CN206855147U - A kind of numerical control knife sharpener bed of five-axle linkage - Google Patents

Abstract

The utility model belongs to sharpening machine tool technology field, refers in particular to a kind of numerical control knife sharpener bed of five-axle linkage.It includes frame, and the orthogonal workbench of the direction of motion and fast headstock are provided with the frame；Transfer is installed on the fast headstock, transfer includes index dial, steering spindle is set in index dial, the axis of the steering spindle and the axis of workpiece spindle are mutually perpendicular to and are arranged in same level, the front end of the steering spindle is installed with deflecting plate, and deflecting plate is rotatably arranged on the leading section of index dial；Lowering or hoisting gear is provided with the deflecting plate, the lowering or hoisting gear includes lifting platform, and main shaft driving device is provided with lifting platform, and main shaft driving device includes main shaft, and the end set of main shaft has emery wheel, and the axis of main shaft and the axis of steering spindle are mutually perpendicular to；The axis of the steering spindle and the working face of emery wheel are located in a plane together.The utility model can process the complicated cutter of the cutting edge shapes such as wood cutter, valve cutter, screw die, screw tap automatically.

Description

A kind of numerical control knife sharpener bed of five-axle linkage

Technical field

The utility model belongs to sharpening machine tool technology field, refers in particular to a kind of numerical control knife sharpener bed of five-axle linkage.

Background technology

At present, can only be typically using artificial for as this kind of cutting edge shape of wood cutter and size cutter complicated and changeable The processing method of low speed grinding.Traditional sharpening machine is divided into grinding stone and abrasive machine：

The use of grinding stone is complete by hand, and not only efficiency is low, and physical demands is big.Further, since the material of grinding stone, granularity It is different, not necessarily coordinate with the cutter to be sharpened, it is difficult to ensure grinding quality, the uniformity of cutter blade after grinding Difference.

Abrasive machine has two classes：One kind is hand-driven grinder, during work, shakes abrasive machine on the other hand, the other hand sharpening cutter, moves Work is difficult to coordinate, and grinding quality is also just difficult to ensure that, the processing of different shape cutter is difficult in adapt to using above-mentioned hand-driven grinder, Processing efficiency is low, and the uniformity of cutter blade is poor after grinding, and the intensity difference of cutter, service life are short.In addition, above-mentioned hand grinder Machine, it is simply equipped, potential safety hazard to operating personnel is present and labor intensity is big, enterprises using the labor cost is high.

Another kind is exactly electric grinder, and emery wheel rotates at a high speed, and operating personnel hold blade close to wheel grinding, to operation There is potential safety hazard in personnel and labor intensity is big, and be difficult to form sharp cutter cutting edge.

In addition, being directed to waveform blade, it is characterized in that relief angle is basically unchanged, but rear Angle Position is with cutting edge shape Change and change, current machine can not can not meet that the emery wheel position of knife sharpener changes with relief angle position correspondence, therefore only Can be by manually completing, so, the quality of cutter blade is uneven, and extremely inefficient.

The content of the invention

The purpose of this utility model is to provide a kind of simple in construction, and the range of work is wide, and operating efficiency is high, the low numerical control of cost Sharpening lathe.

What the purpose of this utility model was realized in：

A kind of numerical control knife sharpener bed of five-axle linkage, including frame,

The orthogonal workbench of the direction of motion and fast headstock are provided with the frame；

The power clamping head for accommodating workpiece is installed, power clamping head includes workpiece spindle on the workbench；

Transfer is installed, transfer includes index dial, and steering spindle is set in index dial, described on the fast headstock The axis of steering spindle and the axis of workpiece spindle are mutually perpendicular to and are arranged in same level, and the front end of the steering spindle is installed with Deflecting plate, deflecting plate are rotatably arranged on the leading section of index dial；

Lowering or hoisting gear is provided with the deflecting plate, the lowering or hoisting gear includes lifting platform, main shaft is provided with lifting platform Drive device, main shaft driving device include main shaft, and the end set of main shaft has emery wheel, and the axis of main shaft and the axis of steering spindle It is mutually perpendicular to；

The axis of the steering spindle and the working face of emery wheel are located in a plane together.

