are additionally provided with containment vessel 14.

In the present embodiment, X-axis drives motor 31, Y-axis to drive motor 41, Z axis to drive motor 51 use motor or watch Take motor, coordinate corresponding control system, according to the position of workpiece concrete flank hole processing, set by controller 6 After corresponding coordinate, X-axis can be controlled and drive motor 31, Y-axis to drive motor 41, Z axis to drive motor 51 to rotate, drive shaft electricity Machine 52 carries out Drilling operation to concrete coordinate position, owing to the side of working face 11 is provided with positioning strip 13, by location Bar 13 i.e. can determine that the mechanical coordinate of workpiece.

Additionally, spindle motor 2 can be with the alloy bit of clamping minimum 0.3mm.Therefore, the present invention can be at the thinnest 0.6mm The flank hole of sheet material.The work that artificial or machine tool cannot complete before can completing.Working range of the present invention can root According to the particular/special requirement of market or client, the longer screw mandrel guide rail of stroke is installed to realize being adjusted flexibly, can produce many based on this principle Plant the numerical control flank hole tapping lathe of model different volumes.Spindle motor 21 can also be installed according to various different use occasions Different capacity, different size, the main shaft electricity of different speed adjustable ranges is wide.Except being manually entered the basic function of coordinate location boring Outward, controller 6 can also read NC program file, installs boring, can complete flank hole on the arbor of spindle motor 21 Processing, installs tapping knife on the arbor of tapping motor 22, can realize tapping in boring.Realize multifunctional application.

Embodiment of above is only to be described the preferred embodiment of the present invention, not enters the scope of the present invention Row limits, on the premise of designing spirit without departing from the present invention, and this area ordinary skill technical staff technical side to the present invention Various deformation that case is made and improvement, all should fall in the protection domain that claims of the present invention determines.

Claims (7)

1. a numerical control flank hole tapping lathe, including support, support is provided with working panel on front side of surface, and its feature exists In, also include driving the driving X-axis moved along X, Y, Z axis direction, driving Y-axis, driving Z axis, spindle motor, tapping motor, control Device processed；Drive X-axis to be arranged on the rear side on support surface parallel with working panel, drive Y-axis to support seat along vertically side by X-axis To being vertically set on driving X-axis surface, drive Z axis to support seat by Y-axis and be vertically set on driving Y-axis table along working panel direction Face, spindle motor, tapping motor in parallel to each other be arranged on driving Z axis on and with drive Z axis parallel, spindle motor, tapping electricity The arbor of machine is all relative with working panel, and the distance between arbor is more than the machined surface thickness of workpiece, and the surface of working panel is leaned on The nearly side driving X-axis is provided with lower lock block, and the working panel surface side adjacent with lower lock block is provided with positioning strip, described master Spindle motor, tapping motor, driving X-axis, driving Y-axis, driving Z axis are connected with controller respectively.

Numerical control flank hole tapping lathe the most according to claim 1, it is characterised in that X-axis drives electricity to drive X-axis to include Machine, X-axis screw mandrel, the X-axis feed screw nut being socketed on X-axis screw mandrel, the two X-axis slide rails be arrangeding in parallel, it is arranged on X on X-axis slide rail Axle slide block, X-axis slide rail is arranged on rear side of support surface and parallel with working panel, and X-axis screw mandrel is arranged on two X-axis slide rails abreast Between, X-axis screw mandrel two ends are fixed seat by screw mandrel and are fixed, and X-axis drives motor to be driven even by one end of shaft coupling with X-axis screw mandrel Connecing and fixed by motor cabinet, X-axis supports seat and is arranged on X-axis slide block, the surface of X-axis feed screw nut, and X-axis drives motor and control Device connects.

Numerical control flank hole tapping lathe the most according to claim 1, it is characterised in that Y-axis drives electricity to drive Y-axis to include Machine, Y-axis screw mandrel, the Y-axis feed screw nut being socketed on Y-axis screw mandrel, the two Y-axis slide rails be arrangeding in parallel, it is arranged on Y on Y-axis slide rail Axle slide block, Y-axis screw rodb base, Y-axis screw rodb base is fixed on X-axis vertically and supports on seat, and Y-axis slide rail rail vertically arranges Y-axis The surface of screw rodb base, Y-axis screw mandrel is arranged between two Y-axis slide rails abreast, and the upper and lower two ends of Y-axis screw rodb base are provided with hole, Y-axis location, The two ends of Y-axis screw mandrel are arranged on hole, Y-axis location, Y-axis drive motor be arranged on Y-axis screw rodb base upper end and by shaft coupling and Y-axis screw mandrel one end connects, and Y-axis supports seat and is arranged on Y-axis slide block, the surface of Y-axis feed screw nut, and Y-axis drives motor and controller Connect.

Numerical control flank hole tapping lathe the most according to claim 1, it is characterised in that described driving Z axis includes that Z axis drives Galvanic electricity machine, Z axis screw mandrel, it is socketed in the Z axis feed screw nut of Z axis screw mandrel front end, two optical axises be arrangeding in parallel, the fixing lid of optical axis, institute Stating optical axis to fix lid two ends and be provided with the Z axis location hole corresponding with optical axis, Z axis screw mandrel two ends, described optical axis fixes cover rim work Panel direction is fixed on Y-axis and supports on seat, and the two ends of optical axis are arranged on hole, Z axis location, and described Z axis screw mandrel is set in parallel in two Between optical axis and be fixed on hole, Z axis location, Z axis feed screw nut is fixed on optical axis and fixes lid front end, and described Z axis drives motor to set Putting and fix the rear end of lid at optical axis and be connected with the rear end of Z axis screw mandrel by shaft coupling, described Z axis drives motor with controller even Connecing, described spindle motor is fixedly installed on optical axis by spindle motor seat and fixes the outside of lid and parallel with Z axis screw mandrel.

Numerical control flank hole tapping lathe the most according to claim 4, it is characterised in that described Y-axis supports seating face and sets Having and described optical axis, hole slot that Z axis screw mandrel is corresponding, described optical axis, Z axis screw mandrel correspondence are located on hole slot.

Numerical control flank hole tapping lathe the most according to claim 1, it is characterised in that the both sides of described lower lock block lower end Being provided with driving cylinder, the piston of described driving cylinder is respectively fixedly disposed at the both sides of lower lock block lower end, drives cylinder and gas Dynamic device connects, and pneumatic means is connected with controller.

Numerical control flank hole tapping lathe the most according to claim 1, it is characterised in that described driving X-axis, drive Y-axis, The upper end driving Z axis is additionally provided with containment vessel.