CN209550618U - A kind of facing attachment of self-lubricating bearing lathe for machining - Google Patents

Abstract

The utility model discloses a kind of facing attachments of self-lubricating bearing lathe for machining, it is related to bearing machining apparatus field, aim to solve the problem that the small problem of traditional bearing chamfer lathe adaptation range, its key points of the technical solution are that: including workbench, it is fixedly installed on the casing of workbench, rotation is arranged in the drive sleeve of casing, slide the gripper sleeve being arranged in drive sleeve, it is connected to the collet of gripper sleeve front end, the collet front end is connected with auxiliary body, the auxiliary body includes the additional lock cylinder for being connected to collet, the collet inner wall is provided with clip assembly, additional lock cylinder is connected to collet by the clip assembly, the front end of the drive sleeve is fixedly connected with guide sleeve, the additional lock cylinder is arranged in guide sleeve, it further include the chamfer mechanism for being set to workbench.A kind of facing attachment of self-lubricating bearing lathe for machining of the utility model, has the advantages that the scope of application is wider array of.

Description

A kind of facing attachment of self-lubricating bearing lathe for machining

Technical field

The utility model relates to the technical fields of bearing machining equipment, more particularly, to a kind of self-lubricating bearing lathe for machining Facing attachment.

Background technique

Self-lubricating bearing is divided into composite material self-lubricating bearing, fixed embedded self-lubricating bearing, bimetallic material self-lubricating Bearing, special material self-lubricating bearing can select different types of bearing according to different purposes and operating condition.

After to self-lubricating bearing machine-shaping, need to carry out chamfered to side inside and outside bearing face, therefore It is clamped firstly the need of to bearing, chamfering is carried out to bearing edge by lathe tool again later.

The chamfering of bearing is usually completed on heavy duty machine tools in the prior art, and heavy duty machine tools land occupation is larger, and And it is expensive, it is not applicable when being processed for small business or small lot, therefore occur a kind of for processing the small of bearing Type lathe usually by grips bearing, but cannot achieve when processing larger-diameter bearing, need replacing its alloytype Number lathe could complete, not only waste equipment, but also process is not convenient enough.

Therefore it needs to provide the new scheme of one kind to realize the above problem.

Utility model content

In view of the deficienciess of the prior art, the purpose of this utility model is to provide a kind of self-lubricating bearing lathe for machining Facing attachment, have the advantages that adaptation range is wider array of.

The above-mentioned purpose of utility model of the utility model has the technical scheme that

A kind of facing attachment of self-lubricating bearing lathe for machining including workbench, the casing that is fixedly installed on workbench, turns The dynamic drive sleeve for being arranged in casing slides the gripper sleeve being arranged in drive sleeve, the folder for being connected to gripper sleeve front end Head, the collet front end are connected with auxiliary body, and the auxiliary body includes the additional lock cylinder for being connected to collet, in the collet Wall is provided with clip assembly, and additional lock cylinder is connected to collet by the clip assembly, and the front end of the drive sleeve is fixedly connected There is guide sleeve, it further includes the chamfer mechanism for being set to workbench that the additional lock cylinder, which is arranged in guide sleeve,.

By using above-mentioned technical proposal, when needing to process the bearing of larger diameter, additional lock cylinder is passed through into clamping group Part is connected to collet inner wall, and the internal diameter of additional lock cylinder is adapted with the bearing diameter that needs are processed, by guide sleeve to additional lock Drum outer wall effect, when gripper sleeve moves backward, collet is tightened and fastens additional lock cylinder first, can by clip assembly So that the clamping of additional lock cylinder is stronger, additional lock cylinder can be driven to move backward when collet continues to move backward, thus logical It crosses guide cylinder inner wall to tighten additional lock cylinder, be fixed so that the workpiece in additional lock cylinder be tightened, pass through chamfer mechanism pair later The edge of bearing carries out chamfering operation.

The utility model is further arranged to: the clip assembly includes the locked groove for being opened in collet inner wall, is connected to lock The clamping spring of groove bottom, is opened in additional lock drum outer wall and lock corresponding with locked groove at the fixture block for being connected to clamping spring end Mouthful.