Preferably, the rotational angle between the main shaft and horizontal line is a, and a scope is -30 ° -30 °.

Preferably, the lowering or hoisting gear includes the lifting seat and lifting platform being fixed on deflecting plate, lifting seat and lifting platform Between be provided with ball screw feeding drive mechanism, the ball screw feeding drive mechanism passes through lifting motor or feeding hand Wheel realizes the elevating movement of lifting platform.

Preferably, the power clamping head includes artifact-driven motor, reduction box, workpiece spindle and clamping disk, the driving Motor connection reduction box, the output end of the reduction box connect workpiece spindle by synchronous band structure, and the front end of the workpiece spindle is set It is equipped with clamping disk.

Preferably, lifting spindle adjusting means, the lifting spindle regulation are provided between the fast headstock and index dial Device includes being arranged on pedestal on fast headstock, is provided with the index dial mounting seat for installing index dial on pedestal, described point Several regulating bolts are provided with scale mounting seat between pedestal.

Preferably, the rear end of the steering spindle is installed with balancing weight.

Preferably, cooling system is provided with the frame, the cooling system includes the coolant being arranged in frame Collection device, coolant conveying arrangement and the cooling spray for being arranged on emery wheel side.

Preferably, digital control system is provided with the frame, the digital control system can control work by respective driving source Make platform, the feed motion of fast headstock and control steering spindle, main shaft, the speed of workpiece spindle or rotational angle.

The utility model is prominent and beneficial compared with prior art to be had the technical effect that：

The axis of the utility model steering spindle and the axis of workpiece spindle are mutually perpendicular to and are arranged in same level, main shaft Axis and the axis of steering spindle be mutually perpendicular to and the working face of the axis of the steering spindle and emery wheel is the same as being located at a plane It is interior.Said structure causes the operating point (operating point of emery wheel refers to the cusp position of emery wheel and face to be processed) of emery wheel, main shaft Axis and the axis of steering spindle are arranged in same processing plane, and the operating point of emery wheel is arranged on the axis of steering spindle On.When steering axes, the operating point of emery wheel is just into the center of rotation of emery wheel, the convenient position for accurately controlling the operating point Put, therefore the utility model by way of linkage, can be accurately controlled the operating point location of emery wheel to realize to complicated knife The processing of tool, the difficulty that lathe processes waveform blade is automatically broken through.

The utility model lifting spindle adjusting means can guarantee that steering spindle and workpiece spindle are disposed on the same plane, and ensure machine The machining accuracy of bed.

The rear end of the utility model steering spindle is installed with balancing weight, and balancing weight can solve the problems, such as rotary shaft unbalance stress, Improve the machining accuracy and service life of lathe.

The utility model by digital control system control workbench, fast headstock feed motion and control steering spindle, main shaft, The speed or rotational angle of workpiece spindle, easy to operate, machining accuracy is high.

The utility model can process the complicated knife of the cutting edge shapes such as wood cutter, valve cutter, screw die, screw tap automatically Tool.

Brief description of the drawings

Fig. 1 is structural representation of the present utility model.

Fig. 2 is the structural representation that the utility model removes frame.

Fig. 3 is left view of the present utility model.

Fig. 4 is the structural representation of workbench of the present utility model.

Fig. 5 is the structural representation of fast headstock of the present utility model.

Fig. 6 is a kind of machinable right view of cutter of the utility model.

Fig. 7 is the structural representation of the utility model emery wheel process tool relief angle.

Fig. 8 is the structural representation of the blade of the utility model cutter to be processed.

Fig. 9 is that the utility model treats the position of cutting edge shape and rotates the position relationship schematic diagram of angle a sizes.

