CN103128611B - Cutter continuous auto-feed system of processing and using method thereof - Google Patents

Abstract

The present invention provides a kind of cutter continuous auto-feed system of processing, including the auto feed system in X-axis, comprising: clamping precision rotation axle, including the plunger shaft being positioned in rotor adaptor, it includes gas port, piston boit, piston boit passes through precision spring connecting clip handle, and chuck is fixed on inside nose circle lid；Support module, including Y-direction, Z-direction slide unit and axle sleeve, containing parallel two cylinders referring to clamp；Rack module, including support, two-dimension adjustment seat, chevron, two-dimension adjustment seat is threaded connection and moves along Y-axis, Z-direction；Chuck and axle sleeve are positioned at same axis, refer to clamp coordination with parallel two.The precision rotation axle of this device has automatic holding function, it is equipped with support module, rack module, and utilize pneumatics, only need to feed and simply adjust the continuous auto-feed processing that can realize cutter in advance, ensureing that precision reduces feeding number of times simultaneously, improves automaticity, therefore can improve the working (machining) efficiency of precision cutting tool, reduce cost.

Description

Cutter continuous auto-feed system of processing and using method thereof

Technical field

The present invention relates to precision cutting tool process equipment field, particularly to a kind of cutter continuous auto-feed system of processing.

Background technology

Cutter (Cutting Tool) can have a direct impact for the machining accuracy of part as the professional tool of processing precise part in Digit Control Machine Tool, himself precision.Precision component is cutter by shear action cuts away workpiece clout and prepared, and in this process, cutter exists with piece surface and directly contacts and rub, and constantly weares and teares until scrapping.Improve the machining accuracy of part, can be by keeping the sharp keen degree of Tool in Cutting cutting edge, and the method improving cutter rotating speed realizes, but the latter is mainly the most relevant with the key technology of high-accuracy rotation main shaft, and the most difficult current acquisition of these technology.By comparison, reduce the processing cost of cutter, improve production efficiency and product quantity, be also the method with stronger practicality and feasibility.

In the related, use the five-axle linkage precision grinder being made up of X-axis, Y-axis, Z axis (along the axial translation shaft of respective coordinates) and B axle, C axle (precision rotation axle), wherein X-axis, Y-axis constitute horizontal plane two-dimension moving platform, Z axis is perpendicular to this horizontal plane, B axle is fixed on Z axis, main shaft with emery wheel group is fixed on the outfan below B axle, and bar is placed on C axle.This layout requirements tool bar, while precision rotation moves, also moves along a straight line with Y-axis, X-axis.But this motion mode determines the grinding machine that correlation technique is used the tool bar being unsuitable for directly processing elongated shape, because long bar exists the problem that whirling vibration deviation is excessive, be easily bent deformation in the course of processing, and this can cause tool sharpening precision not enough and bar scrappage raises.Therefore, in advance long tool bar can only be intercepted into the stock of actual tool length, then process by root feeding.The technique of this processing mode is loaded down with trivial details, needs artificial frequently feeding, in turn results in the decline of working (machining) efficiency and the rising of production cost, be unfavorable for high-volume, the Production requirement of high precision cutting tools.

Summary of the invention

For existing cutting tool machining device, long bar directly cannot be processed into technique feeding loaded down with trivial details, frequent that many cutters are caused, efficiency is low, cost is high drawbacks described above and problem, it is an object of the invention to provide a kind of can stablize, accurately cutter continuous auto-feed system of processing to the Continuous maching that long bar carries out auto-feed formula.

