CN203459424U - Built-in hydraulic clamping chuck for spline cold-rolling machine tool - Google Patents

Built-in hydraulic clamping chuck for spline cold-rolling machine tool Download PDF

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Publication number
CN203459424U
CN203459424U CN201320476667.XU CN201320476667U CN203459424U CN 203459424 U CN203459424 U CN 203459424U CN 201320476667 U CN201320476667 U CN 201320476667U CN 203459424 U CN203459424 U CN 203459424U
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China
Prior art keywords
chuck
axial location
built
clamping
screw
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Expired - Fee Related
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CN201320476667.XU
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Chinese (zh)
Inventor
葛便京
段华荣
易良均
郁勤明
王建明
王林军
王治军
徐成慧
张克青
王明海
金红辉
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China Yituo Group Corp Ltd
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China Yituo Group Corp Ltd
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Priority to CN201320476667.XU priority Critical patent/CN203459424U/en
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Expired - Fee Related legal-status Critical Current
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Abstract

The utility model belongs to the technical field of machine manufacturing, and discloses a built-in hydraulic clamping chuck for a spline cold-rolling machine tool. The built-in hydraulic clamping chuck comprises a flange positioning and mounting component, an axial positioning and radial elastic clamping component, a connecting component and a movable centre component. The movable centre component is located at the center of the built-in hydraulic clamping chuck, the axial positioning and radial elastic clamping component is arranged at the left end of the movable centre component, the flange positioning and mounting component is arranged outside the left end and connected with the axial positioning and radial elastic clamping component in a thread screwed manner through the connecting component, and the connecting component is positioned outside the right end of the chuck. The built-in hydraulic clamping chuck can realize accurate axial positioning, can utilize hydraulic clamping to eliminate uncertainty in size of clamping force, and is stable and reliable in clamping force, compact in structure and small in occupied length of a machine tool guide, and machining range of the machine tool is enlarged. Besides, the built-in hydraulic clamping chuck is easy to produce and mount, and has good use value.

Description

Built-in hydraulic expansion chuck for spline cold roll forming machine
Technical field
The utility model belongs to machinery manufacturing technology field, relates in particular to a kind of built-in hydraulic expansion chuck for spline cold roll forming machine.Described hydraulic clamp chuck, refers to that the clamping of this chuck adopts outer oil pressure clamping mode of joining, and described built-in chuck, refers to that the critical piece of this chuck is in machine tool chief axis hole; Described chuck assemble method, the method that under referring to, chuck part fits together after completing.
Background technology
1, the introduction such as the effect of cold rolling, principle
Cold roll forming machine of the present invention refers to the lathe with external splines on cold rolling processes axial workpiece, cold rolling is processed as processing and forming, add and by a pair of rolling wheel identical with spline tooth groove shape, workpiece is repeatedly hit man-hour, make workpiece produce plastic deformation, thereby on workpiece, form qualified spline tooth.A pair of rolling wheel respectively bias is arranged on two high-speed rotating shafts, and diaxon synchronous rotary, often goes around, and two, in the face of workpiece, each hits once two rolling wheels respectively.When two rolling wheels contact workpiece in a flash simultaneously, two crop rotation rotations are rotated.In rolling process, workpiece divides tooth spiral to turn, and moves axially formation axial feed.
2, center hole of shaft part location briefing
As mentioned above, cold roll forming machine is used for the external splines on working shaft-like part, when working shaft-like part, often adopt centre bore location, its method is to utilize the centre bore conical surface laminating of the top conical surface and workpiece to position, centre bore is positioned on the center line of part, utilizes centre bore location can carry out accurate radial location.Therefore, but because the centre bore of workpiece exists tolerance, vary, after top and top location positioning, the axial location of workpiece changes with center hole size, only utilize in other words centre bore and toply can not carry out accurate axial location.
By Fig. 1, known, axial location top 3 is arranged in machine tool chief axis hole, while using the top location of axial location, behind top 3 location of workpiece 1 use axial location, with chuck 2, clamps, and then starts processing.Although the position of axial location top 3 in the hole of machine tool chief axis 4 fixed, axial location is top constant with the axial location of machine tool chief axis in the course of the work, and the axial location of workpiece 1 changes with Central of the parts hole size.Centre bore hour, the top length that enters centre bore is little, the right side of part to be processed is away from machine tool chief axis end face, with the distance of machine tool chief axis end face be L1, when centre bore is large, the top length that enters centre bore is large, and the right side of part to be processed is near machine tool chief axis end face, with the distance of machine tool chief axis end face be L2, L2 ≠ L1.Hence one can see that, only utilizes centre bore and when top, the axial location of the right side of part to be processed on lathe is fixing, cannot carry out accurate axial location, and center hole size error makes workpiece axial location differ distance over 1 millimeter sometimes.
For the less demanding part of axial location, can use the top axial location of carrying out; But for axial location, require high part, use the top axial location of carrying out can not meet required precision, just need to take in addition axial location measure, toply only play radial location effect.
3, cold rolling chuck briefing used at present
During due to cold rolling, to make workpiece produce plastic deformation by hitting power, therefore process strength very large, to the location of fixture, clamping, require high, particularly need reliable and stable clamping force, to guarantee that workpiece is unlikely to occur loosening phenomenon under hitting power effect in process, if workpiece is loosening in process, not only affect machining accuracy, and can cause tool failure, and increase manufacturing cost, even cause security incident.So cold roll forming machine generally selects the hydraulic clamp chuck of good rigidly as fixture.
For the high cold rolling splined shaft part of axial location required precision, the chuck using need to meet two conditions:
1) take axial location measure, can not only use the top axial location of carrying out;
2) need to use the hydraulic clamp chuck of good rigidly.
For this reason, people have carried out a lot of effort, and the chuck structure that cold roll forming machine is used at present as shown in Figure 2, is used top positioning, and can use hydraulic clamp oil cylinder to clamp.Its chief component part has dop, body flange, top, tailstock sleeve, first clamps adapter sleeve, clamp transition pawl, adpting flange, transition adapter sleeve, second clamp adapter sleeve, screw, sleeve, spring, machine tool chief axis and attaching nut etc.
By Fig. 2, known, chuck is arranged on machine tool chief axis 4 by adpting flange 11 and screw 14, and during use, top 7 head into workpiece center hole, and part is carried out to radial and axial location.Its clamping means are the attaching nuts 17 by being connected with lathe clamping cylinder, pull successively sleeve 15, second to clamp adapter sleeve 13, transition adapter sleeve 12 to the right, clamp transition pawl 10, the first clamping adapter sleeve 9, tailstock sleeve 8 and dop 5.Dop 5 is taper fit with the fit system of body flange 6, and when dop 5 moves right, endoporus dwindles clamping work pieces, and when dop 5 is moved to the left, endoporus resilience becomes large, unclamps workpiece.
Separately by Fig. 2, known, in chuck, obtain spring 16 and play cushioning effect in location, clamping process.
