CN103481110B - Processing apparatus - Google Patents

Abstract

The present invention provides a kind of processing apparatus.This processing apparatus compact conformation, and can with machining tool relative to the relative movement direction of workpiece change accordingly, changing flexibly the blow-off direction of fluid from blowout jet pipe blowout, it is possible to be processed, removing efficiently on one side can flying add generation in man-hour.The processing apparatus (2) of the present invention includes: keeper main body (2A), and it is for keeping the machining tool (9) being processed workpiece (1), and this keeper main body (2A) can carry out relative movement relative to workpiece (1)；Blowout jet pipe (10), it is can be installed on keeper main body (2A) by the axis of machining tool (9) in the way of central rotation, and this blowout jet pipe (10) blows fluid to the processing recess (4) of workpiece (1).Utilize from blowing out the fluid that jet pipe (10) blows out, can remove produce along with processing by flying (14).

Description

Processing apparatus

Technical field

The present invention relates to the improvement of a kind of processing apparatus, the chip to producing when workpiece is processed of this processing apparatus, burr etc. can blow fluid by flying, and workpiece is processed while remove this can flying.

Background technology

All the time, such as on the resin-made formed body of instrument panel for vehicle etc., in order to make air-bag deployment, it is processed to form the cracking groove (cutting slot) as substantially rectangular (each corner of rectangle is fillet chamfer shape (shape of fillet) and is smoothly connected) processing recess.Such as by using the machining tools such as cutting element, this resin-made formed body is carried out secondary operations as cutting object or workpiece (workpiece), forms this cracking groove.

But, if the burr produced when forming cracking groove on this instrument board and chip etc. can remain in this cracking groove by flying, then, when the cracking groove making instrument board splits and makes air-bag deployment, this can may contact with air bag or disperse away by flying.

In order to solve this problem, blowout jet pipe is set in the resin-made formed body of instrument panel for vehicle etc., in order to prevent can remaining in cracking groove and periphery thereof by flying, while forming cracking groove by this resin-made formed body is processed, while spraying a fluid into cracking groove and periphery thereof from blowout jet pipe, thus the burr that may disperse and chip etc. can be removed by flying from this cracking groove.

Additionally, the smear removal device of known a kind of lathe, the smear removal device of this lathe is provided with blowout jet pipe in machining tool, while forming cutting slot on workpiece, while the moving direction rear side moved relative to workpiece from machining tool, blow fluid to cutting slot and remove the dust such as chip (referring for example to patent documentation 1).

Patent documentation 1: 6 No. 71539 publications of Japanese Unexamined Patent Publication

Summary of the invention

The problem that invention is to be solved

It addition, when forming processing recess on workpiece, it is sometimes desirable to during forming this processing recess, change the machining tool relative movement direction relative to workpiece.Such as cracking flute profile is become the strip of rectangle, in the operation processing this cracking groove, during processing, changes the machining tool relative movement direction relative to workpiece.

In this case, remove can be preferably formed as following structure, i.e. from the viewpoint of flying from efficiently, with machining tool relative to the relative movement direction of workpiece change accordingly, change flexibly the blow-off direction of fluid from blowout jet pipe blowout.

But, in conventional processing apparatus, the blowout jet pipe of jet fluid is fixed on the keeper main body for keeping machining tool, so when change machining tool is relative to the relative movement direction of workpiece, for relative movement direction after changing direction, the blowing direction of fluid changes, therefore existing differs remove the most efficiently produce while processing can this of flying bad.

It addition, use can with machining tool relative to the relative movement direction of workpiece change accordingly, change from blowout jet pipe blowout fluid blow-off direction structure in the case of, preferably do one's utmost this structure is formed as compact structure.

The present invention makes in view of the above circumstances, purpose is to provide the processing apparatus of a kind of cramped construction, this processing apparatus can with machining tool relative to the relative movement direction of workpiece change accordingly, change the blow-off direction of the fluid blown out from blowout jet pipe flexibly, can while workpiece is processed, remove efficiently add man-hour produce can flying.