By using above-mentioned technical proposal, when additional lock cylinder to be installed in collet, first by one end of additional lock cylinder It wears and enters in collet, squeezed fixture block in income to locked groove by the end of additional lock cylinder, when additional lock cylinder continues inwardly When being moved to lockhole and being aligned with locked groove, fixture block is made pop up and snap fit onto fore shaft under the reset response of clamping spring, realization Preliminary clamping.

The utility model is further arranged to: the wedge shaped setting of institute's fixture block.

By using above-mentioned technical proposal, so that the inclined-plane of fixture block can be passed through when installation or disassembly auxiliary sleeve Fixture block is pushed to be recovered in locked groove.

The utility model is further arranged to: the collet inner wall is provided in the axial direction with guide groove, outside the additional lock cylinder Wall is provided with the guiding rib that sliding is arranged in guide groove.

By using above-mentioned technical proposal, in this way when installing additional lock cylinder, it will be oriented to rib and guide groove alignment first, from And guarantee that lockhole and locked groove can be aligned, improve the positional accuracy of installation.

The utility model is further arranged to: additional lock cylinder outer end is provided in the axial direction with deformation slot, the additional lock One end diameter that cylinder is provided with deformation slot is in be gradually increased, and the additional lock cylinder is provided with the lateral wall abutting of deformation slot from inside to outside In guide sleeve inner wall.

By using above-mentioned technical proposal, bearing is clamped in additional lock cylinder first, when additional lock cylinder with collet backward When mobile, additional lock cylinder end can be made to tighten to centre by guide sleeve inner wall, to realize being fixedly clamped for workpiece.

The utility model is further arranged to: the guide sleeve is connected through a screw thread with drive sleeve.

By using above-mentioned technical proposal, in this way when processing the bearing of different-diameter, different sizes are needed replacing Additional lock cylinder and guide sleeve, and reach the convenient technical effect of replacement.

The utility model is further arranged to: the chamfer mechanism includes the slide unit for being fixedly installed on workbench, is connected to The knife platform of slide unit, the cutter for being fixedly installed on knife platform.

Pass through slide unit after fastening bearing by collet or additional lock collet chuck by using above-mentioned technical proposal Band moving knife platform and cutter are mobile, until cutter is close to bearing, to realize the chamfered to bearing end.

The utility model is further arranged to: the V-shaped setting of cutter.

By using above-mentioned technical proposal, by the way that forming V-shape is arranged in cutter, two inside blades of cutter can be distinguished Contradict inside edge in bearing end and outer edge, rear drive mechanism drive bearing rotation, thus by the cutter of V-arrangement to axis The inside edge in socket end portion and outer edge carry out chamfered simultaneously, improve chamfering efficiency.

In conclusion the advantageous effects of the utility model are as follows:

1. additional lock cylinder is connected to collet inner wall by clip assembly when needing to process the bearing of larger diameter, it is auxiliary It helps the internal diameter of folder cylinder to be adapted with the bearing diameter that needs are processed, additional lock drum outer wall is acted on by guide sleeve, works as retaining sleeve When cylinder moves backward, collet is tightened and fastens additional lock cylinder first, additional lock cylinder can be made to be clamped by clip assembly It is stronger, additional lock cylinder can be driven to move backward when collet continues to move backward, thus by guide cylinder inner wall to auxiliary Cylinder tightening is pressed from both sides, is fixed so that the workpiece in additional lock cylinder be tightened, chamfering is carried out by edge of the chamfer mechanism to bearing later Operation；

2. wearing entered in collet by one end of additional lock cylinder first when additional lock cylinder to be installed in collet, lead to It crosses the end of additional lock cylinder to squeeze fixture block in income to locked groove, be aligned when additional lock cylinder continues to move inwardly into lockhole with locked groove When, make fixture block pop up and snap fit onto fore shaft under the reset response of clamping spring, realizes preliminary clamping.