From the above mentioned, although can being connected with lathe clamping cylinder, the chuck that cold roll forming machine is used at present adopts hydraulic clamp, clamping force is reliable and stable, and also adopted spring center structure, can meet instructions for use in the ordinary course of things, but the chuck that cold roll forming machine is used at present has the following disadvantages:
1, by above-mentioned, known, the spring center that the chuck that cold roll forming machine is used at present adopts only plays cushioning effect, still with centre bore, carry out axial location, the center hole size of workpiece directly affects the axial location of workpiece, when centre bore is large, workpiece is kept right, a centre bore hour workpiece keeps left, so axial location low precision, and workpiece axial location left and right differs over 1 millimeter;
2, in order to realize hydraulic clamp, chuck volume is large, stretches out machine tool chief axis end face distance long, is more than 300 millimeters, and machine tool guideway direction has 300 millimeters by chuck, to be taken, thereby lathe can processing parts length be reduced.
Summary of the invention
In order to overcome above-mentioned deficiency, the utility model object is to provide a kind of built-in hydraulic expansion chuck for spline cold roll forming machine, adopts centre with endlong movement and end face locating sleeve structure to carry out accurate radial and axial location; Can adopt hydraulic clamp, have enough, stable clamping force; Adopt location, clamp integral structure, compact conformation, and major part is arranged in machine tool chief axis hole, reduce chuck and stretch out the length that main shaft end face takies machine tool guideway, thereby the chuck using with current cold roll forming machine is compared and increased the length that lathe can processing parts.Be a kind of registration, reliable clamping, give full play to the elastic clamping chuck of implementing radial and axial location of machine tool guideway effective length.
In order to realize goal of the invention of the present invention, the utility model by the following technical solutions:
A kind of built-in hydraulic expansion chuck for spline cold roll forming machine, be arranged in the built-in hydraulic expansion chuck of machine tool chief axis end face spindle hole, chuck for step revolving body, comprising: flange location and installation assembly, axial location radial elastic clamp assembly, coupling assembling and centre with endlong movement assembly; Described centre with endlong movement assembly is positioned at the central part of built-in hydraulic expansion chuck, the left end of described centre with endlong movement assembly is provided with axial location radial elastic clamp assembly, the outer setting of left end has flange location and installation assembly, the coupling assembling that passes through of described flange location and installation assembly is connected with axial location radial elastic clamp assembly screw thread, and coupling assembling is positioned at the right-hand member outside of chuck.
Described flange location and installation assembly comprises: body, mounting screw, terminal pad, body hold-down screw, elastic chuck holding screw and positioning seat holding screw; Wherein terminal pad is fixedly connected on machine tool chief axis end face with mounting screw, body is fixedly connected on terminal pad with body hold-down screw, is used for preventing that the elastic chuck holding screw that elastic chuck rotates is fixedly connected in the elastic chuck set screw hole on body; Be used for preventing that the loosening positioning seat holding screw of axial location seat is fixedly connected in the axial location seat set screw hole on body; Described elastic chuck set screw hole and axial location seat set screw hole are arranged on the same circumferencial direction of body; Described body left part is provided with so that elastic chuck shrinks the body clamping conical surface that clamps part, and it is that internal taper hole clamps the conical surface that body clamps the conical surface; Right part is provided with the body screw thread to positioning seat in order to installation shaft, and body screw thread is internal thread.
Described axial location radial elastic clamp assembly comprises: axial positioning sleeve, positioning sleeve housing screw, elastic chuck, axial location seat, clamping pulling claw, on wherein said axial location seat, be provided with positioning seat screw thread, by described positioning seat screw thread and body screw thread, be arranged on body right side, on positioning seat screw thread, be provided with positioning seat circumferencial direction locating hole, on the flange excircle of axial location seat right-hand member, the position consistent with positioning seat circumferencial direction locating hole circumferencial direction is provided with mark mark; And on described axial location seat, be provided with for the pulling claw that clamps pulling claw, pass through to pull three grooves of elastic chuck clamping work pieces;
Described axial positioning sleeve is fixed on the left side of axial location seat by positioning sleeve housing screw; Described elastic chuck left part arranges the elastic chuck clamping conical surface with endoporus, it is male cone (strobilus masculinus) that elastic chuck clamps the conical surface, elastic chuck clamps the conical surface and body clamps cone match, has the station of endoporus contraction clip clamping of workpieces, or the station of workpiece is unclamped greatly in the change of rebounding; Elastic chuck left end is provided with so that endoporus can shrink six open slots that diminish when clamping, right part is provided with three and hooks groove, three hook grooves and interlock with the drag hooks that clamp pulling claw, and elastic chuck has and moves right under driving clamping pulling claw, the station of endoporus contraction clip clamping of workpieces; Elastic chuck has and is moved to the left under driving clamping pulling claw, and it is large that endoporus resilience becomes, and unclamps the station of workpiece; Described clamping pulling claw left part is provided with three pulling claws, and right-hand member is provided with external screw thread, and pulling claw top is provided with drag hook, and pulling claw is the left end to axial location seat by three grooves on axial location seat, is connected with three hook grooves of elastic chuck right-hand member.
Described coupling assembling comprises: branch sleeve, branch sleeve support ring, branch sleeve support ring holding screw and attaching nut, described branch sleeve left part and right part are all provided with internal thread, the external screw thread screwed connection of the internal thread of left part and pulling claw right-hand member, the internal thread of right part and attaching nut's screwed connection; On described attaching nut, be provided with external screw thread and internal thread, the internal thread screwed connection of external screw thread and branch sleeve right part, internal thread is connected with the clamping cylinder that lathe is equipped with by pull bar; Supporting branch sleeve mobile branch sleeve support ring in machine tool chief axis hole is fixed on the cylindrical of branch sleeve by branch sleeve support ring holding screw.
Described centre with endlong movement assembly comprises: centre with endlong movement, housing screw, bearing, spring spool, spring compression circle, spring spool right support ring, spring conductor rod, butterfly spring, end ring and spring spool left support ring;
Described spring spool left part and right part are all provided with internal thread, and the internal thread of right part is provided with spring compression circle; On described shock mount compacting ring, be provided with guide rod hole and steam vent; Described spring conductor rod right-hand member is arranged in the guide rod hole of the spring compression circle that butterfly spring is led; Described butterfly spring is nested with in groups on spring conductor rod; Described bearing is thrust ball bearing, reduces the thrust ball bearing of butterfly spring friction is arranged on to the butterfly spring left side; Described end ring right-hand member setting is shaped with guide rod hole, and spring conductor rod left end is arranged in the guide rod hole of end ring; Described housing screw is provided with endoporus in the internal thread that is fixed on spring spool left part; Described top right-hand member arranges in housing screw endoporus; Described spring spool left support ring and spring spool right support ring are separately fixed on the end cylindrical of spring spool left and right by interference fit.