For solving the scheme of problem

The processing apparatus of the present invention is characterised by, including: keeper main body, it is for keeping the machining tool being processed workpiece, and this keeper main body can carry out relative movement relative to this workpiece；Blowout jet pipe, it is can be installed on this keeper main body by the axis of machining tool in the way of central rotation, this blowout jet pipe is for blowing fluid to the processing recess of this workpiece, this processing apparatus is while being processed workpiece, and what removal produced along with this processing can flying.

The effect of invention

Use the present invention, the mode that can rotate centered by the axis of machining tool by blowout jet pipe, blowout jet pipe is arranged at keeper main body, and this keeper main body is for keeping the machining tool being processed workpiece, and this keeper main body can be relative to workpiece relative movement.Thus, it is possible to machining tool relative to the relative movement direction of workpiece change accordingly, change flexibly the blow-off direction of fluid from blowout jet pipe blowout such that it is able to removing this efficiently can flying.

Further, since make blowout jet pipe and keeper main body are enclosed in keeper main body by blowout jet pipe with being integrally forming, so processing apparatus densification can be made.

Accompanying drawing explanation

Fig. 1 is the integrally-built profile diagram of the processing apparatus representing embodiments of the invention.

Fig. 2 is the explanatory diagram of the internal structure representing the processing apparatus shown in Fig. 1.

Fig. 3 be represent embodiments of the invention processing apparatus can remove the explanatory diagram of schematic configuration of system by flying.

Fig. 4 is the explanatory diagram of the detailed construction representing the rotating mechanism shown in Fig. 2.

Fig. 5 is the schematic diagram representing the relation between the compressed-air actuated blow-off direction being blown and the relative movement direction of machining tool shown in Fig. 1.

Fig. 6 is the explanatory diagram of an example of the evaluation representing experimental result qualitatively.

Fig. 7 is the explanatory diagram of the variation 1 of the blowout jet pipe representing embodiments of the invention, a () is the explanatory diagram representing blowout jet pipe relative to the state before the angle of inclination change of the axis of machining tool, (b) is the explanatory diagram representing blowout jet pipe relative to the state after the angle of inclination change of the axis of machining tool.

Fig. 8 is the explanatory diagram of the variation 2 of the blowout jet pipe representing embodiments of the invention, is to represent blowing out the explanatory diagram that jet pipe arranges the example of multi-branched nozzle.

Detailed description of the invention

Below, the embodiment of the processing apparatus of the present invention it is described with reference to.

Embodiment

In FIG, reference 1 is workpiece (cutting object), and reference 2 is processing apparatus, and reference 3 is machine tool main body.

Workpiece 1 can be resin-made formed body, it is also possible to be metallic article, is the instrument panel for vehicle as resin-made formed body in this embodiment.Below, using formed on this instrument board as rectangle processing recess cracking groove (cutting slot) 4 in case of illustrate.

This processing apparatus 2 is generally made up of keeper main body 2A, clamping section 2B and dust cylinder 2C.Clamping section 2B is arranged on the top of keeper main body 2A and is clamped by the chuck assembly 3A of machine tool main body 3.It addition, shown herein as utilizing chuck that processing apparatus 2 is fixed on the example of machine tool main body 3, but in addition to chuck, it is also possible to utilize screw clamp etc. to be fixed.As in figure 2 it is shown, in keeper main body 2A as the above-below direction central part between clamping section 2B and dust cylinder 2C, be provided with the containing case 5 of rectangular shape for housing mechanism described later.

In the bottom of this dust cylinder 2C to be provided with the cylindric brush 6 cleaned in the way of workpiece 1.By forming this cylindrical shape brush 6 along many comb teeth of ring-type arranging.As in figure 2 it is shown, be provided with spindle drive motor 7 on the top of containing case 5.Output shaft at this spindle drive motor 7 is provided with main shaft 8, is provided with the cutting edge 9 as machining tool in the bottom of this main shaft 8.