Detailed description of the invention

Fig. 1 is the overall structure diagram of the utility model；

Fig. 2 is the cross-sectional view of the utility model；

Fig. 3 is the structural schematic diagram of the control mechanism of the utility model；

Fig. 4 is the structural schematic diagram of the driving mechanism of the utility model；

Fig. 5 is the structural schematic diagram of the auxiliary body of the utility model；

Fig. 6 is the portion the A enlarged diagram of Fig. 5.

In figure, 1, workbench；2, casing；3, clamping device；4, drive sleeve；5, gripper sleeve；6, control mechanism；7, it drives Motivation structure；8, collet；9, expansion slot；10, drive disk；11, control assembly；12, driving assembly；13, fixed ring；14, drive rod； 15, mounting rod；16, control-rod；17, sliding sleeve；18, cylinder；19, motor；20, driving pulley；21, driven pulley；22, belt； 23, shield；24, flat key；25, keyway；26, auxiliary body；27, additional lock cylinder；28, clip assembly；29, guide sleeve；30, it falls Angle mechanism；31, locked groove；32, it is clamped spring；33, fixture block；34, fore shaft；35, guide groove；36, it is oriented to rib；37, deformation slot；38, Slide unit；39, knife platform；40, cutter.

Specific embodiment

The utility model is described in further detail below in conjunction with attached drawing.

It referring to Fig.1, is a kind of facing attachment of self-lubricating bearing lathe for machining disclosed by the utility model, including workbench 1, the casing 2 for being fixed at 1 surface of workbench, the clamping device 3 being arranged on casing 2, clamping device 3 include that rotation is worn In casing 2 and it is in the drive sleeve 4 of hollow cylindrical, slides the gripper sleeve 5 being arranged in drive sleeve 4, is arranged in work Make platform 1 and be used to control the control mechanism 6 that gripper sleeve 5 opens or closes, is additionally provided on workbench 1 for driving driving The driving mechanism 7 that sleeve 4 rotates；First by piece-holder to gripper sleeve 5, control mechanism 6 can drive 5 edge of gripper sleeve Axial movement and then grips bearing to realize that gripper sleeve 5 is tightened, rear drive mechanism 7 drive drive sleeve 4 And gripper sleeve 5 rotates synchronously, so that workpiece be driven to realize rotation, completes the clamping to workpiece and drives, it is simple to operate, And whole occupied area is small, saves space reduction cost.

As shown in Fig. 2, casing 2 is stretched out at 5 both ends of gripper sleeve, and gripper sleeve 5 stretch out the front end one of casing 2 at Type is connected with collet 8, and 5 tail end of gripper sleeve is connected to control mechanism 6, and collet 8 offers expansion slot 9 simultaneously close to the end of workpiece And the side wall of collet 8 is pushed against in setting, 8 outer wall of collet is expanded outwardly in 4 inner wall of drive sleeve；When installing bearing, machine is controlled Structure 6 controls gripper sleeve 5 and moves forward, and the chamfered portion of collet 8 stretches out drive sleeve 4 at this time, so that 8 end of collet can To open and bearing is clamped in collet 8, control mechanism 6 drives gripper sleeve 5 to move backward later, so that 8 side wall of collet Chamfered portion be pushed against 4 inner wall of drive sleeve and to centre tighten, so that Workpiece clamping be fixed.

As shown in figure 3, control mechanism 6 includes being welded and fixed be connected to the drive disk 10 of 5 tail end of gripper sleeve, be connected to drive Moving sleeve 4 close to the tail end of drive disk 10 control assembly 11, to be slidably connected to drive sleeve 4 outer and for drive control component 11 driving assembly 12,11 one end of control assembly act on drive disk 10, and the other end acts on driving assembly 12；When needing to control When gripper sleeve 5 is mobile, exerted a force by driving assembly 12 to control assembly 11, control assembly 11 rotates and to drive disk 10 at this time Apply thrust backward, so that gripper sleeve 5 be driven to move axially rearward so that gripper sleeve 5 relative to drive sleeve 4 to After move, to realize the tightening of 8 end of collet.