Owing to adopting above-described technical scheme, the utility model can reach following beneficial effect:
1, the built-in hydraulic expansion chuck for spline cold roll forming machine described in the utility model, owing to adopting centre with endlong movement, top retraction during location, end face positioning sleeve position immobilizes, therefore when carrying out radial location with centre bore, can realize accurate axial location;
2, the built-in hydraulic expansion chuck for spline cold roll forming machine described in the utility model, owing to having adopted axial location radial elastic clamp assembly, with the drag hook on the clamping pulling claw of the groove by axial location seat, pull elastic chuck, elastic chuck endoporus is shunk, thereby clamping work pieces, so just end face positioning component and clamp assembly are formed to one, having realized can axial location, can use hydraulic clamp again, the uncertainty of clamping force size while having eliminated artificial clamping or the clamping of centrifugal claw, clamping force is stable, reliable, and compact conformation;
3, the built-in hydraulic expansion chuck for spline cold roll forming machine described in the utility model, by adopting nested structure, centre with endlong movement is nested in branch sleeve, after chuck is installed, major part is positioned at machine tool chief axis hole, stretch out spindle end face length degree little, take machine tool guideway length little, therefore can effectively utilize machine tool guideway length, increase the range of work of lathe.
4, the built-in hydraulic expansion chuck for spline cold roll forming machine described in the utility model, the common material of employing machine industry, its manufacture method is general manufacturing technology, is easy to make, install, and has good use value.
Accompanying drawing explanation
Centered by Fig. 1, axial location error schematic diagram is carried out in hole;
Fig. 2 is for now using chuck structure and operation principle schematic diagram;
Fig. 3 is the structural representation for the built-in hydraulic expansion chuck of spline cold roll forming machine;
Fig. 4 is the operation principle schematic diagram for the coupling assembling of the built-in hydraulic expansion chuck of spline cold roll forming machine;
Fig. 5 is body schematic diagram;
Fig. 6 is that the A of Fig. 5 is to view;
Fig. 7 is terminal pad schematic diagram;
Fig. 8 is that the B of Fig. 7 is to view;
Fig. 9 is the axial location radial elastic clamp assembly operation principle schematic diagram for the built-in hydraulic expansion chuck of spline cold roll forming machine;
Figure 10 is the axial location radial elastic clamp assembly schematic perspective view for the built-in hydraulic expansion chuck of spline cold roll forming machine;
Figure 11 is the schematic perspective view of elastic chuck;
Figure 12 is the schematic perspective view of axial location seat;
Figure 13 is for clamping the schematic perspective view of pulling claw;
Figure 14 is the operation principle schematic diagram for the pulling assembly of the built-in hydraulic expansion chuck of spline cold roll forming machine;
Figure 15 is the operation principle schematic diagram for the centre with endlong movement assembly of the built-in hydraulic expansion chuck of spline cold roll forming machine;
Figure 16 is the three-dimensional working state schematic representation for the built-in hydraulic expansion chuck of spline cold roll forming machine;
Figure 17 is the working state schematic representation for the built-in hydraulic expansion chuck of spline cold roll forming machine.
In figure: 1, workpiece; 2, chuck; 3, axial location is top; 4, machine tool chief axis;
5, dop; 6, body flange; 7, top; 8, tailstock sleeve; 9, first clamp adapter sleeve; 10, clamp transition pawl; 11, adpting flange; 12, transition adapter sleeve; 13, second clamp adapter sleeve; 14, screw; 15, sleeve; 16, spring; 17, attaching nut;
18, flange location and installation assembly; 19, axial location radial elastic clamp assembly; 20, coupling assembling; 21, centre with endlong movement assembly;
22, body; 22a, body clamp the conical surface; 22b, body connect the conical surface; 22c, elastic chuck set screw hole; 22d, axial location seat set screw hole; 22e, axial location seat are installed end face; 22f, body screw thread; 22g, body fixing screw hole; 22h, mounting screw pass through hole; 23, mounting screw; 24, body hold-down screw; 25, terminal pad; 25a, terminal pad are installed the conical surface; 25b, terminal pad connect the conical surface; 25c, body retaining thread hole; 25d, terminal pad mounting screw hole; 26, elastic chuck holding screw; 27, positioning seat holding screw;
28, axial positioning sleeve; 28a, axial positioning sleeve location end face; 29, positioning sleeve housing screw; 30, elastic chuck; 30a, elastic chuck holes for clamping; 30b, open slot; 30c, elastic chuck clamp the conical surface; 30d, elastic chuck locating slot; 30e, elastic chuck hook groove; 30f, elastic chuck drag hook; 30g, notch; 31, axial location seat; 31a, axial location seat groove; 31b, positioning seat screw thread; 31c, axial positioning sleeve are installed screwed hole; 31d, axial positioning sleeve installed surface; 31e, positioning seat endoporus; 31f, body are installed end face; 31g, positioning seat circumferencial direction locating hole; 31h, mark; 32, clamp pulling claw; 32a, pulling claw; 32b, clamping pulling claw drag hook; 32c, connecting thread;
33, branch sleeve; 34, branch sleeve support ring; 35, branch sleeve support ring holding screw; 36, attaching nut;
37, centre with endlong movement; 38, housing screw; 39, bearing; 40, spring spool; 41, spring compression circle; 42, spring spool right support ring; 43, spring conductor rod; 44, butterfly spring; 45, end ring; 46, spring spool left support ring;
47, tailstock centre; 48, clamping cylinder.
In another figure: L1, the distance of little centre bore workpiece end face and machine tool chief axis end face while using axial location top; The distance of L2, the use top Shi great of axial location center hole workpiece end face and machine tool chief axis end face; L3, for the axial positioning sleeve location end face of the built-in hydraulic expansion chuck of spline cold roll forming machine and the distance of machine tool chief axis end face; S1, tailstock centre clamping work pieces moving direction; S1 ', tailstock centre unclamp workpiece movable direction; S2, clamping cylinder clamping work pieces moving direction; S2 ', clamping cylinder unclamp workpiece movable direction.
Illustrate: tailstock centre, clamping cylinder, pull bar, workpiece do not belong to the content for the built-in hydraulic expansion chuck of spline cold roll forming machine, tailstock centre, clamping cylinder provide with lathe, pull bar otherwise designed is manufactured, and workpiece is the target for the built-in hydraulic expansion chuck of spline cold roll forming machine.
The specific embodiment
By the following examples, can explain in more detail the present invention, open the purpose of this utility model is intended to protect all changes and improvements in the scope of the invention.
By Fig. 3, known, built-in hydraulic expansion chuck for spline cold roll forming machine, by flange, be arranged on machine tool chief axis end face, its bar portion is positioned at machine tool chief axis hole, comprising: flange location and installation assembly 18, axial location radial elastic clamp assembly 19, coupling assembling 20 and centre with endlong movement assembly 21.Wherein flange location and installation assembly 18 is positioned at the left end outside for the built-in hydraulic expansion chuck of spline cold roll forming machine, axial location radial elastic clamp assembly 19 is positioned at the left end for the built-in hydraulic expansion chuck of spline cold roll forming machine, inside at flange location and installation assembly 18, coupling assembling 20 is positioned at the right-hand member outside of chuck, by screw thread, be connected with axial location radial elastic clamp assembly 19, centre with endlong movement assembly 21 is positioned at the central part for the built-in hydraulic expansion chuck of spline cold roll forming machine.