In order to achieve the above object, the present invention provides following technical scheme: a kind of cutter continuous auto-feed system of processing, including be positioned at lathe surface Y-axis, along the horizontal plane be vertically fixed in Y-axis and move along Y direction X-axis, be positioned at the column on rear side of Y-axis, X-axis, be perpendicular to the Z axis that horizontal plane is fixed on column, and the first precision rotation axle of being arranged on Z axis and main shaft below, described main shaft is the front end high-speed rotating shaft equipped with emery wheel group, it is characterized in that, also include the auto feed system being arranged in X-axis；

Described auto feed system includes: the clamping precision rotation axle being positioned in X-axis and moving in the X-axis direction, and it is along the support module of the coaxial far-end of feedstock direction, and it is along the rack module feeding oppositely extending place；

Described clamping precision rotation axle includes driving module, self-clamping module, described driving module includes rotor adaptor, it is bolted together on the rotor of motor, described self-clamping module includes plunger shaft, gas port, inducing QI annular groove, piston boit, nose circle lid, chuck handle, chuck, described plunger shaft is positioned in rotor adaptor, its intracavity contains the inducing QI annular groove of band gas port, described inducing QI annular groove connects pneumatic switch by gas-tpe fitting, possibly together with piston boit in described plunger shaft, its sidewall is fitted with plunger shaft inwall by the outer O of piston boit, the described piston boit front end chuck handle by precision spring with through nose circle lid is fixed screw and is connected with chuck handle, it is fixed with chuck by chuck mounting ring inside described nose circle lid；

Described support module includes Y-direction slide unit, the Z-direction slide unit being mutually perpendicular to install, it controls slide unit by Y-direction adjusting knob, Z-direction adjusting knob respectively and moves along Y-axis, Z-direction, described support module also includes that cylinder, axle sleeve, described cylinder outfan are parallel two finger clamps；Described chuck, axle sleeve are positioned at same axis, and described chuck, parallel two finger clamps are by pneumatic switch coordination, and it clamps, relaxation state is contrary；

Described rack module includes support and is positioned at two-dimension adjustment seat thereon, chevron, described two-dimension adjustment seat is made up of upper module, lower module, described upper module includes the bracket being fixed on connecting plate upper end, described bracket top is contained V-shaped groove and extends partially into the briquetting above V-shaped groove, screw rod is contained in bottom, and described screw rod is passed down through overhead gage, lower baffle plate and the vertical adjusting nut folded therebetween being fixed on connecting plate；Described lower module includes the fixed block that two symmetries are fixed on base plate, and two horizontal adjustment screw, after it is each passed through two bracers in the opposite direction along Z axis, with two fixed blocks respectively to threaded, described lower module is fixed on connecting plate lower end by the blend stop being connected on two fixed blocks.

Preferred as technique scheme, emery wheel for processing seven tool characteristics including front nose angle, rear nose angle is installed in described emery wheel group, described main shaft can do the rotation of certain angle with the first precision rotation axle, and described axle sleeve, chuck can carry out dismantling, replacing according to the outside dimension of tool bar.

Preferred as technique scheme, also includes the nozzle being fixed on rear-end of spindle, and it provides cutting fluid for adding at wheel grinding man-hour.

Preferred as technique scheme, inside described piston boit, and the inside and outside portion of rotor adaptor is mounted on O-ring seals.

Preferred as technique scheme, described support module also includes the slide unit lock screw for fixing slide unit position.

Preferred as technique scheme, described two-dimension adjustment seat has two, and it is rack-mount with a determining deviation along feedstock direction, and described briquetting is arranged on the both sides, top of bracket by briquetting screw.

Preferred as technique scheme, described chevron is fixed in the V-shaped groove of bracket by briquetting, and described briquetting extends to the lower surface of the part above V-shaped groove and contains down groove, and it is for location and the top of clamping chevron.

The present invention also provides for the using method of a kind of cutter continuous auto-feed system of processing, it is characterised in that containing following steps:

Q1: tool bar be placed in chevron, before charging to clamping precision rotation axle axis hole；

Q2: rotation vertical adjusting nut, horizontal adjustment screw are to adjust the position of bracket, until in the case of tool bar is fitted with chevron surface in its back-end, its front end can pass through clamping precision rotation axle；

Q3: rotation Y-direction adjusting knob, Z-direction adjusting knob, to adjust the position of axle sleeve, until axle sleeve and chuck are in coaxial, enable tool bar front end to pass through axle sleeve；

