CN203804738U - Workpiece surface machining system - Google Patents

Abstract

The utility model provides a workpiece surface machining system, belongs to the technical field of machinery, and solves the problems that an existing polisher is low in production efficiency, and produced products are not consistent in precision. The workpiece surface machining device is arranged on the side of a machining center for machining a workpiece. The system comprises at least one group of grinding units and at least one polishing device for polishing the ground workpiece, wherein a mechanical arm and a plurality of grinders are arranged on each grinding unit; each mechanical arm can be used for continuously clamping workpieces machined by the machining center and conveying the workpieces to the grinder corresponding to the grinding unit where each mechanical arm is located to be ground according to a set sequence; each polishing device is positioned on the side of the corresponding grinding unit. The workpiece surface machining system has the advantages of high automation degree, high production efficiency and high machining efficiency.

Description

A kind of Surface Machining system of workpiece

Technical field

The utility model belongs to field of mechanical technique, relates to a kind of Surface Machining system of workpiece.

Background technology

In manufacturing industry, in order to guarantee product quality and its aesthetic appearance, the polishing of surface of the work and polishing are the important procedures in forming parts, for complicated appearance part, especially bathroom faucet, in casting profile and machine, add the problems such as the aspects such as size exist left-right deviation, wall thickness to differ, morpheme is different, cannot utilize special purpose machine tool to process.At present, conventional polishing grinding structure is mostly too simple, and it is difficult to realize the various complex-curved multiaxis Multi-orientation multi-angle grindings of carrying out.Therefore, existing polishing grinding mechanism cannot effectively precisely process, and it mostly still needs to rely on technical staff and grinds roughly, is difficult to guarantee the rubbing down effect of various workpiece.In addition, in sander field, defect due to device structure, conventionally cause workpiece positioning precision not high, and during polishing workpiece conventionally with holding workpiece, by both hands, swing workpiece translation-angle, and make the different parts of workpiece obtain the polishing of grinding wheel, not only inconvenient polishing, and waste time and energy.

Sanding and polishing machine is for processing some part sanding and polishings, processes different parts and has different sanding and polishing machines.As Chinese patent discloses a kind of Twp-sided polishing machine [application number: 201220325319.8; Notification number: CN202726687U], it comprises integrated disc portions and is located at the outer polishing and grinding head part on integrated disc portions side, outer ramming band head part, integrated disc portions, outer polishing and grinding head part, outer ramming band head part cooperating, place work piece in integrated disc portions, polishing and grinding head part, outer ramming band head part all can be processed the workpiece being placed in integrated disc portions.This two-sided sander can be realized automatic polishing so that workpiece reaches assigned address accurately by integrated disc portions, and workpiece can be realized automatically, gripping fast; And by each outer polishing and grinding head partly, outer ramming band head part is multi-shaft interlocked, the complete machine coordinating and unifying, can be to the various complex-curved polishings of carrying out.

Yet, the above-mentioned Twp-sided polishing machine part that also comes with some shortcomings.First, this Twp-sided polishing machine is not equipped with special workpiece machining set-up, workpiece just need to first carry out machined before sanding and polishing on other equipment so, then by staff, manually the workpiece after machined moulding being placed into one by one to the enterprising luggage of disk presss from both sides, this has not only wasted a large amount of labour intensity of operating personnel, has also directly reduced the production efficiency of enterprise simultaneously; And operating personnel cannot guarantee that the clamping angle of each workpiece is consistent, this just causes the uniformity after each Workpiece shaping inadequate, and precision is unified not.

Summary of the invention

The purpose of this utility model is the problems referred to above that exist for prior art, has proposed that a kind of automaticity is high, the Surface Machining system of production efficiency and the high workpiece of working (machining) efficiency.