Utilize spindle drive motor 7 to rotate and drive this cutting edge 9.This spindle drive motor 7 such as uses speedup spindle drive motor, the rotating speed of main shaft 8 for example, 10000rpm～50000rpm.

This dust cylinder 2C and cylindric brush 6 synergism and formed cutting edge 9 and blow out the encirclement space 11 that jet pipe 10 is surrounded.As it is shown on figure 3, this dust cylinder 2C connects dust collecting duct 12.This encirclement space 11 is connected with precipitron 13 by dust collecting duct 12.It addition, in this Fig. 3, reference 12a represents the effusion meter being arranged on dust collecting duct 12, reference 12b represents relief valve.It addition, this dust collecting duct 12 is here made up of flexible hose, but the present invention is not limited to this.

Precipitron 13 and blowout jet pipe 10 synergism and the chip that produces when being pumped in machining object 1 and burr etc. can flying 14, thus undertake a part using this can flying 14 from the function removed as the cracking groove 4 of processing recess.

In this containing case 5 of this keeper main body 2A, contain the rotating mechanism 15 making blowout jet pipe 10 rotate centered by the axis of main shaft 8 around cutting edge 9.As shown in Figure 1 and Figure 4, this rotating mechanism 15 is generally by driving motor 16, driving gear 17, driven gear 18 and connection Accessory Members 19 to constitute.

Utilize rotation control unit 16A being arranged at machine tool main body 3 to drive and control this driving motor 16.This rotation control unit 16A can be programmed for utilizing programme-control and with the change in the relative movement direction of cutting edge 9 accordingly, automatically blowout jet pipe 10 is made to rotate around the axis of cutting edge 9, this rotation control unit 16A can also be configured in the way of being manually entered, change with the relative movement direction of cutting edge 9 (using in the aspect also comprising the situation that workpiece 1 moves relative to cutting edge 9) accordingly, makes blowout jet pipe 10 rotate around the axis of cutting edge 9.

As schematically illustrated in Figure 4, connect Accessory Members 19 by fixing side Accessory Members 19a and rotary side Accessory Members 19b, 19b ' constitute.Fixing side Accessory Members 19a is fixed on the peripheral part of keeper main part 2A, and fixing side Accessory Members 19a is connected with air supply pipe 19c, and this air supply pipe 19c is arranged at the compressor of factory (the omitting diagram) supply compressed air as fluid certainly.By ball bearing 19b " etc. in the rotary side revolvable mode of Accessory Members 19b, this rotary side Accessory Members 19b is maintained at the peripheral part of keeper main body 2A, this rotary side Accessory Members 19b links with driven gear 18 by linking part 20 and is integrated.

Rotary side Accessory Members 19b ' is with revolvable mode and the Accessory Members 19a sliding contact of fixing side.The position facing with rotary side Accessory Members 19b ' in this fixing side Accessory Members 19a is formed with annular flow path 19d.As in figure 2 it is shown, this annular flow path 19d is connected with supply pipe 19c by access 19e.It addition, utilize containment member 19f to seal this fixing side Accessory Members 19a and rotary side Accessory Members 19b ', in case the leakage of compressed-air actuated air.

Blowout jet pipe 10 tilts in the way of not contacting with cutting edge 9 and main shaft 8, and blowout jet pipe 10 is bent into suitable shape and is supported by driven gear 18 and rotary side Accessory Members 19b.The blow-off outlet 10a of this blowout jet pipe 10 is towards the cracking groove 4 of workpiece 1, and the compressed air of this blowout jet pipe 10 is introduced mouth 10b and is connected with annular flow path 19d.

When driving motor 16 to make and to be allowed to rotate, make rotary side Accessory Members 19b, 19b by driving gear 17 and driven gear 18 ' rotate centered by main shaft 8, and make the blow-off outlet 10a of blowout jet pipe 10 rotate around the axis of cutting edge 9.