Q4: continue tool bar to be advanced into its front end near emery wheel group along feedstock direction, complete feeding；

Q5: select processor in the controls, starts process tool；

Q6: opening pneumatic switch, chuck clamping bar, clamping precision rotation axle drives bar to rotate, and X-axis drives clamping precision rotation axle and bar to do feed motion along X-direction simultaneously；

Q7: after tool sharpening completes, by the cut-out of whole of emery wheel group, X-axis drives clamping precision rotation axle and bar to continue to do feed motion along X-direction, starts to process next root cutter；

Q8:X axle reaches stop motion after feeding terminal, closes pneumatic switch, and parallel two refer to clamp clamping bar, and chuck loosens bar, and X-axis automatically returns to feeding starting point；

Q9: open pneumatic switch, chuck clamps bar again, parallel two refer to that clamp loosens bar, clamping precision rotation axle drives bar to rotate again, X-axis drives clamping precision rotation axle and bar automatically to do feed motion along X-direction simultaneously, repeat the above steps, it is achieved the continuous auto-feed processing of the long bar of cutter.

Preferred, in described step Q2, possibly together with following steps as above-mentioned using method:

Q10: rotate vertical adjusting nut so that it is while rotating in position, is threaded connection cooperation and drives screw rod, drives bracket to move along Z-direction；

Q11: screw a horizontal adjustment screw so that it is while Y direction forward travel, promoting an adjacent bracer to move in same direction, described bracer, by blend stop fixed thereon, drives bracket along the forward direction motion of this screw；

Preferred, in described step Q6, Q7, Q8, possibly together with following steps as above-mentioned using method:

Q12: open pneumatic switch, provides compressed air by gas-tpe fitting guide compression, and compressed air leads to plunger shaft by gas port, piston cavity pressure is made to increase, promoting piston boit outwards to exit plunger shaft, piston boit promotes chuck handle to move out, and makes precision spring compress；

Q13: chuck handle persistently moves out, until being expressed to chuck, chuck outer end concentric contraction, tool bar is clamped；

Q14: driven by motor rotor rotates, and rotor drives chuck handle, nose circle lid, chuck and tool bar to rotate, and provides the feed motion of circumferencial direction for tool sharpening process；

Q15: close pneumatic switch, piston cavity pressure disappears, and piston boit is pushed back in plunger shaft by precision spring, and piston boit drives chuck handle inward, and chuck recovers relaxed state, tool bar is loosened.

The cutter continuous auto-feed system of processing that the present invention provides, use and there is the precision rotation axle of automatic holding function and movably support module and rack module, form a standalone feature system to replace traditional X-axis-precision rotation axle two-dimension moving platform pattern, and utilize precise pneumatic technology, it is achieved that the continuous auto-feed processing of cutter.This device only need to feed and do simple adjustment in advance, long bar can be processed as many cutters the most automatically, by stress relieving and multi-point support, avoid bar that partial loop variation is occurring in the course of processing, and reduce its whirling vibration deviation, therefore, it is possible to reduce feeding number of times while ensureing machining accuracy and yield rate, improve automaticity, thus improve the working (machining) efficiency of precision cutting tool, reduce cost.

Accompanying drawing explanation

In order to be illustrated more clearly that the embodiment of the present invention or technical scheme of the prior art, the accompanying drawing used required in embodiment or description of the prior art will be briefly described below, apparently, accompanying drawing in describing below is only some embodiments of the present invention, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the structural representation of the cutter continuous auto-feed system of processing of the embodiment of the present invention.

Fig. 2 be the auto feed system of the cutter continuous auto-feed system of processing of the embodiment of the present invention structure after diagram.

Fig. 3 is the structural representation of the clamping precision rotation axle of the cutter continuous auto-feed system of processing of the embodiment of the present invention.

Fig. 4 is the structural representation of the support module of the cutter continuous auto-feed system of processing of the embodiment of the present invention.

Fig. 5 is the structural representation of the rack module of the cutter continuous auto-feed system of processing of the embodiment of the present invention.