Implication in figure represented by label：

1- frames；2- workbench；3- fast headstocks；4- main shafts；5- emery wheels；6- balancing weights；7- cooling sprays；8- wheel guards； 9- spindle motors；10- erecting beds；12- blades；

21- workpiece spindles；22- artifact-driven motors；23- reduction boxes；24- clamping disks；25- synchronization band structures；

31- index dials；32- steering spindles；33- deflecting plates；34- lifting platforms；35- lifting seats；36- feeds handwheel；37- bases Seat；38- index dial mounting seats；39- regulating bolts；

40- hand-operated wheels；41- guidance panels；42- moves door.

Embodiment

The utility model is defined to concept once：

Workpiece spindle axis is axis A；

Main-shaft axis is axis B；

Rotary shaft axis is axis C；

The grinding points of cutter and emery wheel are operating point D.

Specific embodiment is further described to the utility model below：

A kind of numerical control knife sharpener bed of five-axle linkage, including frame 1, the direction of motion is provided with the frame 1 and is mutually hung down Straight workbench 2 and fast headstock 3, workbench 2 do axial feed motion along Y-axis, and fast headstock 3 does axial feed motion along X-axis.

The workbench 2 is installed with erecting bed 10, and dynamic clamping head is installed on erecting bed 10, and power clamping head includes work Part axle 21, workpiece spindle 21 are set along Y direction, and workpiece spindle 21 is provided with cutter to be processed, cutter to be processed by clamping disk 24 The feed motion of Y-axis can be carried out by workbench 2.

Transfer is installed, transfer includes index dial 31, the patent No. 201320268424.7 on the fast headstock 3 A kind of structure of index dial is disclosed, its structure is applied to the utility model.Steering spindle 32 is set in the index dial 31, it is described Steering spindle 32 sets along X-direction and controlled by index dial 31 and turned to.The axis C of the steering spindle 32 and the axle of workpiece spindle 21 Line A is mutually perpendicular to and is arranged in same level, and the position relationship of the axis C and axis A can make cutter to be processed Grinding points are arranged on axis C.The front end of the steering spindle 32 is installed with deflecting plate 33, and deflecting plate 33 is rotatably arranged on index dial 31 leading section.The purpose of rotation of the steering spindle 32 is to allow emery wheel 5 to process blade 12 of different shapes.

Lowering or hoisting gear is provided with the deflecting plate 33, the lowering or hoisting gear includes lifting platform 34, installed on lifting platform 34 There is main shaft driving device, the spindle motor 9 that main shaft driving device includes main shaft 4 and drive shaft 4 is moved, the end of main shaft 4 is set The emery wheel 5 for processing the shape of blade 12 and relief angle is equipped with, wheel guard 8 is provided with outside emery wheel 5.The axis B of the main shaft 4 and The axis C of steering spindle 32 is mutually perpendicular to that (because the axis B of main shaft 4 is moved in YZ planes, axis C is perpendicular to XZ planes, therefore Any straight line in the vertical XZ planes of axis C).The lowering or hoisting gear can be according to the angle of inclination of machined surface (such as cutter Relief angle b), regulation emery wheel 5 and the relative altitude of steering spindle 32 adjusts the operating point D of emery wheel 5 position, and processes inclined plane.

As shown in fig. 6-7, the present embodiment lists the wood cutter of the eccentric setting of blade 12.

With the working face of emery wheel 5 with being located in a plane, the working face of emery wheel 5 refers to the axis C of the steering spindle 32 Operating point D rotates the plane formed with emery wheel 5, and the working face of emery wheel 5 can be rotated by the rotation of steering spindle 32.This practicality is new The purpose that type defines the working face of emery wheel 5 is to exclude to cause operating point D in a thickness direction with machining shape because of the thickness of emery wheel 5 Situation about changing, the preferred grinding wheel of the utility model, the smaller machining accuracy of thickness of grinding wheel are higher.