The purpose of this utility model can realize by following technical proposal: a kind of Surface Machining system of workpiece, be arranged at workpiece is carried out to mach machining center sidepiece, it is characterized in that, this system comprises the burnishing device that the workpiece after at least one group of polishing unit completes polishing with at least one carries out polishing, on described polishing unit, there is manipulator and some sanders, described manipulator can clamp the good workpiece in machining center place machined constantly and polish according to setting sequentially-fed to the corresponding sander place, polishing unit at manipulator place, above-mentioned burnishing device is positioned at polishing unit sidepiece.

Operating personnel control the Surface Machining system of this workpiece by writing a set of complete control program, when machining center, to work the work piece into type good, manipulator according to control instruction, piece-holder is lived and is delivered to the sander of this manipulator in same polishing unit on carry out grinding process.Because native system comprises at least one group of polishing unit, the manipulator in the unit of therefore respectively polishing when holding workpiece also according to a definite sequence, as another manipulator after a manipulator clamping workpiece could clamp the workpiece in machining center.Owing to thering are some sanders in a polishing unit, therefore by polishing successively, can guarantee that workpiece just completes the required all polishing operations in its surface in the situation that of manipulator clamped one time in a polishing unit on these sanders.After polishing finishes, then workpiece is positioned in burnishing device and carries out polishing, so just can complete the processing that surface of the work is complete and process.

Because adding the position in man-hour, workpiece work in-process heart place remains unchanged; therefore actual, add man-hour; by numerical control programming, manipulator is accurately controlled; action while guaranteeing each workpiece of manipulator clamping is very accurate, stable; guarantee that the action on each sander in polishing unit is also identical, the precision of each workpiece processing like this and globality are just higher simultaneously.

In the Surface Machining system of above-mentioned workpiece, described manipulator comprises base, holding frame and clamping limb, described holding frame lower end is connected on base and can rotates with respect to base, above-mentioned clamping limb is connected to holding frame upper end and on clamping limb, has the chuck for holding workpiece, has the actuator one of after driving holding frame to rotate with respect to base and location on described holding frame.

The workpiece work in-process heart completes after processing, the holding frame of manipulator turns to machining center place with respect to base under the driving of actuator one, clamping limb on manipulator is by the piece-holder in machining center, then turn on each sander of polishing accordingly in unit with this manipulator and polish, until by surface of the work polishing to required precision.

In the Surface Machining system of above-mentioned workpiece, described actuator one comprise be connected in holding frame inner side ring gear, be connected in the rotary electric machine on base and be connected to the some idler gears on base, in the rotating shaft of above-mentioned rotary electric machine, be fixed with travelling gear one, above-mentioned idler gear is meshed with travelling gear one and ring gear simultaneously.

The rotating shaft of rotary electric machine is rotated, be connected in travelling gear one in the rotating shaft of rotary electric machine along with together rotating, and by the transmission of idler gear, power is finally converted into the rotation of ring gear, because ring gear is connected in holding frame inner side, so holding frame inner side just can be rotated with respect to base.

In the Surface Machining system of above-mentioned workpiece, described clamping limb middle part is hinged on holding frame upper end, above-mentioned chuck is positioned at clamping limb front end, has the actuator two that can drive clamping limb also to locate after its hinged place swings between the rear end of described clamping limb and holding frame.The middle part of clamping limb is hinged on the upper end of holding frame, by actuator two, can make clamping limb swing up and down, and can adjust like this height of clamping limb, facilitates the polishing of workpiece.

In the Surface Machining system of above-mentioned workpiece, described actuator two comprises connecting rod one, connecting rod two and is connected in the oscillating motor at holding frame middle part, in the rotating shaft of described oscillating motor, be fixed with drive plate, one end of above-mentioned connecting rod one is hinged on drive plate edge, one end of the other end of connecting rod one and connecting rod two is hinged, and the other end of connecting rod two and above-mentioned clamping limb rear end are hinged.