Effect

Here, as depicted in figs. 1 and 2, at cutting edge 9 relative on the relative movement direction of workpiece 1, the position relationship of the direction of rotation centered by the axis of cutting edge 9 of configuration blowout jet pipe 10, the blow-off outlet 10a making blowout jet pipe 10 follows the moving direction of cutting edge 9 from relative movement direction rear side, and from front, lateral relative movement direction, rear, relative movement direction along the bearing of trend blowing out pressurised air of cracking groove 4.

First, processing apparatus 2 is configured at machine tool main body 3, makes compressor (omitting diagram) work, and make precipitron 13 work.Then, as depicted in figs. 1 and 2, when make cutting edge 9 rotate an edge constant direction (arrow A direction) mobile time, workpiece 1 forms cracking groove 4, and produce at the periphery of cracking groove 4 can flying 14.

When the time comes, blowout jet pipe 10 follows the moving direction of cutting edge 9 from the relative movement direction rear side of cutting edge 9, utilize the compressed air blown out from the blow-off outlet 10a of blowout jet pipe 10, by the periphery being present in cracking groove 4 produced because of cutting or/and the chip of the depths of cracking groove 4 and produce cracking groove 4 periphery the burr to be seized etc. can flying 14, blow away to front, relative movement direction.As a result, can outwards be scanned out from cracking groove 4 by flying 14, be sucked into precipitron 13 via dust cylinder 2C and dust collecting duct 12.

As shown in arrow B in this Fig. 5, relative to cutting edge 9 relative to the initial relative movement direction of workpiece 1, change the cutting edge 9 relative movement direction relative to workpiece 1, and in the case of being continuously formed cracking groove 4, after changing the relative movement direction of cutting edge 9, driving motor 16 is made to be driven and make blowout jet pipe 10 rotate about the axis as shown by arrow C, make the compressed-air actuated blow-off direction from the blow-off outlet 10a blowout blowing out jet pipe 10, after changing the relative movement direction of cutting edge 9, it is still from moving direction rear lateral moving direction front side blowing out pressurised air.

Thus, can with cutting edge 9 relative to the relative movement direction of workpiece 1 change accordingly, change the compressed-air actuated blow-off direction from blowout jet pipe 10 blowout, from lateral relative movement direction, rear, the relative movement direction front side of cutting edge 9 along cracking groove 4 blowing out pressurised air.

nullFig. 6 is the experimental example of the present invention，Have rated and carry out on the basis of following condition、The removal of blowout jet pipe 10 can flying 14 go division result: so that the linearity groove forming the cracking each limit of groove 4 of rectangle is 60 degree with linearity groove institute angulation、75 degree、The mode of 90 degree sets cooked mode，Compressed-air actuated pressure is set as 0.1Mpa(MPa)、0.3Mpa(MPa)、0.5Mpa(MPa)，The compressed-air actuated blow-off direction blown away relative to lateral relative movement direction, rear, the relative movement direction front side of workpiece 1 from cutting edge 9 is set as 0 degree，And as benchmark, the compressed-air actuated blow-off direction blown away relative to lateral relative movement direction, front, the relative movement direction rear side of workpiece 1 from cutting edge 9 is set as 180 degree，The blow-off direction in the direction orthogonal relative to the relative movement direction of workpiece 1 with cutting edge 9 is set as 90 degree，Blowout jet pipe 10 is set as 60 degree relative to angle (90 θ) number of degrees of the axis of cutting edge 9.

Should be clear from according to Fig. 6 it can be understood as preferably when along the direction blowing out pressurised air blown away relative to lateral relative movement direction, rear, the relative movement direction front side of workpiece 1 from cutting edge 9, removing efficiently can flying 14.

Additionally, in this Fig. 6, sidewall (left) refers to the relative movement direction relative to cutting edge 9, it is positioned at the sidewall in the left side of cracking groove 4, sidewall (right) refers to the relative movement direction relative to cutting edge 9, it is positioned at the sidewall on the right side of cracking groove 4, bottom refers to the bottom of cracking groove 4, corner (left) is the corner that the corner can seen in left side when observing cracking groove 4 regards as left side, corner (right) is the corner that the corner can seen on right side regards as right side, here, corner (left) and corner (right) is definitely distinguished.