The effect of flange location and installation assembly 18 is that the built-in hydraulic expansion chuck for spline cold roll forming machine is arranged on to lathe.By Fig. 4, known, described flange location and installation assembly comprises: body 22, mounting screw 23, body hold-down screw 24, terminal pad 25, elastic chuck holding screw 26 and positioning seat holding screw 27.Wherein said terminal pad 25 use mounting screws 23 are arranged on the end face of machine tool chief axis 4 by terminal pad mounting screw hole 25d, body 22 use body hold-down screws 24 are arranged on the left end of terminal pad 25, and its connecting portion is body retaining thread hole 25c body fixing screw hole 22g and terminal pad 25 of body 22.By Fig. 4, Fig. 5, known, described elastic chuck holding screw 26 is arranged in the elastic chuck set screw hole 22c on body 22, is used for preventing that elastic chuck 30 from rotating; Positioning seat holding screw 27 is arranged in the axial location seat set screw hole 22d on body 22, is used for preventing that axial location seat 31 is loosening.By Fig. 4, Fig. 5, Fig. 7, known, described terminal pad 25 right-hand members are shaped with conical surface 25a and match with the machine tool chief axis conical surface, and left end is shaped with conical surface 25b and matches with the conical surface 22b on described body 22.By Fig. 5, Fig. 7, Figure 11, known, on described body 22, be shaped with conical surface 22b and match with the conical surface 25b on described terminal pad 25, in addition, the left part of body 22 is shaped with internal taper hole 22a and matches with the conical surface 30c of elastic chuck 30, to clamp, unclamp workpiece.
By Fig. 4, Fig. 7, Fig. 8, known, with described mounting screw 23, by the terminal pad mounting screw hole 25d on terminal pad 25, described terminal pad 25 is fixed on machine tool chief axis end face, the built-in hydraulic expansion chuck that is used in spline cold roll forming machine rotates with lathe spindle synchronous.
The effect of axial location radial elastic clamp assembly 19 is: workpiece is carried out to axial location, clamps or unclamp workpiece.By Fig. 9, known, described axial location radial elastic clamp assembly 19, is positioned at the inside of flange location and installation assembly 18, comprising: axial positioning sleeve 28, positioning sleeve housing screw 29, elastic chuck 30, axial location seat 31 and clamp pulling claw 32.
By Fig. 9, Figure 12, known, described axial location seat 31 is connected and installed on the right side that is fixed on body 22 by body screw thread 22f and positioning seat screw thread 31b, and with described positioning seat holding screw 27, by the axial location seat set screw hole 22d on body 22, be fixed on the positioning seat circumferencial direction locating hole 31g place of axial location seat 31, prevent that axial location seat 31 is loosening in the course of the work; Described axial positioning sleeve 28 is installed screwed hole 31c by the axial positioning sleeve on positioning sleeve housing screw 29 and axial location seat 31 and is fixed on the left side of axial location seat 31.Separately by Fig. 9, known, while positioning, clamping action, the location end face 28a on axial positioning sleeve 28 does not move with respect to machine tool chief axis end face, and the location end face 28a of axial positioning sleeve 28 and machine tool chief axis end face distance L3 remain unchanged.
By Fig. 9, in conjunction with Figure 15, Figure 17, known, the positioning principle of axial location radial elastic clamp assembly 19 is: workpiece 1 is under the promotion of tailstock centre 47, press centre with endlong movement 37 to the right, centre with endlong movement 37 is stressed to move to right, workpiece 1 moves to right thereupon, after the location end face 28a of the top axial positioning sleeve 28 of the location of workpiece 1 end face, because location end face 28a and the machine tool chief axis end face distance L3 of axial positioning sleeve 28 remains unchanged, therefore the axial location of workpiece 1 is fixed, and realizes axial location.
By Figure 12, known, on described axial location seat 31, have three groove 31a, for the pulling claw 32a that clamps pulling claw 32 by pull elastic chuck 37.
By Fig. 5, known, described body 22 left parts are shaped with internal taper hole 22a; By Figure 11, known, described elastic chuck 30 left parts are shaped with endoporus 30a and male cone (strobilus masculinus) 30c, and be shaped with six open slot 30b, right part is shaped with three and hooks groove 30e, male cone (strobilus masculinus) 30c coordinates with the internal taper hole 22a on body 22, when elastic chuck 30 moves right like this, the endoporus 30a contraction clip clamping of workpieces of elastic chuck 30 left parts; When elastic chuck 30 is moved to the left, it is large that endoporus 30a resilience becomes, and unclamps workpiece.
By Figure 13, known, described clamping pulling claw 32 left parts are shaped with three pulling claw 32a, and right-hand member is shaped with connecting thread 32c, is external screw thread, and pulling claw 32a top is shaped with drag hook 32b.By Fig. 9, Figure 10, known, pulling claw 32a enters the left end of axial location seat 31 by three groove 31a of axial location seat 31 right-hand members, the drag hook 25b on pulling claw 25a top is in the inside of three hook groove 30e of elastic chuck 30 right-hand members, interlock and connect with elastic chuck drag hook 30 f, clamp like this pulling claw 32 and just can drive elastic chuck 30 to move left and right, thereby realize the clamping of workpiece 1, unclamp.
The effect of coupling assembling 20 is that the action of the clamping cylinder 48 of lathe outfit is delivered to axial location radial elastic clamp assembly 19.
By Figure 14, known, described coupling assembling 20 comprises: branch sleeve 33, branch sleeve support ring 34, branch sleeve support ring holding screw 35 and attaching nut 36.Described branch sleeve 33 left parts and right part are all shaped with internal thread, and the internal thread of left part is connected with the external screw thread that clamps pulling claw 32 right-hand members, and the internal thread of right part is installed attaching nut 36; On described attaching nut 36, be shaped with external screw thread and internal thread, external screw thread is connected with the internal thread of branch sleeve 33 right parts, and internal thread is connected with the clamping cylinder 48 that lathe is equipped with by pull bar.Described branch sleeve support ring 34 is arranged on the cylindrical of branch sleeve 33, with branch sleeve support ring holding screw, fixes 35, and branch sleeve support ring 34 is supporting branch sleeve 33 and moving in machine tool chief axis hole.
By Figure 17, in conjunction with Figure 14 and Fig. 4, known, for the clamping of the built-in hydraulic expansion chuck of spline cold roll forming machine, unclamp method and be: attaching nut 36 is connected with clamping cylinder 48 by pull bar (otherwise designed manufacture as required), while clamping action: clamping cylinder 48 draws to the right, drive successively attaching nut 36, branch sleeve 33, clamping pulling claw 32 and elastic chuck 30 to move to right, elastic chuck 30 endoporus 30a dwindle, to Workpiece clamping; While unclamping action: clamping cylinder 48 moves to left, drive successively attaching nut 36, branch sleeve 33, clamping pulling claw 32 and elastic chuck 30 to move to left, elastic chuck 30 endoporus 30a resiliences become large, unclamp workpiece.