Fig. 6 is the structural representation of the two-dimension adjustment seat of the cutter continuous auto-feed system of processing of the embodiment of the present invention.

Fig. 7 be the auto feed system of the cutter continuous auto-feed system of processing of the embodiment of the present invention structure before diagram.

Detailed description of the invention

Below in conjunction with the accompanying drawing of the present invention, technical scheme is carried out clear, complete description, it is clear that described embodiment is only a part of embodiment of the present invention rather than whole embodiments.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art are obtained under not making creative work premise, broadly fall into the scope of protection of the invention.

As shown in Figure 1, a kind of cutter continuous auto-feed system of processing that the embodiment of the present invention provides, including be positioned at lathe surface Y-axis 2, along the horizontal plane be vertically fixed in Y-axis 2 and move along Y direction X-axis 3, be positioned at the column 4 on rear side of Y-axis 2, X-axis 3, be perpendicular to the Z axis 5 that horizontal plane is fixed on column, and the first precision rotation axle 6 of being arranged on Z axis 5 and main shaft below 7, described main shaft 7 is the front end high-speed rotating shaft equipped with emery wheel group 8, it is characterized in that, also include the auto feed system 1 being arranged in X-axis 3.

As in figure 2 it is shown, described auto feed system 1 includes: the clamping precision rotation axle 11 being positioned in X-axis 3 and moving in the X-axis direction, and it is along the support module 21 of the coaxial far-end of feedstock direction, and it is along the rack module 31 feeding oppositely extending place.

nullAs shown in Figure 3，Described clamping precision rotation axle 11 includes driving module、Self-clamping module，Described driving module includes rotor adaptor 111，It is bolted together on the rotor of motor，Described self-clamping module includes plunger shaft 112、Gas port 113、Inducing QI annular groove 114、Piston boit 115、Nose circle lid 116、Chuck handle 117、Chuck 118，Described plunger shaft 112 is positioned in rotor adaptor 111，Its intracavity contains the inducing QI annular groove 114 of band gas port 113，Described inducing QI annular groove 114 connects pneumatic switch by gas-tpe fitting，Possibly together with piston boit 115 in described plunger shaft 112，Its sidewall is fitted with plunger shaft 112 inwall by the outer O 119 of piston boit，Described piston boit 115 front end chuck handle by precision spring 120 with through nose circle lid 116 is fixed screw 121 and is connected with chuck handle 117，It is fixed with chuck 118 by chuck mounting ring 122 inside described nose circle lid 116.

As shown in Figure 4, described support module 21 includes Y-direction slide unit 211, the Z-direction slide unit 212 being mutually perpendicular to install, it is controlled slide unit moved along Y-axis, Z-direction by Y-direction adjusting knob 213, Z-direction adjusting knob 214 respectively, described support module 21 also includes that cylinder 215, axle sleeve 216, the outfan of described cylinder 215 are parallel two finger clamps 217.

As it is shown in figure 5, described rack module 31 includes support 32, the two-dimension adjustment seat 33 being arranged on described support 32, and it is arranged on the chevron 34 on described two-dimension adjustment seat 33.

As shown in Figure 6, described two-dimension adjustment seat 33 is made up of upper module, lower module, described upper module includes the bracket 312 being fixed on connecting plate 311 upper end, described bracket 312 top is contained V-shaped groove and extends partially into the briquetting 313 above V-shaped groove, screw rod 314 is contained in bottom, and described screw rod 314 is passed down through overhead gage 315, lower baffle plate 316 and the vertical adjusting nut 317 folded therebetween being fixed on connecting plate 311；Described lower module includes the fixed block 319 that two symmetries are fixed on base plate 318, and two horizontal adjustment screw 320, after it is each passed through two bracers 321 in the opposite direction along Z axis, with two fixed blocks 319 respectively to threaded, described lower module is fixed on connecting plate 311 lower end by the blend stop 322 being connected on two fixed blocks 319.