The axis C of the steering spindle 32 and the axis A of workpiece spindle 21 are disposed on the same plane, and emery wheel 5 and cutter Operating point D is all the time on the axis C of steering spindle 32, therefore when steering spindle 32 rotates, operating point D position will not change Become, in other words, when steering spindle 32 rotates, emery wheel 5 rotate around DQ (the utility model emery wheel 5 can carry out elevating movement, But meet following position relationship in the Z-axis direction：Emery wheel peak N height>The height of C axles>Emery wheel minimum point P height, Otherwise when steering spindle 32 rotates, the operating point D positions of emery wheel 5 can change therewith, the processing essence of uncontrollable operating point Degree).

Meanwhile the elevating movement of lowering or hoisting gear can change positions of the processing stand D on the circumference of emery wheel 5, i.e., filled by lifting The processing size for the relief angle b that have adjusted cutter is put, concrete principle is as follows：

During lathe reset condition, the axis B of main shaft 4 is horizontal and is arranged on the axis C of steering spindle 32 in same level, Operating point D now is at the M points of the periphery of emery wheel 5.When processing the relief angle b of blade 12, (relief angle b angle is typically downward Tilt, it is believed that when being the plane that processing tilts down), lowering or hoisting gear need to move downward, and operating point D is from M slowly to N direction Mobile (N is perfect condition operating point), the height h of decline can be extrapolated by the size according to relief angle b and the radius R of emery wheel 5 (i.e. BQ vertical distance).Height h is bigger, and operating point D is closer to N, and relief angle b is bigger, i.e. the angle of machined surface is bigger.

Conversely, when machined surface is inclined upwardly, lowering or hoisting gear moves upwards, and operating point D is slowly moved to P from M, and (P is reason Think operation point), elevated height h is bigger, and operating point D is bigger closer to P, the i.e. angle of machined surface.

Explanation in addition, the section that the utility model emery wheel 5 processes relief angle b end face is the circle consistent with the radius of emery wheel 5 Circular arc is shaped as between arc, the i.e. DT of the upper section of blade 12, preferably radius is that 100mm emery wheel 5 is processed, because The radius of emery wheel 5 is more more more than the size of blade 12, because DT appears as straightway.

Preferably, the rotation angle between the main shaft 4 and horizontal line is a, and a scope is -30 ° -30 °.This practicality is new The rotation angle a of type scope is to be the bigger the better, and the scope of application is wider, but structural stability and precision can decline, so Consider manufacturing cost, the stability of structure and precision factor, the scope that selection can be -30 ° -30 °, one side structural stability and Precision is high, and on the other hand its complex cutting tool that can process more than 95%, cost performance are very high.

Rotational angle a and cutting edge shape relation are explained with reference to Fig. 8-9, is illustrated below：

Such as the shape of blade 12 that Fig. 8 is wood cutter, EF sections, FG sections, GH sections and HI sections are broadly divided into.Its direction processed For E to I.

EF sections：It is on the occasion of mainly by the shape of grinding EF sections on the left of the operating point D of emery wheel 5 and thereafter to rotate angle a Angle；

FG sections：It is negative value to rotate angle a, mainly by the shape of grinding FG sections on the right side of the operating point D of emery wheel 5 and thereafter Angle；

GH sections：Similar to EF sections, it is on the occasion of mainly passing through the shapes of grinding GH sections on the left of the operating point D of emery wheel 5 to rotate angle a Shape and its relief angle；

HI sections：It is 0 to rotate angle a, and the shape and its relief angle of HI sections are mainly ground by the operating point D front ends of emery wheel 5；

As Fig. 9 be when cutting edge shape position and rotate angle a sizes position relationship schematic diagram (during horizontal line, a is 0；When the axis B of main shaft 4 is rotated clockwise, a be on the occasion of；When rotating clockwise, a is negative value), it is whole according to the reconfigurable of blade 12 Rotate angle a sizes：The radius of blade 12 is bigger, and it is smaller to rotate angle a；Conversely, the radius of blade 12 is smaller, angle a is rotated It is bigger.