In the rotating shaft of oscillating motor, be fixed with drive plate, when the rotating shaft of oscillating motor is rotated, drive plate is along with rotating together, because one end of connecting rod one is hinged on the edge of drive plate, the other end of connecting rod one is hinged on one end of connecting rod two, therefore when drive plate rotates, can realize swinging up and down of clamping limb rear end.

In the Surface Machining system of above-mentioned workpiece, on described holding frame, there is the through hole running through, above-mentioned connecting rod one is positioned at Qie Qi two ends, through hole and from the two ends of through hole, stretches out respectively.

In the Surface Machining system of above-mentioned workpiece, described sander be take holding frame curved distribution as the center of circle, and each sander to the distance at holding frame place equates.

Sander be take holding frame, and as the center of circle, curved distribution and each sander to the distance at holding frame place all equates, manipulator clamping workpiece moves to next all identical with the distance of its sander in same polishing unit from a sander like this, the holding frame that is manipulator is all identical a displacement of polishing in unit, and setting has also facilitated operating personnel's numerical control programming like this.

In the Surface Machining system of above-mentioned workpiece, described sander is belt grinder, comprise case and the driving wheel, driven pulley and the abrasive band that are positioned at case, above-mentioned driving wheel and a dozen electric mill machines are connected, above-mentioned driving wheel and driven pulley are partly positioned at outside case, and above-mentioned abrasive band is enclosed within on driving wheel and driven pulley and is positioned at the polishing portion that the outside, abrasive band outside case is formed for workpiece to polish.

Polishing motor drives driving wheel to rotate, and finally make abrasive band rotate, by the outside, abrasive band abrasive band being enclosed within on driving wheel and driven pulley and outside being positioned at case, form polishing portion, when manipulator clamping workpiece contacts with polishing portion, just can make like this surface of workpiece in being polished state.

In the Surface Machining system of above-mentioned workpiece, the abrasive band abrasive particle size on the adjacent ground machine of described same polishing unit reduces successively.The abrasive particle size in the abrasive band of the adjacent ground machine in same unit increases successively or reduces, so the fineness in abrasive band is different, and workpiece is completed respectively after polishing on abrasive particle sander from big to small, and the polishing precision of surface of the work can be more and more higher.Certainly, in same polishing unit, utilizing manipulator clamping workpiece to polish on each sander according to the order of abrasive particle size is the setting order of programming personnel when programming, and when polishing, manipulator is also worked in polishing unit according to this setting order.

In the Surface Machining system of above-mentioned workpiece, in described case, also there is the grinding wheel that can be resisted against belt sanding portion inner side, described grinding wheel is that the diameter of a plurality of and each grinding wheel is different with the diameter of all the other grinding wheels, and described case is provided with the drives structure that can drive respectively grinding wheel to be resisted against same position inside belt sanding portion near grinding wheel place.For complicated workpiece, in same workpiece, the surface curvature at its each position is different, therefore can adopt corresponding grinding wheel according to the curvature at surface of the work position to be polished, by this grinding wheel top, press the inner side of belt sanding portion to form the curved surface with surface of the work position to be polished same curvature, be conducive to like this complete easily and quickly polishing.

In the Surface Machining system of above-mentioned workpiece, described drives structure comprises being positioned at the adjusting guide rail of case and being positioned at and regulates the slide block that can move along it on guide rail, above-mentioned grinding wheel is connected on slide block, described drives structure also comprises the grinding wheel actuator being arranged in case, described grinding wheel actuator and slide block is connected and make grinding wheel be resisted against the inner side in abrasive band under the driving of this grinding wheel actuator.

In the time need to carrying out the polishing of curved surface to the surface of workpiece, by grinding wheel actuator, drive slide block along regulating guide rail to move forward and make the grinding wheel on slide block to be resisted against the inner side in abrasive band, thereby the surface of workpiece is carried out to the polishing of curved surface.Certainly, this grinding wheel actuator can be cylinder or oil cylinder, and the piston rod of cylinder or oil cylinder and slide block are connected.