As it is shown in fig. 7, described chuck 118, axle sleeve 216, chevron 34 are positioned at same axis.Described chuck 118, parallel two finger clamps 217 are by pneumatic switch coordination, and it clamps, relaxation state is contrary.Described axle sleeve 216, chuck 118 can carry out dismantling, replacing according to the outside dimension of tool bar.

As it is shown in figure 1, also include the nozzle 9 being fixed on main shaft 7 rear end, it provides cutting fluid for adding at wheel grinding man-hour.Emery wheel for processing seven tool characteristics including front nose angle, rear nose angle is installed in described emery wheel group 8.Described main shaft 7 can do the rotation of certain angle with the first precision rotation axle 6.

As it is shown on figure 3, have O 123 in piston boit described piston boit 115 is internally installed, O 124, the outer O 125 of rotor adaptor in described rotor adaptor 111 inner and outer portions is not provided with rotor adaptor.

As shown in Figure 4, described support module 21 also includes the slide unit lock screw 218 for fixing slide unit position.

As it is shown in figure 5, described two-dimension adjustment seat 33 has two, it is arranged on support 32 along feedstock direction with a determining deviation.Described chevron 34 is fixed in the V-shaped groove of bracket 312 by briquetting 313.

As shown in Figure 6, described briquetting 313 is arranged on the both sides, top of bracket 312 by briquetting screw 323.The lower surface that described briquetting 313 extends to the part above V-shaped groove contains down groove, and it is for location and the top of clamping chevron 34.

The embodiment of the present invention also provides for corresponding using method, containing following steps: tool bar be placed in chevron, before charging to clamping precision rotation axle axis hole；Rotation vertical adjusting nut, horizontal adjustment screw are to adjust the position of bracket, until in the case of tool bar is fitted with chevron surface in its back-end, its front end can pass through clamping precision rotation axle；Rotation Y-direction adjusting knob, Z-direction adjusting knob, to adjust the position of axle sleeve, until axle sleeve and chuck are in coaxial, enable tool bar front end to pass through axle sleeve；Continue tool bar to be advanced into its front end near emery wheel group along feedstock direction, complete feeding；Select processor in the controls, start process tool；Opening pneumatic switch, chuck clamping bar, clamping precision rotation axle drives bar to rotate, and X-axis drives clamping precision rotation axle and bar to do feed motion along X-direction simultaneously；After tool sharpening completes, by the cut-out of whole of emery wheel group, X-axis drives clamping precision rotation axle and bar to continue to do feed motion along X-direction, starts to process next root cutter；X-axis reaches stop motion after feeding terminal, closes pneumatic switch, and parallel two refer to clamp clamping bar, and chuck loosens bar, and X-axis automatically returns to feeding starting point；Open pneumatic switch, chuck clamps bar again, parallel two refer to that clamp loosens bar, clamping precision rotation axle drives bar to rotate again, X-axis drives clamping precision rotation axle and bar automatically to do feed motion along X-direction simultaneously, repeat the above steps, it is achieved the continuous auto-feed processing of the long bar of cutter.

Preferred as above-mentioned using method, performs according further to following steps: rotate vertical adjusting nut so that it is while rotating in position, is threaded connection cooperation and drives screw rod, drives bracket to move along Z-direction；Screw a horizontal adjustment screw so that it is while Y direction forward travel, promoting an adjacent bracer to move in same direction, described bracer, by blend stop fixed thereon, drives bracket along the forward direction motion of this screw.

Preferred as above-mentioned using method, perform according further to following steps: open pneumatic switch, compressed air is provided by gas-tpe fitting guide compression, compressed air leads to plunger shaft by gas port, piston cavity pressure is made to increase, promoting piston boit outwards to exit plunger shaft, piston boit promotes chuck handle to move out, and makes precision spring compress；Chuck handle persistently moves out, until being expressed to chuck, and chuck outer end concentric contraction, tool bar is clamped；Driven by motor rotor rotates, and rotor drives chuck handle, nose circle lid, chuck and tool bar to rotate, and provides the feed motion of circumferencial direction for tool sharpening process；Closing pneumatic switch, piston cavity pressure disappears, and piston boit is pushed back in plunger shaft by precision spring, and piston boit drives chuck handle inward, and chuck recovers relaxed state, tool bar is loosened.