Preferably, the lowering or hoisting gear includes the lifting seat 35 and lifting platform 34 being fixed on deflecting plate 33, lifting Ball screw feeding drive mechanism is provided between seat 35 and lifting platform 34, the ball screw feeding drive mechanism passes through lifting Motor or feeding handwheel 36 realize the elevating movement of lifting platform 34.After the utility model sets lifting motor, 6 axles connection will be become Dynamic knife sharpener, the scope of application can further increase.

Preferably, the power clamping head includes artifact-driven motor 22, reduction box 23 and clamping disk 24, artifact-driven electricity Machine 22 connects reduction box 23, and the output end of the reduction box 23 connects workpiece spindle 21, the workpiece spindle by synchronous band structure 25 21 front end is provided with clamping disk 24.Reduction box 23 of the present utility model can increase the output torque of artifact-driven motor 22；Together Step band structure 25 can increase the accuracy and stability of transmission, improve the quality of cutter, increase the competitiveness of product.

Clamping disk 24 of the present utility model is scroll chuck or quick chuck, the preferred BT40 quick chucks of quick chuck, Being mainly used in quick-clamping has the cutter of axostylus axostyle, such as screw die, screw tap, fluted drill etc..It can also pacify on the clamping disk 24 Cutter shaft is filled, is mainly used in cutter with holes, such as wood cutter etc., the cutter is located on cutter shaft and held by axle sleeve Face is fixed.

Preferably, lifting spindle adjusting means is provided between the fast headstock 3 and index dial 31, the lifting spindle is adjusted Regulating device includes the pedestal 37 being arranged on fast headstock 3, and the index dial for installing index dial 31 is provided with pedestal 37 and is installed Seat 38, several regulating bolts 39 are provided between pedestal 37 in the index dial mounting seat 38.The utility model is by dividing Four regulating bolts 39 on 38 4 angles of scale mounting seat, the axis C of steering spindle 32 height is adjusted, is allowed to and workpiece spindle 21 Axis A it is contour.

Preferably, it is installed with balancing weight 6 on the left of the rear end of the steering spindle 32.The utility model balancing weight 6 is used to balance The weight of lowering or hoisting gear and main shaft device on the right side of the front end of steering spindle 32, it can effectively prevent steering spindle 32 because force unbalance is led The problem of causing precision reduction and service life step-down.

Preferably, cooling system is provided with the frame 1, the cooling system includes the cooling being arranged in frame 1 Liquor collecting device, coolant conveying arrangement and the cooling spray 7 for being arranged on the side of emery wheel 5, cooling system are used to cool down cutter, The quality of cutter blade 12 can be improved.

Preferably, digital control system is provided with the frame 1, digital control system includes being arranged in frame 1 guidance panel 41 and hand-operated wheel 40, enter key, emergency stop switch, display screen etc. module, the hand-operated wheel 40 are provided with guidance panel 41 The feed motion of workbench 2, fast headstock 3 can be individually controlled by shaking handwheel, the digital control system can pass through respective driving The feed motion and control steering spindle 32, main shaft 4, the speed of workpiece spindle 21 or rotation of source control workbench 2, fast headstock 3 Angle.

Frame 1 of the present utility model includes hood, and the mobile door 42 of two fan side-to-side movements, mobile door 42 are provided with hood On be provided with clear glass, for protect operator and facilitate operator observe processing environment.

Procedure of processing：

First, lathe is resetted, the axis B of main shaft 4 is horizontal and is arranged on the axis C of steering spindle 32 in same level, this When operating point D at the M of the periphery of emery wheel 5.

2nd, clamping cutter, tool position is adjusted by turning of work piece axle 21, makes the position of blade 12 to the axis of workpiece spindle 21 Horizontal plane where A.

3rd, to knife, according to the size (eccentric cutter as depicted needs the size of conversion relief angle) of relief angle, regulation feeding Handwheel 36 or lifting motor, main shaft 4 and emery wheel 5 is reached corresponding working height, that is, determine work D position.