In the Surface Machining system of above-mentioned workpiece, between described polishing unit and burnishing device, there is the conveyer belt that can move horizontally.Manipulator clamping workpiece completes after polishing operation in polishing unit, manipulator is positioned over the workpiece that completes polishing on conveyer belt, conveyer belt is delivered to workpiece near burnishing device place, and operating personnel are positioned over the good workpiece of the polishing on conveyer belt in burnishing device, to carry out polishing.

In the Surface Machining system of above-mentioned workpiece, described burnishing device comprises polishing frame, fixture and polishing wheel, in described polishing frame, have along horizontally disposed polishing guide rail, above-mentioned fixture is positioned on polishing guide rail and fixture and can drive its polishing actuator moving to be connected, and the rotating shaft of above-mentioned polishing wheel and a polishing motor is connected and polishing wheel is positioned at polishing guide rail top.

The workpiece that operating personnel complete surface after polishing is positioned on the fixture in polishing machine, and polishing actuator drives fixture to move to polishing wheel place along polishing guide rail, and the rotating shaft rotating drive polishing wheel of polishing motor carries out polishing to the surface of the work on fixture.Certainly, polishing actuator can be cylinder or oil cylinder, and the piston rod of cylinder or oil cylinder and fixture are connected.

In the Surface Machining system of above-mentioned workpiece, the quantity of described polishing guide rail is two and be arranged in parallel, on each described polishing guide rail, be equipped with fixture, the quantity of above-mentioned polishing wheel is two and corresponding one by one with two above-mentioned polishing guide rails, and described two polishing wheels and same polishing motor are connected.Two fixtures and two polishing wheels are set in polishing frame, can to two workpiece, carry out surface finish work simultaneously, the production efficiency of workpiece is higher.

Compared with prior art, the Surface Machining system of this workpiece has the following advantages:

1, the Surface Machining system of this workpiece utilizes the manipulator in each polishing unit to clamp the workpiece in machining center, due to the intracardiac invariant position of workpiece work in-process, by manipulator, just can to each corresponding workpiece, clamp exactly, and each holding action is all identical, the polishing accuracy of workpiece not only can be improved, but also the uniformity of each workpiece can be guaranteed;

2, the Surface Machining system work in-process uniform some polishings of the heart surrounding unit of this workpiece, by the polish quantity of unit of increase, guarantee that the workpiece after machining center machined can obtain grinding process in time, improve the production efficiency of workpiece, improved again the operating efficiency of machining center simultaneously;

3, the Surface Machining system of this workpiece arranges some sanders in a polishing unit, abrasive particle size on each sander increases successively or reduces, workpiece is by completing successively all polishing operations at each sander, after polishing, the polishing precision of surface of the work is higher, can to surface of the work, carry out complex-curved polishing by leaning in the grinding wheel of inner side, abrasive band again, use value is higher, the scope of application is wider simultaneously;

4, that the sander of each polishing in unit be take to the holding frame of manipulator is circumferentially uniform as the center of circle for the Surface Machining system of this workpiece, the mobile route that assurance manipulator clamping workpiece moves to next sander from a sander is all identical, so not only greatly simplified numerical control programming, and make each step process of manipulator when polishing operation all keep identical, more laborsaving, efficiency is higher;

5, the Surface Machining system of this workpiece utilizes burnishing device automatically workpiece to be carried out to polishing after staff is positioned on fixture by workpiece, makes the automaticity of this system of processing higher, saves time and laborsaving.

Accompanying drawing explanation

Fig. 1 is the structural representation of structure of the Surface Machining system of this workpiece.

Fig. 2 is the structural representation of sander in the Surface Machining system of this workpiece.

Fig. 3 is side view when sander does not have case in the Surface Machining system of this workpiece.

Fig. 4 is the side view when grinding wheel in sander is resisted against inside abrasive band in the Surface Machining system of this workpiece.