It addition, "○" represents the workpiece 1 of the adhesion amount almost without burr, " Δ " represents the workpiece 1 being attached with some burrs, and "×" represents the workpiece 1 being attached with a considerable amount of burr.

In the present embodiment, rotating mechanism 15 is formed as by driving motor 16, driving gear 17, driven gear 18 and connect the structure that Accessory Members 19 is constituted, but as long as be can with cutting edge 9 relative to the relative movement direction of workpiece 1 change accordingly, change the structure of the compressed-air actuated blow-off direction blown out from blowout jet pipe 10, be not limited to this.

Such as can also be formed as structure: blowout jet pipe 10 is installed on the rotary body that can rotate relative to keeper main part 2A, it is possible to change the compressed-air actuated blow-off direction from blowout jet pipe 10 blowout in a manual manner.

Additionally, here by connect Accessory Members 19 be formed as by the fixing side Accessory Members 19a being connected with air supply pipe 19c and with blowout jet pipe 10 rotary side Accessory Members 19b, 19b of being connected ' structure that constitutes, but the present invention is not necessarily limited to this structure, can also be in the range of rotation around axis not hindering blowout jet pipe 10, for example formed as the flexible hose being connected with compressor is connected to blow out the structure of jet pipe 10.

In a word, as long as can be by the axis of cutting edge 9 as in the way of central rotation using blowout jet pipe 10, blowout jet pipe 10 is installed on for keeping the cutting edge 9 being processed workpiece 1 and can be not limited to the structure of embodiment relative to the structure of keeper main body 2A of workpiece 1 relative movement.

Variation 1

Structure can also be formed as: in order to regulate the blowout jet pipe 10 tilt angle theta relative to the axis of cutting edge 9, the pipe component being formed with flexibility constitutes blowout jet pipe 10, as shown in the (a) and (b) of Fig. 7, using being arranged at the structure of mounting bracket component 20 ' of the bottom being arranged on keeper main body 2A as the regulation screw 20 of adjustment means, the advance and retreat of regulation screw 20 are utilized to change the tilt angle theta of blowout jet pipe 10.

Variation 2

Sometimes make the temperature of cutting edge 9 increase because of frictional heat during machining object 1, the rising of the temperature of workpiece 1, and cut can being sometimes attached on cutting edge 9 by flying 14 of generation.As a result, the sharpness that may make cutting edge 9 declines.Additionally, along with the temperature of cutting edge 9 rises, cutting edge 9 extends because of thermal expansion, the track of cracking groove is it can also happen that change.

But, use the present embodiment, owing to blowing on cutting edge 9 from a compressed-air actuated part for blowout jet pipe 10 blowout shown in Fig. 1 to Fig. 4, it is possible to cooling cutting edge 9, and will be attached to can remove by flying 14 on cutting edge 9.

Thus, the heating caused by friction of cutting edge 9 can be suppressed, by can the decline of sharpness of cutting edge 9 that causes of the attachment of flying 14, when as shown in Figure 8, be formed as arranging multi-branched nozzle 10c on blowout jet pipe 10, when the blow-off outlet 10d making this multi-branched nozzle 10c region be directly facing the structure of cutting edge 9, it is able to maintain that compact structure, and can blow away by flying 14 on cutting edge 9 can be will be attached to the most energetically, and cutting edge 9 can be cooled down such that it is able to the further decline of the sharpness of suppression cutting edge 9.

Utilizing rotation control unit 16A, with the angle corresponding relative to the relative movement direction angulation of workpiece 1 changed behind direction relative to the relative movement direction of workpiece 1 and cutting edge 9 changed before direction with cutting edge 9, driving motor 16 is made automatically to carry out rotating driving, with can with cutting edge 9 relative to the relative movement direction of workpiece 1 change accordingly, when making the blowout jet pipe 10 moving direction front after the rear, relative movement direction changed behind direction laterally changes direction blow fluid, can further improve the working (machining) efficiency of workpiece 1.