4th, digital control system is according to the parameter of cutter, is entered by respective driving source coordinated signals workbench 2, fast headstock 3 To moving and controlling steering spindle 32, main shaft 4, the speed of workpiece spindle 21 or rotational angle, the processing to blade 12 is realized.

Above-described embodiment is only preferred embodiment of the present utility model, not limits protection model of the present utility model according to this Enclose, therefore：All equivalence changes done according to structure of the present utility model, shape, principle, all should be covered by protection of the present utility model Within the scope of.

Claims (8)

1. a kind of numerical control knife sharpener bed of five-axle linkage, including frame (1), it is characterised in that：

The orthogonal workbench of the direction of motion (2) and fast headstock (3) are provided with the frame (1)；

Dynamic clamping head is installed, power clamping head includes workpiece spindle (21) on the workbench (2)；

Transfer is installed, transfer includes index dial (31), sets and turn in index dial (31) on the fast headstock (3) Axle (32), the axis of the steering spindle (32) and the axis of workpiece spindle (21) are mutually perpendicular to and are arranged in same level, institute The front end for stating steering spindle (32) is installed with deflecting plate (33), and deflecting plate (33) is rotatably arranged on the leading section of index dial (31)；

Lowering or hoisting gear is provided with the deflecting plate (33), the lowering or hoisting gear includes lifting platform (34), and lifting platform is pacified on (34) Equipped with main shaft driving device, main shaft driving device includes main shaft (4), and the end set of main shaft (4) has emery wheel (5), and main shaft (4) Axis and the axis of steering spindle (32) be mutually perpendicular to；

The axis of the steering spindle (32) is located in a plane together with the working face of emery wheel (5).

2. the numerical control knife sharpener bed of five-axle linkage according to claim 1, it is characterised in that：The main shaft (4) and level Rotating clip degree between line is a, and a scope is -30 ° -30 °.

3. the numerical control knife sharpener bed of five-axle linkage according to claim 1 or 2, it is characterised in that：The lowering or hoisting gear bag The lifting seat (35) and lifting platform (34) being fixed on deflecting plate (33) are included, is provided between lifting seat (35) and lifting platform (34) Ball screw feeding drive mechanism, the ball screw feeding drive mechanism are realized by lifting motor or feeding handwheel (36) The elevating movement of lifting platform (34).

4. the numerical control knife sharpener bed of five-axle linkage according to claim 3, it is characterised in that：The power clamping head includes Artifact-driven motor (22), reduction box (23) and clamping disk (24), artifact-driven motor (22) connection reduction box (23) are described to subtract The output end of fast case (23) connects workpiece spindle (21) by synchronous band structure (25), and the front end of the workpiece spindle (21) is provided with dress Chuck (24).

5. the numerical control knife sharpener bed of the five-axle linkage according to claim 1 or 4, it is characterised in that：The fast headstock (3) and Lifting spindle adjusting means is provided between index dial (31), the lifting spindle adjusting means includes being arranged on fast headstock (3) On pedestal (37), the index dial mounting seat (38) for installing index dial (31), the index dial are provided with pedestal (37) Several regulating bolts (39) are provided with mounting seat (38) between pedestal (37).

6. the numerical control knife sharpener bed of five-axle linkage according to claim 5, it is characterised in that：After the steering spindle (32) End is installed with balancing weight (6).

7. the numerical control knife sharpener bed of the five-axle linkage according to claim 1 or 6, it is characterised in that：Set on the frame (1) Be equipped with cooling system, the cooling system include the cooling liquid collecting device, the coolant conveying arrangement that are arranged in frame (1) with And it is arranged on the cooling spray (7) of emery wheel (5) side.

8. the numerical control knife sharpener bed of five-axle linkage according to claim 1, it is characterised in that：Set on the frame (1) Have a digital control system, the digital control system can be controlled by respective driving source workbench (2), fast headstock (3) feed motion with And control steering spindle (32), main shaft (4), the speed or rotational angle of workpiece spindle (21).