Fig. 5 is the structural representation of manipulator in the Surface Machining system of this workpiece.

Fig. 6 is the structural representation of burnishing device in the Surface Machining system of this workpiece.

Fig. 7 is the cutaway view at actuator one place in the Surface Machining system of this workpiece.

Fig. 8 is the top view at actuator one place in the Surface Machining system of this workpiece.

Fig. 9 is the simple and easy schematic diagram at actuator two places in the Surface Machining system of this workpiece.

In figure, 1, machining center; 2, manipulator; 3, sander; 4, case; 5, driving wheel; 6, driven pulley; 7, abrasive band; 8, polishing motor; 9, grinding wheel; 10, base; 11, holding frame; 12, clamping limb; 13, rotary electric machine; 14, travelling gear one; 15, connecting rod one; 16, connecting rod two; 17, oscillating motor; 18, burnishing device; 19, conveyer belt; 20, regulate guide rail; 21, slide block; 22, polishing frame; 23, fixture; 24, polishing wheel; 25, polishing guide rail; 26, polishing motor; 27, mounting bracket; 28, ring gear; 29, idler gear; 30, drive plate; 31, through hole.

The specific embodiment

Be below specific embodiment of the utility model by reference to the accompanying drawings, the technical solution of the utility model is further described, but the utility model be not limited to these embodiment.

Embodiment mono-

As shown in Figure 1, a kind of Surface Machining system of workpiece, is arranged at workpiece is carried out to mach machining center 1 sidepiece, and this system comprises polishing unit, burnishing device 18 and is arranged at the conveyer belt that can move horizontally 19 between polishing unit and burnishing device 18.The quantity of polishing unit is 3 and is distributed in machining center 1 surrounding to have manipulator 2 and 4 sanders 3 on each polishing unit.In each polishing unit, be equipped with mounting bracket, manipulator 2 and each sander 3 are all installed on mounting bracket 27, mounting bracket 27 is fan-shaped, and manipulator 2 is fixed on the center of mounting bracket 27, and each sander 3 is uniformly distributed on the curved edge of mounting bracket 27.

As shown in Fig. 5, Fig. 7 and Fig. 8, manipulator 2 can be polished by the machining center 1 place piece-holder that machined is good and according to setting sequentially-fed to corresponding sander 3 places.Manipulator 2 comprises base 10, holding frame 11 and clamping limb 12, holding frame 11 lower ends are connected on base 10 and can rotate with respect to base 10, clamping limb 12 middle parts are hinged on holding frame 11 upper ends, the actuator one on holding frame 11 with after driving holding frame 11 to rotate with respect to base 10 and location, actuator one comprises the ring gear 28 that is connected in holding frame 11 inner sides, be connected in the rotary electric machine 13 on base 10 and be connected to the some idler gears 29 on base 10, in the rotating shaft of rotary electric machine 13, be fixed with travelling gear 1, idler gear 29 is meshed with travelling gear 1 and ring gear 23 simultaneously.

As shown in Fig. 5 and Fig. 9, clamping limb 12 front ends have the chuck for holding workpiece, between the rear end of clamping limb 12 and holding frame 11, there is the actuator two that can drive clamping limb 12 also to locate after its hinged place swings, actuator two comprises connecting rod 1, connecting rod 2 16 and the oscillating motor 17 that is connected in holding frame 11 middle parts, in the rotating shaft of oscillating motor 17, be fixed with drive plate 30, one end of connecting rod 1 is hinged on the edge of drive plate 30, one end of the other end of connecting rod 1 and connecting rod 2 16 is hinged, the rear end of the other end of connecting rod 2 16 and clamping limb 12 is hinged, on holding frame 11, there is the through hole 31 running through, connecting rod 1 is positioned at the two ends of through hole 31 places and connecting rod 1 and stretches out from the two ends of through hole 31.