As shown in figure 3, control assembly 11 includes the fixed ring 13 for being fixedly connected on 4 tail end of drive sleeve, is rotationally connected with The drive rod 14 of fixed ring 13,14 one end of drive rod are connected to drive disk 10, and the other end is connected to driving assembly 12；Drive rod 14 Middle part be hinged in fixed ring 13, when driving assembly 12 applies thrust to one end of drive rod 14, can control drive rod 14 rotations, by the rotation of drive rod 14 so that drive rod 14 close to one end of drive disk 10 to central rotational, to push drive Moving plate 10 moves backward, and then drives entire gripper sleeve 5 and collet 8 to after-contraction, realizes the tightening of 8 end of collet.

As shown in figure 3, driving assembly 12 include be welded in mounting rod 15 outside casing 2, middle part is rotationally connected with installation The control-rod 16 of bar 15 is slidably socketed in the sliding sleeve 17 outside drive sleeve 4, and mounting rod 15 extends towards 10 direction of drive disk, control One end of bar 16 processed is rotationally connected with sliding sleeve 17 by shaft, and the other end is rotatably connected to cylinder 18, and the cylinder body of cylinder 18 is fixed It is connected to workbench 1, the piston rod of cylinder 18 is rotatably connected on the end of control-rod 16 by shaft；When the piston rod of cylinder 18 When elongation, control-rod 16 is driven to rotate, so that sliding sleeve 17 be driven to slide towards 2 direction of casing, and then releases 17 pairs of sliding sleeve drivings The limitation of bar 14 enables drive rod 14 to be freely rotated, and gripper sleeve 5 is axially moveable, at this time due to Collet 8 is in contraction state, when gripper sleeve 5 does not stress, under the reset response of collet 8, can drive gripper sleeve 5 to Preceding movement, so that collet 8 stretches out drive sleeve 4, after bearing is clamped on collet 8,18 piston rod of cylinder shrinks and drives control Bar 16 processed rotates, to push sliding sleeve 17 to slide towards 10 direction of drive disk, to push drive rod 14 by 17 end of sliding sleeve Rotation can push drive disk 10 to move backward, to drive gripper sleeve 5 relative to drive sleeve 4 when drive rod 14 rotates It moves backward, so that collet 8 is tightened, realizes the clamping to workpiece.

As shown in figure 3, sliding sleeve 17 is arranged towards the end of drive rod 14 in inclined-plane, drive rod 14 is close to one end of sliding sleeve 17 Inner wall is arranged in inclined-plane corresponding with sliding sleeve 17；When sliding sleeve 17 is mobile towards drive rod 14, pass through sliding sleeve 17 and drive rod 14 Inclined-plane mutually abut, to be more convenient for controlling the rotation of drive rod 14.

As shown in figure 4, driving mechanism 7 includes the motor 19 for being fixedly installed on workbench 1, is connected to 19 output shaft of motor Driving pulley 20, the driven pulley 21 for being connected to 4 outer wall of drive sleeve, the belt for being connected to driving pulley 20 and driven pulley 21 22；After gripper sleeve 5 locks piece-holder, motor 19 starts and drives driving pulley 20 and driven pulley 21 to rotate, by It is fixedly connected on the outer wall of drive sleeve 4 in driven pulley 21, therefore is able to drive drive sleeve 4 and the rotation of gripper sleeve 5, To drive workpiece to realize rotation.

As shown in figure 4, casing 2 is fixedly installed shield 23,23 upper end bolt of shield is fixedly connected on casing 2, under End bolt is fixedly connected on the shell of motor 19, and shield 23 is located at 22 top of belt；It, can band when motor 19 rotates Dynamic driving pulley 20 is rotated with driven pulley 21 and the wheel of belt 22, by the way that shield 23 is arranged, can accidentally contact skin to avoid people On band 22, safety is improved.