The effect of centre with endlong movement assembly 21 is, workpiece 1 is carried out to radial location and the movement by centre with endlong movement 37 realizes axial location.By Figure 15, known, described centre with endlong movement assembly 21, comprising: centre with endlong movement 37, housing screw 38, bearing 39, spring spool 40, spring compression circle 41, spring spool right support ring 42, spring conductor rod 43, butterfly spring 44, end ring 45 and spring spool left support ring 46.
By Figure 15, known, described spring spool 40 left parts and right part are all shaped with internal thread, the internal thread mounting spring compacting ring 41 of right part; Described shock mount compacting ring 41 is shaped with guide rod hole and steam vent; Described spring conductor rod 43 right-hand members are arranged in the guide rod hole of spring compression circle 41, and butterfly spring 44 is led; Described butterfly spring 44 is sleeved on spring conductor rod 43 in groups; Described bearing 39 is thrust ball bearing, is contained in the left side of butterfly spring 44, if its objective is for installation and debugging with centre with endlong movement in use procedure 37 when butterfly spring 44 rotates, bearing 39 can reduce the friction between each part; Described end ring 45 right parts are all shaped with guide rod hole, and spring conductor rod 43 left ends are arranged in the guide rod hole of end ring 45; Described housing screw 38 is shaped with endoporus, is arranged in the internal thread of spring spool 40 left parts; Described centre with endlong movement 37 right-hand members are contained in the endoporus left end of housing screw 38; Described spring spool left support ring 46 and spring spool right support ring 42 are arranged on respectively on the cylindrical of spring spool 38 left parts and right part by interference fit.
Centre with endlong movement assembly 21 operation principles are, when the right pressure of centre bore of workpiece 1, centre with endlong movement 30 conical surfaces and workpiece 1 centre bore conical surface laminating, realize radial location; Top by end ring 45 and the right pressure butterfly spring 45 of bearing 39, butterfly spring 45 shrinks, centre with endlong movement 30 moves right, workpiece 1 and then moves to right, workpiece 1 end face leans against on the location end face 28a of axial positioning sleeve 28, because the location end face 28a of axial positioning sleeve 28 immobilizes with respect to machine tool chief axis endface position, thereby realize axial location.
Specifically describe the assemble method for the built-in hydraulic expansion chuck of spline cold roll forming machine below:
1, set screw hole aligns assemble method
1-1, by Fig. 9, axial location seat 31 is installed on body 22 by positioning seat screw thread 31b and body screw thread 22f, the body installation end face 31f that axial location seat on body 22 is installed on end face 22e and axial location seat 31 is adjacent to, mark 31h on visual inspection axial location seat 31 whether with body 22 on elastic chuck set screw hole 22c and axial location seat set screw hole 22d on the same straight line of circumferencial direction, if point-blank, illustrate that positioning seat holding screw 27 and elastic chuck holding screw 26 can carry out tightening to axial location seat 31 and elastic chuck 37, otherwise elastic chuck holding screw 26 and positioning seat holding screw 27 do not have tightening effect, need to carry out supplementary processing to body 22 or axial location seat 31, make mark 31h on axial location seat 31 and the elastic chuck set screw hole 22c on body 22 and axial location seat set screw hole 22d on the same straight line of circumferencial direction,
1-2, with conventional method measure mark 31h and elastic chuck set screw hole 22c and axial location seat set screw hole 22d place straight line by be threaded into the angle ω that direction differs (unit: degree), calculate as follows supplementary processing size S:
S=(T·ω)/360
Wherein T is the pitch of body screw thread 22f and positioning seat screw thread 31b.
1-3, the body installation end face 31f that the axial location seat on body 22 is installed on end face 22e and axial location seat 31 carry out supplementary processing, and supplementary processing is of a size of S; Or the axial location seat installation end face 22e on body 22 and the body installation end face 31f on axial location seat 31 are all carried out to supplementary processing, supplementary processing overall size is S;
After 1-4, supplementary processing, repeating step 1-1,1-2,1-3, until the mark 31h on axial location seat 31 and the elastic chuck set screw hole 22c on body 22 and axial location seat set screw hole 22d are on the same straight line of circumferencial direction;
2, the assemble method of axial location radial elastic clamp assembly and flange location and installation assembly
2-1, axial location seat 31 is installed on body 22 by positioning seat screw thread 31b and body screw thread 22f, make axial location seat on body 22 that body on end face 22e and axial location seat 31 is installed and end face 31f is installed is adjacent to;
2-2, the axial location seat set screw hole 22d place by Fig. 9 on body 22 load onto and screwed in place seat holding screw 27;
2-3, by Fig. 9, on axial location seat 31, by axial positioning sleeve, screwed hole 31c is installed and loads onto axial positioning sleeve 28 with positioning sleeve housing screw 29;
2-4, by three pulling claw 32a that clamp pulling claw 32 through three groove 31a that open on axial location seat 31;
2-5, by Fig. 9, elastic chuck 30 is packed in body 22, and make to clamp three drag hook 32b on pulling claw 32 and insert on elastic chucks 30 three for the notch 30g that clamp pulling claw drag hook and pass through;
2-6, rotation elastic chuck 30, make to clamp pulling claw drag hook 32b and enter elastic chuck hook groove 30e, even if clamping pulling claw drag hook 32b and elastic chuck drag hook 30f interlock;
2-7, the elastic chuck set screw hole 22c place by Fig. 9 on body 22 load onto and tighten elastic chuck holding screw 26, and clamping part has assembled;
2-8, by Fig. 4, with body hold-down screw 24, at the body fixing screw hole 22g place of body 22 and the 25c place, body retaining thread hole of terminal pad 25, load onto terminal pad 25, the installation of axial location radial elastic clamp assembly 18 and flange location and installation assembly 17;
3, the assemble method of coupling assembling
3-1, by Figure 14, on the cylindrical of branch sleeve 33, put branch sleeve support ring 34, and be fixed with branch sleeve support ring holding screw 35;
3-2, at the right-hand member of branch sleeve 33, load onto attaching nut 36, complete the assembling of coupling assembling 20;
4, the assemble method of centre with endlong movement assembly
4-1, by Figure 15, at the left end of spring spool 40, load onto spring spool left support ring 46, at the right-hand member of spring spool 40, load onto spring spool right support ring 42, and load onto spring compression circle 41;
4-2, press Figure 15 spring conductor rod 43 right-hand members are inserted in the guide rod hole of spring compression circles 41;
4-3, by Figure 15, butterfly spring 44 is installed on the spring conductor rod 43 in spring spool 40 in groups successively;
4-4, by Figure 15, bearing 39 is installed on the spring conductor rod 44 in spring spool 40;
4-5, by Figure 15, load onto end ring 45, spring conductor rod 43 left ends are inserted in the guide rod hole of end ring 45 right parts;
4-6, by Figure 15, by screw thread, load onto housing screw 38;
4-7, the right-hand member of centre with endlong movement 30 is inserted to the endoporus of housing screw 38, complete the assembling of centre with endlong movement assembly 21;
5, for the assemble method of the built-in hydraulic expansion chuck zoarium of spline cold roll forming machine
5-1, by the left end of centre with endlong movement 30, be the positioning seat endoporus 31e that center point inserts the axial location seat 31 of the axial location radial elastic clamp assembly 18 assemble;
5-2, from the right-hand member of centre with endlong movement assembly 21, load onto coupling assembling 20, the internal thread of branch sleeve 33 left ends is installed to the connecting thread 32c clamping on pulling claw 32 upper, complete the assembling for the built-in hydraulic expansion chuck of spline cold roll forming machine;
6, for the built-in hydraulic expansion chuck of spline cold roll forming machine and the assemble method of lathe
6-1, the right-hand member of the built-in hydraulic expansion chuck for spline cold roll forming machine is put into the spindle hole of lathe, and make terminal pad mounting screw hole 25d aim at the screwed hole on lathe spindle end face, with mounting screw 23, the built-in hydraulic expansion chuck for spline cold roll forming machine is installed and is fixed to lathe;
6-2, from lathe rear-end of spindle, load onto pull bar, link together with the clamping cylinder 48 with lathe configuration, for the installation of the built-in hydraulic expansion chuck of spline cold roll forming machine.