As depicted in figs. 1 and 2, sander 3 be take holding frame 11 circumferential curved distribution as the center of circle of manipulator 2, sander 3 is belt grinders, comprise case 4 and be positioned at driving wheel 5, driven pulley 6 and the abrasive band 7 of case 4, the abrasive particle size in the abrasive band 7 in same polishing unit on adjacent each sander 3 reduces successively.Driving wheel 5 is connected with a dozen electric mill machines 8, and driving wheel 5 and driven pulley 6 parts are positioned at outside case 4, and abrasive band 7 is enclosed within on driving wheel 5 and driven pulley 6 and is positioned at the polishing portion that 7 outsides, abrasive band outside case 4 are formed for workpiece to polish.

As shown in Figure 3 and Figure 4, in case 4, also have the grinding wheel 9 that can be resisted against 7 polishing portion inner sides, abrasive band, in the present embodiment, the quantity of grinding wheel 9 is set to 3, in same sander 3, each grinding wheel 9 is taken turns the curvature of curved surface difference on limit, and each grinding wheel 9 is different from the diameter of all the other grinding wheels 9.Inherent each grinding wheel 9 places of case 4 are equipped with the drives structure that can drive grinding wheel 9, each drives structure includes and is arranged in case 4 the adjusting guide rail 20 corresponding with grinding wheel 9 separately and is arranged on adjusting guide rail 20 and has the slide block 21 that can move along it, each grinding wheel 9 is connected on each self-corresponding slide block 21, and this drives structure also comprises the grinding wheel actuator that is positioned at case 4 and is connected with slide block 21.Grinding wheel actuator is cylinder, and the piston rod of cylinder is connected mutually with slide block 21, and under the promotion of the piston rod of cylinder, can make grinding wheel 9 on the slide block corresponding with this cylinder 21 lean in abrasive band 7 inner side.

In case 4, have with three grinding wheels 9 and regulate one to one guide rail 20, the identical acute angle of angulation between adjacent adjusting guide rail 20, and each grinding wheel 9 between two all can lean in abrasive band 7 same position.

As shown in Figure 6, burnishing device 18 is positioned at polishing unit sidepiece, burnishing device 18 comprises polishing frame 22, fixture 23 and polishing wheel 24, in polishing frame 22, have along horizontally disposed polishing guide rail 25, fixture 23 be positioned on polishing guide rail 25 and fixture 23 with can drive its polishing actuator moving to be connected, polishing actuator can be cylinder or oil cylinder, by the piston rod of cylinder or oil cylinder is connected with fixture 23.The rotating shaft of polishing wheel 24 and polishing motor 26 is connected and polishing wheel 24 is positioned at polishing frame 22 tops.In the present embodiment, the quantity of polishing guide rail 25 is two and be arranged in parallel, on each polishing guide rail 25, is equipped with fixture 23, two of the quantity of polishing wheel 24 and corresponding one by one with two polishing guide rails 25, and two polishing wheels 24 are connected with same polishing motor 26.Polishing wheel 24 is positioned at the top of polishing guide rail 25, and the two ends of the rotating shaft of polishing motor 26 are protruding from the casing of polishing motor 26 respectively, and two polishing wheels 24 are connected to the rotating shaft two ends of polishing motor 26.

Actual, add man-hour, can a four-axle linked manipulator be set the work in-process heart 1 place, utilize four-axle linked manipulator automatically to clamp blank and work in-process automatic charging in the heart.After the 1 machined moulding of the workpiece work in-process heart, under the programme-control that the holding frame 11 of the manipulator 2 in each unit of polishing writes operating personnel, rotate, thereby the chuck that turns to machining center 1 place and clamping limb 12 front ends along with holding frame 11 of the clamping limb 12 on manipulator 2 is lived the piece-holder of moulding, and then turn to the sander 3 of this manipulator 2 in same polishing unit on carry out surface finish.The Surface Machining system of this workpiece is that the complete program of the whole series of writing by operating personnel is controlled, and each process is strictly controlled by program.