X-axis, Y-axis, Z axis, the first precision rotation axle, clamping precision rotation axle all process through waterproof sealing, it is possible to wet the cutting in environment at tool sharpening normally works.

Rotor adaptor is directly anchored on the rotor of motor by screw, middle without other drive mechanism, it is to avoid to produce revolution gap and affect transmission accuracy.

The cutter continuous auto-feed system of processing that the present invention provides, automatic grip(per) feed function it is integrated with in precision rotation axle, and coordinate to support module and bracing frame, constitute one and be provided simultaneously with linear motion, rotary motion, automatically clamping, stable support, the standalone module of continuous feed function.This module is combined with original parts such as Y-axis, Z axis, emery wheel groups, and utilize precise pneumatic technology, chuck and parallel two coordinations referring to clamp are controlled by opening and closing pneumatic switch, achieve the auto-feed processing of tool bar, such that it is able to carry out the Continuous maching of many cutters on a root length bar, reduce feeding number of times, improve efficiency；Simultaneously, it is supported with support module axle sleeve and rack module bracket respectively at the bar two ends of elongate form, also solve the not enough problem even scrapped of machining accuracy that bar is caused due to stress bending, whirling vibration, therefore improve the processing stability in cutter batch production and yield rate.

When using this device, only in advance sufficiently long tool bar need to be fed and be done simple adjustment, can realize processing without the Automatic continuous of manual intervention.This solves the defect that charging is frequent, efficiency is low, cost is high that conventional tool grinding machine does not support long bar Continuous maching to be caused well, on the premise of ensureing machining accuracy, improve the automaticity that cutter machine adds, thus the production in enormous quantities for precision cutting tool provides higher feasibility.

The above; being only the detailed description of the invention of the present invention, but protection scope of the present invention is not limited thereto, any those familiar with the art is in the technical scope that the invention discloses; change can be readily occurred in or replace, all should contain within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with described scope of the claims.

Claims (8)

1. a cutter continuous auto-feed system of processing, including be positioned at lathe surface Y-axis, along the horizontal plane be vertically fixed in Y-axis and move along Y direction X-axis, be positioned at the column on rear side of Y-axis, X-axis, be perpendicular to the Z axis that horizontal plane is fixed on column, and the first precision rotation axle of being arranged on Z axis and main shaft below, described main shaft is the front end high-speed rotating shaft equipped with emery wheel group, it is characterized in that, also include the auto feed system being arranged in X-axis；

Described auto feed system includes: the clamping precision rotation axle being positioned in X-axis and moving in the X-axis direction, and it is along the support module of the coaxial far-end of feedstock direction, and it is along the rack module feeding oppositely extending place；

Described clamping precision rotation axle includes driving module, self-clamping module, described driving module includes rotor adaptor, it is bolted together on the rotor of motor, described self-clamping module includes plunger shaft, gas port, inducing QI annular groove, piston boit, nose circle lid, chuck handle, chuck, described plunger shaft is positioned in rotor adaptor, its intracavity contains the inducing QI annular groove of band gas port, described inducing QI annular groove connects pneumatic switch by gas-tpe fitting, possibly together with piston boit in described plunger shaft, its sidewall is fitted with plunger shaft inwall by the outer O of piston boit, the described piston boit front end chuck handle by precision spring with through nose circle lid is fixed screw and is connected with chuck handle, it is fixed with chuck by chuck mounting ring inside described nose circle lid；

Described support module includes Y-direction slide unit, the Z-direction slide unit being mutually perpendicular to install, it controls slide unit by Y-direction adjusting knob, Z-direction adjusting knob respectively and moves along Y-axis, Z-direction, described support module also includes that cylinder, axle sleeve, described cylinder outfan are parallel two finger clamps；Described chuck, axle sleeve are positioned at same axis, and described chuck, parallel two finger clamps are by pneumatic switch coordination, and it clamps, relaxation state is contrary；