For implementing better the present invention, below, still with above-described embodiment, further illustrate the using method for the built-in hydraulic expansion chuck of spline cold roll forming machine:
In this embodiment, device therefor is that Switzerland GROB company produces ZRMe9 cold roll forming machine, lathe is for the spline cold rolling processing on splined shaft, this Machine Tool design processing parts length is 1000 millimeters, before using the built-in hydraulic expansion chuck for spline cold roll forming machine of the present invention, the workpiece that cannot processing length be greater than 1000 millimeters.Use after the built-in hydraulic expansion chuck for spline cold roll forming machine of the present invention, the part length of processing is 1024 millimeters, and the part length of processing can increase to 1100 millimeters.
By Fig. 3, in conjunction with Fig. 4, Fig. 9, known, built-in hydraulic expansion chuck for spline cold roll forming machine is divided into three layers from outside to inside: skin mainly comprises flange location and installation assembly 18 and coupling assembling 20, centre with endlong movement assembly 21 is at internal layer, axial location radial elastic clamp assembly 19 is mainly intermediate layer, but axial location seat 31 wherein extends to internal layer from skin, skin is the flange section of right-hand member, and intermediate layer is the groove 31a passing through for pulling claw 32a, and internal layer is positioning seat endoporus 31e.
By Figure 17, known, the clamping position of workpiece 1 is also at internal layer, workpiece 1 for the built-in hydraulic expansion chuck of spline cold roll forming machine by 18 pairs of internal layers of outer field flange location and installation assembly clamps, clamping force is delivered to elastic chuck 30 by the clamping pulling claw 32 in intermediate layer, clamping work pieces endoporus 30a by elastic chuck 30 shrinks or resilience, thereby clamps or unclamp workpiece 1.
Other parts manufacture of the present invention is installed according to universal method, the following describes the installation method of axial location radial elastic clamp assembly 19 and flange location and installation assembly 18.
When the built-in hydraulic expansion chuck that is used for spline cold roll forming machine is installed, first the connecting portion of axial location radial elastic clamp assembly 19 and flange location and installation assembly 18 is installed.By Fig. 5, known, on body 22, elastic chuck set screw hole 22c and axial location seat set screw hole 22d are on the same straight line of circumferencial direction.By Fig. 9, in conjunction with Fig. 5, Figure 10, Figure 11, Figure 12, known, during assembling, require positioning seat circumferencial direction locating hole 31g on axial location seat 31 and the elastic chuck locating slot 30d on elastic chuck 30 in the same direction of circumference, while guaranteeing that positioning seat circumferencial direction locating hole 31g aims at the axial location seat set screw hole 22d on body 22, elastic chuck locating slot 30d aims at the elastic chuck set screw hole 22c on body simultaneously.
Positioning seat circumferencial direction locating hole 31g and elastic chuck locating slot 30d be in the same direction of circumference in order to guarantee to assemble, when design axial location seat 22 and elastic chuck 30, and will be by the two design in the same direction of circumference.
By Figure 12, known, before assembling, first on the flange excircle of axial location seat 31, of marking pen, be mark 31h with the same direction of positioning seat circumferencial direction locating hole 31g place.Then assemble according to the following steps:
1, by Fig. 9, axial location seat 31 is installed on body 22 by positioning seat screw thread 31b and body screw thread 22f, the body installation end face 31f that axial location seat on body 22 is installed on end face 22e and axial location seat 31 is adjacent to, mark 31h on visual inspection axial location seat 31 whether with body 22 on elastic chuck set screw hole 22c and axial location seat set screw hole 22d on the same straight line of circumferencial direction, if point-blank, illustrate that positioning seat holding screw 27 and elastic chuck holding screw 26 can carry out tightening to axial location seat 31 and elastic chuck 37, otherwise elastic chuck holding screw 26 and positioning seat holding screw 27 do not have tightening effect, need to carry out supplementary processing to body 22 or axial location seat 31, make mark 31h on axial location seat 31 and the elastic chuck set screw hole 22c on body 22 and axial location seat set screw hole 22d on the same straight line of circumferencial direction,
2, with conventional method measure mark 31h and elastic chuck set screw hole 22c and axial location seat set screw hole 22d place straight line by be threaded into the angle ω that direction differs (unit: degree), calculate as follows supplementary processing size S:
S=(T·ω)/360
Wherein T is the pitch of body screw thread 22f and positioning seat screw thread 31b.
3, the body installation end face 31f axial location seat on body 22 being installed on end face 22e and axial location seat 31 carries out supplementary processing, and supplementary processing is of a size of S; Or the axial location seat installation end face 22e on body 22 and the body installation end face 31f on axial location seat 31 are all carried out to supplementary processing, supplementary processing overall size is S;
4, after supplementary processing, repeating step 1,2,3 carries out, until the mark 31h on axial location seat 31 and the elastic chuck set screw hole 22c on body 22 and axial location seat set screw hole 22d are on the same straight line of circumferencial direction;
5, axial location seat 31 is installed on body 22 by positioning seat screw thread 31b and body screw thread 22f, the body installation end face 31f that the axial location seat on body 22 is installed on end face 22e and axial location seat 31 is adjacent to;
6, by Fig. 9, the axial location seat set screw hole 22d place on body 22 loads onto and screwed in place seat holding screw 27;
7, by Fig. 9, on axial location seat 31, by axial positioning sleeve, screwed hole 31c is installed and loads onto axial positioning sleeve 28 with positioning sleeve housing screw 29;
8, three pulling claw 32a that clamp pulling claw 32 are passed to three groove 31a that open on axial location seat 31;
9, by Fig. 9, elastic chuck 30 is packed in body 22, and three drag hook 32b that make to clamp on pulling claw 32 insert three notch 30g that pass through for clamping pulling claw drag hook on elastic chuck 30;
10, rotate elastic chuck 30, make to clamp pulling claw drag hook 32b and enter elastic chuck hook groove 30e, even if clamping pulling claw drag hook 32b and elastic chuck drag hook 30f interlock;
11, by Fig. 9, the elastic chuck set screw hole 22c place on body 22 loads onto and tightens elastic chuck holding screw 26, steps up part and has assembled;
12, by Fig. 4, with body hold-down screw 24, at the body fixing screw hole 22g place of body 22 and the 25c place, body retaining thread hole of terminal pad 25, load onto terminal pad 25, the assembling of axial location radial elastic clamp assembly 18 and flange location and installation assembly 17 completes;
After axial location radial elastic clamp assembly 19 and flange location and installation assembly 18 have assembled, assemble according to the following steps other parts:
1, press Figure 14 assembly connection assembly 20;
2, press the centre with endlong movement schematic diagram assembling centre with endlong movement assembly 21 of Figure 15;
3,, after centre with endlong movement assembly 21 has assembled, the centre with endlong movement of left end 30 is inserted into the dead axle of axial location radial elastic clamp assembly 19 in the positioning seat endoporus 31e of positioning seat 31;
4, by Figure 14, with the connecting thread 32c of the internal thread of branch sleeve 33 left ends and clamping pulling claw 32 right-hand members, coupling assembling 20 and axial location radial elastic clamp assembly 19 are assembled together;
5, check each several part assembling situation, complete the assembly work for the built-in hydraulic expansion chuck of spline cold roll forming machine.