Owing to thering are 4 sanders 3 in same polishing unit, and the abrasive particle size in the abrasive band 7 of each sander 3 reduces successively, therefore clamping limb 12 holding workpieces when manipulator 2 complete after the required all polishing operations in its surface on First sander 3, the polishing precision that moves to again surface of the work while again completing same polishing operation on next sander 3 will be higher than the polishing precision of a upper sander 3, until complete polishing operation on last sander 3 with in polishing unit, now surface of the work is through 3 polishings of four sanders, and polishing precision is the highest.And because each sander 3 in same polishing unit be take holding frame 11 curved distribution as the center of circle, therefore the each distance that drives clamping limb 12 to move to next sander 3 from a sander 3 of holding frame 11 all equates, so greatly simplify operating personnel's programming, can guarantee well again the synchronism of manipulator 2 work simultaneously.

In addition, for some surfaces, there is complex-curved workpiece, when surface finish, by the procedure Selection grinding wheel 9 identical with the curvature of curved surface of this surface of the work, piston rod by the cylinder corresponding with this grinding wheel 9 outwards promotes slide block 21, thereby this grinding wheel 9 that drives slide block 21 outwards move and leans in abrasive band 7 inner side, make the abrasive band 7 outsides formation shape identical with the wheel limit of this grinding wheel 9, workpiece just can contact by this shape with 7 outsides, abrasive band and polish required curved surface like this.Certainly, when the curved surface of surface of the work is more and curvature is different, can, by selecting other grinding wheel 9 to carry out repetition said process, so just can carry out complete polishing to the surface of workpiece.

After polishing finishes, manipulator 2 is positioned over the workpiece that completes polishing on conveyer belt 19 and is delivered near burnishing device 18 places, operating personnel stand on burnishing device 18 places, the workpiece that conveyer belt 19 is sent is positioned in the fixture 23 of burnishing device 18, fixture 23 moves to polishing wheel 24 along polishing guide rail 25 under the drive of polishing actuator, the rotating shaft of polishing motor 26 drives polishing wheel 24 to rotate, and when workpiece contacts with polishing wheel 24, surface of the work is polished.

Because 1 pair of mach speed of workpiece of machining center will be faster than the polishing speed of unit to workpiece of polishing, so three polishing unit of the Surface Machining system disposition of this workpiece, the workpiece that can guarantee like this machining center 1 machined moulding can carry out surface finish in time, also the production efficiency of workpiece and the utilization rate of machining center 1 have been guaranteed well simultaneously, and be all to keep motionless because the workpiece work in-process heart 1 place adds the position in man-hour, therefore only need just can guarantee that the action of clamping limb 12 each holding workpieces of manipulator 2 is all identical by coding, so just can guarantee that the shape after each Workpiece shaping is identical, the machining accuracy that is workpiece is higher, globality is better.

Specific embodiment described herein is only to the explanation for example of the utility model spirit.The utility model person of ordinary skill in the field can make various modifications or supplements or adopt similar mode to substitute described specific embodiment, but can't depart from spirit of the present utility model or surmount the defined scope of appended claims.

Claims (10)

1. the Surface Machining system of a workpiece, be arranged at workpiece is carried out to mach machining center (1) sidepiece, it is characterized in that, this system comprises the burnishing device (18) that the workpiece after at least one group of polishing unit completes polishing with at least one carries out polishing, on described polishing unit, there is manipulator (2) and some sanders (3), described manipulator (2) can be located machining center (1) workpiece that machined is good and clamps constantly and locate to polish according to setting sequentially-fed to the corresponding sander in polishing unit (3) at manipulator (2) place, above-mentioned burnishing device (18) is positioned at polishing unit sidepiece.