As shown in Fig. 2, the synchronous rotation in order to guarantee gripper sleeve 5 Yu drive sleeve 4, is fixed in 5 outer wall of gripper sleeve There is flat key 24,4 inner wall of drive sleeve is provided in the axial direction with keyway 25, and the sliding of flat key 24 is set in keyway 25；Pass through flat key 24 Sliding with keyway 25 cooperates, and when drive disk 10 is by axial thrust, enables gripper sleeve 5 axially with respect to driving Sleeve 4 slides, and when drive sleeve 4 rotates, is able to drive the synchronous rotation of gripper sleeve 5, improves the accurate of workpiece rotation Property.

As shown in figure 5, it is connected with auxiliary body 26 in the front end of collet 8 in order to adapt to the bearing of larger diameter, it is auxiliary Helping mechanism 26 includes the clip assembly 28 that 8 inner wall of collet is arranged in, and is connected with additional lock cylinder 27 by clip assembly 28, is driving 4 front end of sleeve is fixedly connected with guide sleeve 29, and additional lock cylinder 27 is threaded through in guide sleeve 29, is additionally provided with down on workbench 1 Angle mechanism 30；When needing to process the bearing of larger diameter, additional lock cylinder 27 is connected in collet 8 by clip assembly 28 The internal diameter of wall, additional lock cylinder 27 is adapted with the bearing diameter that needs are processed, and is made by guide sleeve 29 to 27 outer wall of additional lock cylinder With when gripper sleeve 5 moves backward, collet 8 is tightened and fastens additional lock cylinder 27 first, can be with by clip assembly 28 So that additional lock cylinder 27 is clamped stronger, additional lock cylinder 27 can be driven to move backward when collet 8 continues to move backward, thus Additional lock cylinder 27 is tightened by guide cylinder inner wall, is fixed so that the workpiece in additional lock cylinder 27 be tightened, passes through chamfering later Mechanism 30 carries out chamfering operation to the edge of bearing.

As shown in Figure 5 and Figure 6, clip assembly 28 includes the locked groove 31 for being opened in 8 inner wall of collet, is connected to 31 bottom surface of locked groove Clamping spring 32, be connected to clamping 32 end of spring fixture block 33, be opened in 27 outer wall of additional lock cylinder and corresponding with locked groove 31 Fore shaft 34；When additional lock cylinder 27 to be installed in collet 8, one end of additional lock cylinder 27 is worn enter collet 8 first It is interior, fixture block 33 is squeezed in income to locked groove 31 by the end of additional lock cylinder 27, when additional lock cylinder 27 continues to move inwardly into When lockhole is aligned with locked groove 31, pops up fixture block 33 and snap fit onto fore shaft 34, it is real Now preliminary clamping.As shown in fig. 6, the wedge shaped setting of fixture block 33, so that card can be passed through when installation or disassembly auxiliary sleeve The slope driving fixture block 33 of block 33 is recovered in locked groove 31.

As shown in figure 5, position certainty when in order to guarantee that additional lock cylinder 27 is installed, opens up in 8 inner wall of collet along axial direction There is guide groove 35,27 outer wall of additional lock cylinder is provided with the guiding rib 36 that sliding is arranged in guide groove 35；In this way in installation additional lock When cylinder 27, guiding rib 36 and guide groove 35 are aligned first, to guarantee that lockhole and locked groove 31 can be aligned, improve the position of installation Set accuracy.

As shown in figure 5,27 outer end of additional lock cylinder is provided in the axial direction with deformation slot 37, enable the end of additional lock cylinder 27 Deformation occurs, and it is in be gradually increased, and additional lock cylinder 27 is opened that additional lock cylinder 27 is provided with its diameter of one end of deformation slot 37 from inside to outside There is the lateral wall of deformation slot 37 to push against in 29 inner wall of guide sleeve；Bearing is clamped in additional lock cylinder 27 first, when additional lock cylinder 27 with collet 8 when moving backward, and 27 end of additional lock cylinder can be made to tighten to centre by 29 inner wall of guide sleeve, to realize Workpiece is fixedly clamped.In order to improve flexibility, it is detachably connected between guide sleeve 29 and drive sleeve 4 by screw thread realization, In this way when processing the bearing of different-diameter, the additional lock cylinder 27 and guide sleeve 29 of different sizes are needed replacing, and is reached To the convenient technical effect of replacement.