6, finally by Figure 17, with mounting screw 23, the built-in hydraulic expansion chuck for spline cold roll forming machine to be installed on machine tool chief axis 4 be adjustable, used.
By Figure 16 and Figure 17, know that the built-in hydraulic expansion chuck for spline cold roll forming machine has coordinated the location of workpiece 1, clamping with tailstock centre 47 and clamping cylinder 48.
Illustrate: tailstock centre 47 and clamping cylinder 48 and described pull bar do not belong to the scope for the built-in hydraulic expansion chuck of spline cold roll forming machine, with lathe, configure or purchase separately; Workpiece 1 does not belong to the scope for the built-in hydraulic expansion chuck of spline cold roll forming machine yet, is the target for the built-in hydraulic expansion chuck of spline cold roll forming machine.
Below by Figure 17 in conjunction with foregoing explanation for the built-in hydraulic expansion chuck of spline cold roll forming machine the using method on ZRMe9 cold roll forming machine:
1, according to such scheme, design the technical drawing for the built-in hydraulic expansion chuck of spline cold roll forming machine;
2, according to technical drawing, purchase or produce required whole parts;
3, according to technical drawing, by purchasing or producing required whole parts, by above-mentioned steps, be assembled into the built-in hydraulic expansion chuck for spline cold roll forming machine;
4, the built-in hydraulic expansion chuck for spline cold roll forming machine assembling is fixed to lathe by the mounting screw on body 22 by the terminal pad mounting screw hole 25d on hole 22h and terminal pad 25 with mounting screw 23, the centre with endlong movement assembly 21 of the coupling assembling 20 of its right-hand member bar portion and inside thereof is on ZRMe9 cold roll forming machine in spindle hole, and the flange location and installation assembly 18 of left end flange portion is arranged on machine tool chief axis end face;
5, with pull bar, the attaching nut of the built-in hydraulic expansion chuck for spline cold roll forming machine 36 is coupled together with the hydraulic clamp oil cylinder 48 that lathe is equipped with;
6, start lathe power supply, make lathe in can duty;
7, according to workpiece 1 processing part dimensional requirement, in conjunction with machine tool numerical control system, require to write nc program, and audit program is correct;
8, check that tailstock tool is top 47, clamping cylinder 48 etc., make it in can duty;
9, workpiece 1 is put between tailstock centre 47 and the built-in hydraulic expansion chuck for spline cold roll forming machine: because the workpiece 1 of the present embodiment reaches 1024 millimeters, size, weight are larger, therefore bracing frame is installed on machine tool guideway, workpiece 1 is placed on bracing frame;
While 10, working due to ZRMe9 cold roll forming machine, impulsive force is very large, injure operating personnel's health when avoiding lathe to start, hand particularly, adopt both hands to start tailstock centre and clamp step switch, tailstock centre 47 to the right S1 direction, along stretching out, enters workpiece 1 centre bore and pushes workpiece 1, and workpiece 1 is moved right by tailstock centre 47 effects, centre with endlong movement 37 heads into workpiece 1 right-hand member centre bore, realizes two centre bore radial locations; Workpiece 1 continues to move right under tailstock centre 47 effects, butterfly spring 45 is subject to force compresses, and along with top indentation to the right, 28 axial positioning sleeve location end face 28a of workpiece 1 right side and axial positioning sleeve are adjacent to, realize axial location, thereby complete the location to workpiece 1;
11, under digital control system is controlled, clamping switch starts;
12, under digital control system is controlled, clamping cylinder 48 moves to stepping up direction S2 direction, by pull bar, attaching nut 36, branch sleeve 33, clamping pulling claw 32, drive elastic chuck 37, move right, elastic chuck 30 clamping work pieces endoporus 30a reduced, step up workpiece 1; So far complete location and clamp action, lathe possesses the processing conditions to workpiece;
13, digital control system starts procedure, and machine tool chief axis 4 drives workpiece to rotate;
14, lathe is under digital control system is controlled, according to the procedure processing work 1 setting;
15, machine, under digital control system is controlled, machine tool chief axis 4 stops operating;
16, under digital control system is controlled, clamping cylinder 48 moves to unclamping direction S2 ' direction, by pull bar, attaching nut 36, branch sleeve 33, clamping pulling claw 32, drive elastic chuck 30, be moved to the left, elastic chuck clamping work pieces endoporus 30a diameter, because resilience becomes large, unclamps workpiece 1;
17, under digital control system is controlled, start tailstock centre and unclamp step switch, tailstock centre 47 is return along S1 ' direction, from axial direction, unclamps workpiece 1;
18, workpiece 1 is unloaded;
19, complete a fabrication cycles, start the next part of clamping, carry out next fabrication cycles.
Further illustrate: in order to disclose object of the present invention in this paper specific embodiment selected embodiment, current think suitable, but it should be noted that the present invention is intended to comprise that all belong to all changes and the improvement of the embodiment in this design and the scope of the invention.

Claims (7)

1. the built-in hydraulic expansion chuck for spline cold roll forming machine, it is characterized in that: the built-in hydraulic expansion chuck that is arranged in machine tool chief axis end face spindle hole, chuck for step revolving body, comprising: flange location and installation assembly (18), axial location radial elastic clamp assembly (19), coupling assembling (20) and centre with endlong movement assembly (21); Described centre with endlong movement assembly (21) is positioned at the central part of built-in hydraulic expansion chuck, the left end of described centre with endlong movement assembly (21) is provided with axial location radial elastic clamp assembly (19), the outer setting of left end has flange location and installation assembly (18), the coupling assembling (20) that passes through of described flange location and installation assembly (18) is connected with axial location radial elastic clamp assembly (19) screw thread, and coupling assembling (20) is positioned at the right-hand member outside of chuck.