Above, with reference to the accompanying drawings of embodiments of the invention and variation, but embodiment and variation represent an example of the present invention or several example, the present invention is not only defined in the structure of embodiment or variation, do not affecting in the range of the internal feature of the present invention, various design alterations etc. can carried out.

Description of reference numerals

1, workpiece；2A, keeper main body；4, cracking groove (processing recess)；9, cutting edge (machining tool)；10, blowout jet pipe；14, can flying.

Claims (8)

1. a processing apparatus, it is characterised in that

This processing apparatus includes:

Keeper main body, it is for keeping the machining tool being processed workpiece, and this keeper main body can carry out relative movement relative to above-mentioned workpiece；

Blowout jet pipe, it is by connection Accessory Members can be installed on this keeper main body by the axis of the above-mentioned machining tool in above-mentioned keeper main body in the way of central rotation, and the processing recess that this blowout jet pipe is used for above-mentioned workpiece blows fluid,

Above-mentioned connection Accessory Members includes fixing side Accessory Members and rotary side Accessory Members,

Above-mentioned fixing side Accessory Members is fixed on the peripheral part of above-mentioned keeper main body,

Above-mentioned rotary side Accessory Members is can be maintained at the peripheral part of above-mentioned keeper main body in the way of rotating, and can rotate and to be kept in the way of above-mentioned fixing side Accessory Members sliding contact,

Annular flow path is formed on the face by above-mentioned rotary side Accessory Members side in the Accessory Members of above-mentioned fixing side,

Above-mentioned blowout jet pipe is supported by above-mentioned rotary side Accessory Members,

The air of above-mentioned blowout jet pipe is introduced mouth and is connected with annular flow path,

This processing apparatus, while being processed workpiece, can be removed produce along with this processing by flying.

Processing apparatus the most according to claim 1, it is characterised in that

Above-mentioned blowout jet pipe blows above-mentioned fluid relative on the relative movement direction of above-mentioned workpiece from front, lateral relative movement direction, rear, relative movement direction at above-mentioned machining tool.

Processing apparatus the most according to claim 1 and 2, it is characterised in that

In above-mentioned keeper main body in the way of forming encirclement space leading section and the above-mentioned machining tool of above-mentioned blowout jet pipe being surrounded, it is provided with the cylindric brush for cleaning above-mentioned workpiece.

Processing apparatus the most according to claim 3, it is characterised in that

Make by above-mentioned can flying suction remove dust collecting duct with utilize above-mentioned cylindric brush surround encirclement space be connected.

Processing apparatus the most according to claim 1, it is characterised in that

This processing apparatus is provided with rotation control unit, utilize this rotation control unit, with the angle corresponding relative to the relative movement direction angulation of above-mentioned workpiece changed behind direction relative to the relative movement direction of above-mentioned workpiece and above-mentioned machining tool changed before direction with above-mentioned machining tool, above-mentioned blowout jet pipe is made automatically to rotate around the axis of above-mentioned machining tool, with can with above-mentioned machining tool relative to the relative movement direction of above-mentioned workpiece change accordingly, moving direction front after making above-mentioned blowout jet pipe rear, relative movement direction after changing direction laterally change direction blows fluid.

Processing apparatus the most according to claim 1, it is characterised in that

Above-mentioned workpiece is resin-made formed body, above-mentioned keeper main body has the clamping section clamped by machine tool main body, utilizing above-mentioned machine tool main body to make above-mentioned keeper main body carry out relative movement relative to above-mentioned workpiece, the cutting recess utilizing above-mentioned machining tool to be formed on above-mentioned workpiece is cutting slot.

Processing apparatus the most according to claim 1, it is characterised in that

The above-mentioned blowout jet pipe angle of inclination relative to the axis of above-mentioned machining tool can be regulated.

Processing apparatus the most according to claim 1, it is characterised in that

Above-mentioned blowout jet pipe has the multi-branched nozzle portion spraying above-mentioned fluid to above-mentioned machining tool.