CN106270826B - A kind of four station arbor flanges of lathe - Google Patents

Abstract

The invention discloses a kind of lathe four station arbor flanges, including fixed seat, rotating disk, fixing axle, centre drill clamping body, straight shank twist drill clamping body, screw tap gripping sleeve and reamer gripping sleeve.Rotating disk is fixed in fixed seat by fixing axle, and four side plane difference installation centers of rotating disk bore clamping body, straight shank twist drill clamping body, screw tap clamping body and reamer clamping body, and each clamping body installs corresponding cutters.The present invention when lathe turning process, can one-time positioning installation carry out multiple working procedure processing, stir rotating disk selection cutter and can be carried out corresponding process and process.And the mechanism structure is simple, easy to use, replacing cutter is easy, quick, can save withdrawing, feed and to the knife time, improve operating efficiency.Meanwhile the present invention ensures the positioning precision of cutter, it is easy to process the parts of high quality.

Description

A kind of four station arbor flanges of lathe

Technical field

The invention belongs to metal cutting process field, and in particular to a kind of lathe with four station arbor flanges.

Background technology

When on engine lathe by tool sharpening External Shape, need to carry out multiple turning process, example to processing part Such as：Tapping again after punching, other multiple working procedures, all process steps such as fraising can not be realized by same cutter after punching, therefore Cutter fixed on lathe must be changed while converting process.The cutter clamping device front end of traditional structure can only clamping one Cutter, when changing cutter, it is necessary to the cutter of a upper process is unloaded completely, then the new cutter of clamping again, change cutter mistake Journey is cumbersome, and operating efficiency is low, and labor strength is big, and workpiece scrappage is also higher caused by tool damage.

The content of the invention

The present invention makes improvement for above-mentioned technical problem, proposes a kind of four station arbor flanges of lathe, should Mechanism structure is simple, easy to use, and it is easy, quick to change cutter.When lathe turning is processed, arrived as long as stirring rotating disk Corresponding tool position can be carried out multicutter, multistage manufacturing processes, eliminate withdrawing, feed and the process to knife, save Plenty of time, operating efficiency have also obtained larger raising.

The present invention is achieved by the following technical solutions：

A kind of four station arbor flanges of lathe, including fixed seat, fixing axle, rotating disk, centre drill clamping body, staight shank fiber crops Flower bores clamping body, screw tap transition sleeve, screw tap clamping body, reamer transition sleeve and reamer clamping body；Fixed seat is arranged on lathe side's knife On frame, rotating disk is connected by fixing axle with fixed seat, and compression spring and unilateral thrust are provided among rotating disk and fixed seat Nut check is fixed by band in ball bearing, rotating disk outer face；The centre drill clamping body, straight shank twist drill clamping body, silk Attack transition sleeve and reamer transition is placed in the blind hole of four sides of rotating disk, above-mentioned four are compressed by interior hexagonal holding screw Part；Screw tap clamping body is crossed in set installed in screw tap, and screw tap, which crosses, installs compression spring additional in set, screw tap clamping body key point groove face is by interior six Angle band shoulder positioning screw, which is fixed on screw tap transition sleeve, prevents screw tap clamping body from rotating, and reamer clamping body is arranged on reamer transition sleeve It is interior, fixed by fluting threaded and jump ring, using floating connection.

Further fixed seat is T-type structure, and there is screwed hole centre, and there is steel ball positioning hole both sides.

Further fixing axle is bolt structure, and middle milling flat, there are screw thread, one end and fixed seat neutral threaded hole in both ends Connection, the other end are connected nut with the band being made up of bakelite handle, connecting rod and nut.

Further rotating disk is cylinder and uniform four planes on side, and identical is processed in each plane There is the screwed hole of installation holding screw blind hole, end face side, and opposite side has steel ball location sphere.

Beneficial effect：

1. the four stations arbor flange is arranged on lathe square tool post, it is easy to the operation and use of cutter.It is of the invention abundant The self-acting feed function of lathe saddle is make use of, is eliminated using lathe tailstock, every procedure is saved and adjusts tailstock back and forth Time, reduce the labor intensity of operator, improve labor productivity, reduce production cost.

2. using the uniform Cutting tool installation manner mode in rotating disk periphery, rotating disk is freely rotatable, and can be processed according to part will Ask, suitable cutter model and specification are installed, the manufacturing procedure of part, mass when being processed beneficial to product multicutter can be reduced Production, improve the production efficiency of lathe.

3. rotating disk periphery executing agency's mounting hole uses uniform sizes tolerance fit with executing agency's connector, improve The interchangeability of executing agency, as long as changing the clamping body of executing agency, so that it may to change tool specification and type, expanded the knife Has the use range of clamping mechanism.

4. screw tap clamping body, using being slidably connected, reset force, screw tap and folder is provided by compression spring with screw tap transition sleeve Tight body is fixed, the auto-feed in tapping process, is resetted during retrogressing, is avoided from unsuitable lathe by spring force The human cost that refining losses caused by feed speed or hand feed are brought wastes.