2. a kind of built-in hydraulic expansion chuck for spline cold roll forming machine according to claim 1, is characterized in that: described flange location and installation assembly (18) comprising: body (22), mounting screw (23), body hold-down screw (24), terminal pad (25), elastic chuck holding screw (26) and positioning seat holding screw (27); Wherein for terminal pad, mounting screw (23) is fixedly connected on machine tool chief axis end face, it is upper that body (22) is fixedly connected on terminal pad (25) with body hold-down screw (24), is used for preventing that the elastic chuck holding screw (26) that elastic chuck (30) rotates is fixedly connected in the elastic chuck set screw hole (22c) on body (22); Be used for preventing that the loosening positioning seat holding screw (27) of axial location seat (31) is fixedly connected in the axial location seat set screw hole (22d) on body (22); Described elastic chuck set screw hole (22c) and axial location seat set screw hole (22d) are arranged on the same circumferencial direction of body (22); Described body (22) left part is provided with so that elastic chuck shrinks the body clamping conical surface (22a) that clamps part, and it is that internal taper hole clamps the conical surface that body clamps the conical surface (22a); Right part is provided with the body screw thread (22f) to positioning seat (31) in order to installation shaft, and body screw thread (22f) is internal thread.
3. a kind of built-in hydraulic expansion chuck for spline cold roll forming machine according to claim 1, it is characterized in that: described axial location radial elastic clamp assembly (19) comprising: axial positioning sleeve (28), positioning sleeve housing screw (29), elastic chuck (30), axial location seat (31), clamp pulling claw (32), on wherein said axial location seat (31), be provided with positioning seat screw thread (31b), by described positioning seat screw thread (31b) and body screw thread (22f), be arranged on body (22) right side, on positioning seat screw thread (31b), be provided with positioning seat circumferencial direction locating hole (31g), on the flange excircle of axial location seat (31) right-hand member, the position consistent with positioning seat circumferencial direction locating hole (31g) circumferencial direction is provided with mark mark (31h), and on described axial location seat (31), be provided with for the pulling claw (32a) that clamps pulling claw (32) by pull three grooves (31a) of elastic chuck (30) clamping work pieces.
4. a kind of built-in hydraulic expansion chuck for spline cold roll forming machine according to claim 1, is characterized in that: described axial positioning sleeve (28) is fixed on the left side of axial location seat (31) by positioning sleeve housing screw (29); Described elastic chuck (30) left part arranges the elastic chuck clamping conical surface (30c) with endoporus, it is male cone (strobilus masculinus) that elastic chuck clamps the conical surface (30c), elastic chuck clamps the conical surface (30c) and coordinates with the body clamping conical surface (22a), there is the station of endoporus contraction clip clamping of workpieces, or the station of workpiece is unclamped greatly in the change of rebounding; Elastic chuck (30) left end is provided with so that endoporus can shrink six open slots (30b) that diminish when clamping, right part is provided with three and hooks groove (30e), three hook groove (30e) and interlock with the drag hook (32b) that clamps pulling claw (32), elastic chuck (30) has and moves right under driving clamping pulling claw (32), the station of endoporus (30a) contraction clip clamping of workpieces; Elastic chuck (30) has and is moved to the left under driving clamping pulling claw (32), and it is large that endoporus (30a) resilience becomes, and unclamps the station of workpiece; Described clamping pulling claw (32) left part is provided with three pulling claws (32a), right-hand member is provided with external screw thread (32c), pulling claw (32a) top is provided with drag hook (32b), pulling claw (32a) is the left end to axial location seat (31) by three grooves (31a) on axial location seat (31), is connected with three hook grooves (30e) of elastic chuck (30) right-hand member.
5. a kind of built-in hydraulic expansion chuck for spline cold roll forming machine according to claim 1, it is characterized in that: described coupling assembling (20) comprising: branch sleeve (33), branch sleeve support ring (34), branch sleeve support ring holding screw (35) and attaching nut (36), described branch sleeve (33) left part and right part are all provided with internal thread, the internal thread of left part and the external screw thread screwed connection that clamps pulling claw (32) right-hand member, the internal thread of right part and attaching nut (36) screwed connection; Described attaching nut is provided with external screw thread and internal thread on (36), the internal thread screwed connection of external screw thread and branch sleeve right part, and internal thread is connected with the clamping cylinder that lathe is equipped with by pull bar; Supporting branch sleeve mobile branch sleeve support ring (34) in machine tool chief axis hole is fixed on the cylindrical of branch sleeve (33) by branch sleeve support ring holding screw (35).
6. a kind of built-in hydraulic expansion chuck for spline cold roll forming machine according to claim 1, is characterized in that: described centre with endlong movement assembly (21) comprising: centre with endlong movement (37), housing screw (38), bearing (39), spring spool (43), spring compression circle (41), spring spool right support ring (42), spring conductor rod (43), butterfly spring (44), end ring (45) and spring spool left support ring (46).
7. a kind of built-in hydraulic expansion chuck for spline cold roll forming machine according to claim 1, it is characterized in that: described spring spool (43) left part and right part are all provided with internal thread, the internal thread of right part is provided with spring compression circle (41); On described spring compression circle (41), be provided with guide rod hole and steam vent; Described spring conductor rod (43) right-hand member is arranged in the guide rod hole of the spring compression circle that butterfly spring (44) is led; Described butterfly spring (44) is arranged on spring conductor rod (43) in groups; Described bearing (45) is thrust ball bearing, reduces the thrust ball bearing of butterfly spring friction is arranged on to butterfly spring (44) left side; Described end ring (45) right-hand member setting is shaped with guide rod hole, and spring conductor rod (43) left end is arranged in the guide rod hole of end ring (45); Described housing screw (38) is provided with endoporus in the internal thread that is fixed on spring spool (40) left part; Described centre with endlong movement (37) right-hand member arranges in housing screw endoporus; Described spring spool left support ring (46) and spring spool right support ring (42) are separately fixed on the end cylindrical of spring spool (40) left and right by interference fit.
CN201320476667.XU 2013-08-06 2013-08-06 Built-in hydraulic clamping chuck for spline cold-rolling machine tool Expired - Fee Related CN203459424U (en)

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Application Number Priority Date Filing Date Title
CN201320476667.XU CN203459424U (en) 2013-08-06 2013-08-06 Built-in hydraulic clamping chuck for spline cold-rolling machine tool

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201320476667.XU CN203459424U (en) 2013-08-06 2013-08-06 Built-in hydraulic clamping chuck for spline cold-rolling machine tool

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103433303A (en) * 2013-08-06 2013-12-11 中国一拖集团有限公司 Built-in hydraulic clamping chuck used for spline cold rolling machine tool and assembly machine

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103433303A (en) * 2013-08-06 2013-12-11 中国一拖集团有限公司 Built-in hydraulic clamping chuck used for spline cold rolling machine tool and assembly machine
CN103433303B (en) * 2013-08-06 2015-08-19 中国一拖集团有限公司 For built-in hydraulic expansion chuck and the assemble method of spline cold roll forming machine

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