As shown in Figure 1, chamfer mechanism 30 is fixedly connected on slide unit including being fixedly installed in slide unit 38, the bolt of workbench 1 38 knife platform 39 is bolted the cutter 40 for being set to knife platform 39；Bearing is being pressed from both sides by collet 8 or additional lock cylinder 27 It is mobile with moving knife platform 39 and cutter 40 by slide unit 38 after fastening, until cutter 40 is close to bearing, to realize to bearing The chamfered of end.

It, can will be in two of cutter 40 by the way that forming V-shape is arranged in cutter 40 as shown in Figure 1, the V-shaped setting of cutter 40 Side tool sword contradicts inside edge and outer edge in bearing end respectively, rear drive mechanism 7 with dynamic bearing rotate, to pass through V The cutter 40 of shape carries out chamfered to the inside edge of bearing end and outer edge simultaneously, improves chamfering efficiency.

The embodiment of present embodiment is the preferred embodiment of the utility model, and not limitation is originally practical new according to this The protection scope of type, therefore: the equivalence changes that all structures, shape, principle according to the utility model are done should all be covered by practical Within novel protection scope.

Claims (8)

1. a kind of facing attachment of self-lubricating bearing lathe for machining, it is characterised in that: including workbench (1), be fixedly installed on work Make the casing (2) of platform (1), the clamping that rotation is arranged in the drive sleeve (4) of casing (2), sliding is arranged in drive sleeve (4) Sleeve (5), the collet (8) for being connected to gripper sleeve (5) front end, the collet (8) front end is connected with auxiliary body (26), described Auxiliary body (26) includes the additional lock cylinder (27) for being connected to collet (8), and collet (8) inner wall is provided with clip assembly (28), additional lock cylinder (27) is connected to collet (8) by the clip assembly (28), and the front end of the drive sleeve (4) is fixed to be connected It is connected to guide sleeve (29), it further includes the chamfering for being set to workbench (1) that the additional lock cylinder (27), which is arranged in guide sleeve (29), Mechanism (30).

2. a kind of facing attachment of self-lubricating bearing lathe for machining according to claim 1, it is characterised in that: the clamping Component (28) includes the locked groove (31) for being opened in collet (8) inner wall, the clamping spring (32) for being connected to locked groove (31) bottom surface, connection In clamping spring (32) end fixture block (33), be opened in additional lock cylinder (27) outer wall and fore shaft corresponding with locked groove (31) (34)。

3. a kind of facing attachment of self-lubricating bearing lathe for machining according to claim 2, it is characterised in that: the fixture block (33) wedge shaped setting.

4. a kind of facing attachment of self-lubricating bearing lathe for machining according to claim 2, it is characterised in that: the collet (8) inner wall is provided in the axial direction with guide groove (35), and additional lock cylinder (27) outer wall is provided with sliding and is arranged in guide groove (35) Guiding rib (36).

5. a kind of facing attachment of self-lubricating bearing lathe for machining according to claim 4, it is characterised in that: the auxiliary Folder cylinder (27) outer end is provided in the axial direction with deformation slot (37), the additional lock cylinder (27) be provided with one end diameter of deformation slot (37) by It is from inside to outside in be gradually increased, and the additional lock cylinder (27) is provided with the lateral wall abutting of deformation slot (37) in guide sleeve (29) Wall.

6. a kind of facing attachment of self-lubricating bearing lathe for machining according to claim 1, it is characterised in that: the guiding Set (29) is connected through a screw thread with drive sleeve (4).

7. a kind of facing attachment of self-lubricating bearing lathe for machining according to claim 1, it is characterised in that: the chamfering Mechanism (30) includes the slide unit (38) for being fixedly installed on workbench (1), the knife platform (39) for being connected to slide unit (38), is fixedly installed on The cutter (40) of knife platform (39).

8. a kind of facing attachment of self-lubricating bearing lathe for machining according to claim 7, it is characterised in that: the cutter (40) V-shaped setting.