Described rack module includes support and is positioned at two-dimension adjustment seat thereon, chevron, described two-dimension adjustment seat is made up of upper module, lower module, described upper module includes the bracket being fixed on connecting plate upper end, described bracket top is contained V-shaped groove and extends partially into the briquetting above V-shaped groove, screw rod is contained in bottom, and described screw rod is passed down through overhead gage, lower baffle plate and the vertical adjusting nut folded therebetween being fixed on connecting plate；Described lower module includes the fixed block that two symmetries are fixed on base plate, and two horizontal adjustment screw, after it is each passed through two bracers in the opposite direction along Z axis, with two fixed blocks respectively to threaded, described lower module is fixed on connecting plate lower end by the blend stop being connected on two fixed blocks.

A kind of cutter continuous auto-feed system of processing the most according to claim 1, it is characterized in that, emery wheel for processing seven tool characteristics including front nose angle, rear nose angle is installed in described emery wheel group, described main shaft can do the rotation of certain angle with the first precision rotation axle, and described axle sleeve, chuck can carry out dismantling, replacing according to the outside dimension of tool bar.

A kind of cutter continuous auto-feed system of processing the most according to claim 1, it is characterised in that also including the nozzle being fixed on rear-end of spindle, it provides cutting fluid for adding at wheel grinding man-hour.

A kind of cutter continuous auto-feed system of processing the most according to claim 1, it is characterised in that inside described piston boit, and the inside and outside portion of rotor adaptor is mounted on O-ring seals.

A kind of cutter continuous auto-feed system of processing the most according to claim 1, it is characterised in that described support module also includes the slide unit lock screw for fixing slide unit position.

A kind of cutter continuous auto-feed system of processing the most according to claim 1, it is characterised in that described two-dimension adjustment seat has two, and it is rack-mount with a determining deviation along feedstock direction, and described briquetting is arranged on the both sides, top of bracket by briquetting screw.

A kind of cutter continuous auto-feed system of processing the most according to claim 1, it is characterized in that, described chevron is fixed in the V-shaped groove of bracket by briquetting, and described briquetting extends to the lower surface of the part above V-shaped groove and contains down groove, and it is for location and the top of clamping chevron.

8. the using method of a cutter continuous auto-feed system of processing, it is characterised in that containing following steps:

Q1: tool bar be placed in chevron, before charging to clamping precision rotation axle axis hole；

Q2: rotation vertical adjusting nut, horizontal adjustment screw are to adjust the position of bracket, until in the case of tool bar is fitted with chevron surface in its back-end, its front end can pass through clamping precision rotation axle；

Q3: rotation Y-direction adjusting knob, Z-direction adjusting knob, to adjust the position of axle sleeve, until axle sleeve and chuck are in coaxial, enable tool bar front end to pass through axle sleeve；

Q4: continue tool bar to be advanced into its front end near emery wheel group along feedstock direction, complete feeding；

Q5: select processor in the controls, starts process tool；

Q6: opening pneumatic switch, chuck clamping bar, clamping precision rotation axle drives bar to rotate, and X-axis drives clamping precision rotation axle and bar to do feed motion along X-direction simultaneously；

Q7: after tool sharpening completes, by the cut-out of whole of emery wheel group, X-axis drives clamping precision rotation axle and bar to continue to do feed motion along X-direction, starts to process next root cutter；

Q8:X axle reaches stop motion after feeding terminal, closes pneumatic switch, and parallel two refer to clamp clamping bar, and chuck loosens bar, and X-axis automatically returns to feeding starting point；

Q9: open pneumatic switch, chuck clamps bar again, parallel two refer to that clamp loosens bar, clamping precision rotation axle drives bar to rotate again, X-axis drives clamping precision rotation axle and bar automatically to do feed motion along X-direction simultaneously, repeat the above steps, it is achieved the continuous auto-feed processing of the long bar of cutter.