2. the Surface Machining system of workpiece according to claim 1, it is characterized in that, described manipulator (2) comprises base (10), holding frame (11) and clamping limb (12), described holding frame (11) lower end is connected to base (10) above and can rotates with respect to base (10), above-mentioned clamping limb (12) is connected to holding frame (11) upper end and has the chuck for holding workpiece on clamping limb (12), has the actuator one of after driving holding frame (11) to rotate with respect to base (10) and location on described holding frame (11).

3. the Surface Machining system of workpiece according to claim 2, it is characterized in that, described actuator one comprise be connected in holding frame (11) inner side ring gear (28), be connected in the rotary electric machine (13) on base (10) and be connected to the some idler gears (29) on base (10), in the rotating shaft of above-mentioned rotary electric machine (13), be fixed with travelling gear one (14), above-mentioned idler gear (29) is meshed with travelling gear one (14) and ring gear (28) simultaneously.

4. the Surface Machining system of workpiece according to claim 2, it is characterized in that, described clamping limb (12) middle part is hinged on holding frame (11) upper end, above-mentioned chuck is positioned at clamping limb (12) front end, has the actuator two that can drive clamping limb (12) also to locate after its hinged place swings between the rear end of described clamping limb (12) and holding frame (11).

5. the Surface Machining system of workpiece according to claim 4, it is characterized in that, described actuator two comprises connecting rod one (15), connecting rod two (16) and is connected in the oscillating motor (17) at holding frame (11) middle part, in the rotating shaft of described oscillating motor (17), be fixed with drive plate (30), one end of above-mentioned connecting rod one (15) is hinged on drive plate (30) edge, one end of the other end of connecting rod one (15) and connecting rod two (16) is hinged, and the other end of connecting rod two (16) and above-mentioned clamping limb (12) rear end are hinged.

6. the Surface Machining system of workpiece according to claim 5, it is characterized in that, on described holding frame (11), have the through hole (31) running through, above-mentioned connecting rod one (15) is positioned at that through hole (31) is located and stretch out from the two ends of through hole (31) respectively at its two ends.

7. according to the Surface Machining system of the workpiece described in claim 2 or 3 or 4 or 5, it is characterized in that, described sander (3) be take holding frame (11) curved distribution as the center of circle, and the distance that each sander (3) is located to holding frame (11) is all identical.

8. according to the Surface Machining system of the workpiece described in claim 1 or 2 or 3 or 4 or 5 or 6, it is characterized in that, described sander (3) is belt grinder (3), comprise case (4) and be positioned at the driving wheel (5) of case (4), driven pulley (6) and abrasive band (7), above-mentioned driving wheel (5) is connected with a dozen electric mill machines (8), above-mentioned driving wheel (5) and driven pulley (6) part are positioned at outside case (4), above-mentioned abrasive band (7) is enclosed within on driving wheel (5) and driven pulley (6) and is positioned at the polishing portion that the outer outside, abrasive band (7) of case (4) is formed for workpiece to polish.

9. the Surface Machining system of workpiece according to claim 8, is characterized in that, abrasive band (7) the abrasive particle size on the adjacent ground machine (3) of described same polishing unit reduces successively.

10. the Surface Machining system of workpiece according to claim 8, it is characterized in that, in described case (4), also there is the grinding wheel (9) that can be resisted against abrasive band (7) polishing portion inner side, grinding wheel (9) be a plurality of and the diameter of each grinding wheel (9) different from the diameter of all the other grinding wheels (9), described case (4) locates to be provided with the drives structure that can drive respectively grinding wheel (9) to be resisted against same position inside the polishing portion of abrasive band (7) near grinding wheel (9), described drives structure comprises being positioned at the adjusting guide rail (20) of case (4) and being positioned at and regulates the slide block (21) that can move along it on guide rail (20), above-mentioned grinding wheel (9) is connected on slide block (21), described drives structure also comprises the grinding wheel actuator being arranged in case (4), described grinding wheel actuator and slide block (21) are connected and under the driving of this grinding wheel actuator, make grinding wheel (9) be resisted against the inner side of abrasive band (7).