5. reamer clamping body uses floating structure with reamer transition sleeve, realize and reamed on lathe, improve car The use range of bed.

Brief description of the drawings

Fig. 1 is a kind of four station disc type cutter frame structure schematic diagrames of lathe of the invention.

Fig. 2 is rotating mechanism structural representation of the present invention.

Fig. 3 is executing agency's centre drill mounting structure schematic diagram of the present invention.

Fig. 4 is executing agency's straight shank twist drill mounting structure schematic diagram of the present invention.

Fig. 5 is executing agency's screw tap mounting structure schematic diagram of the present invention.

Fig. 6 is executing agency's reamer installation structure schematic diagram of the present invention.

Fig. 7 is fixed mechanism structural representation of the present invention.

Fig. 8 is rotating disk detail view of the present invention.

Fig. 9 is fixed seat detail view of the present invention.

Figure 10 is Fig. 5 screw tap mounting structure detail views.

Figure 11 is Fig. 6 reamer installation structure detail views.

1- fixed seats in figure；2- positioning balls；3- steel ball compression springs；Hexagonal holding screw M10 × 25 in 4-；5- is unidirectional Thrust ball bearing；6- compression springs；7- cross recessed countersunk head sscrews；8- stage clip catch；9- screw tap clamping body compression springs；10- silks Attack transition sleeve；11- bearing pins；12- screw tap clamping bodies；Hexagonal holding screw M6 × 16 in 13-；Hexagonal belt shoulder positioning screw in 14-； 15- fluting threadeds；16- reamer clamping bodies；17- reamer transition sleeves；18- jump rings；19- bakelite handles；20- connecting rods；21- spiral shells It is female；22- big flat washers；23- fixing axles；24- rotating disks；Hexagonal holding screw M6 × 8 in 25-；26- centre drill clamping bodies； Hexagonal holding screw M6 × 12 in 27-；28- straight shank twist drill clamping bodies.

Embodiment

Present invention is illustrated with reference to embodiment and accompanying drawing.

A kind of four station arbor flanges of lathe, it is characterised in that including fixed seat 1, fixing axle 23, rotating disk 24, in The heart bores clamping body 26, straight shank twist drill clamping body 28, screw tap transition sleeve 10, screw tap clamping body 12, reamer transition sleeve 17 and reamer Clamping body 16.

The fixed seat 1 is arranged on lathe square tool post, has screwed hole and bearing mounting hole among fixed seat, there is steel both sides Pearl positioning hole；There is screw thread at the both ends of fixing axle 23, and one end is connected with the neutral threaded hole of fixed seat 1, and positioning ball 2 passes through compression spring 3 and interior hexagonal holding screw 4 be arranged on fixed seat 1 both sides steel ball positioning hole；

The rotating disk 24 and installation compression spring 6, single direction thrust ball bearing 5 among fixed seat 1, are connected by fixing axle 23 Connect, the outer face of rotating disk 24 is by big flat washer 22 and the band being made up of bakelite handle 19, connecting rod 20, nut 21 nut check Fixed, rotating disk 24 has location sphere with the contact face of fixed seat 1, and positioning is contacted with locking ball 2；

The centre drill clamping body 26, straight shank twist drill clamping body 28, screw tap transition sleeve 10 and reamer transition sleeve 17 are placed in In the blind hole of 24 4 sides of rotating disk, interior hexagonal holding screw 25 compresses above-mentioned four by the end face outside screwed hole of rotating disk 24 Individual part；The intermediate throughholes of centre drill clamping body 26, centre drill are installed in through hole, and uniform by the head of centre drill clamping body 26 Four interior hexagonal holding screws 27 are fixed；The intermediate throughholes of straight shank twist drill clamping body 28, straight shank twist drill are installed in through hole, and Fixed by four uniform interior hexagonal holding screws 13 of the head of straight shank twist drill clamping body 28；Installation screw tap in screw tap transition sleeve 10 Clamping body 12, compression spring 8, one end central blind hole installation screw tap of screw tap clamping body 12, and by four uniform interior hexagonals of periphery Holding screw 13 is fixed, other end screwed hole of centre, off-center pin-and-hole, is pressed into bearing pin 11, is provided with keyway on the face of cylinder, and interior six Angle band shoulder positioning screw 14 is stretched into keyway by screw tap transition sleeve 10, and compression spring 9 passes through stage clip by cross recessed countersunk head sscrew 7 Catch 8 loads in screw tap transition sleeve 10；Installation reamer clamping body 16 in reamer transition sleeve 17, by fluting threaded 15 and jump ring 18 are fixed, and the intermediate throughholes of reamer clamping body 16, reamer is installed in through hole, and by uniform four in the head of reamer clamping body 16 Hexagonal holding screw 27 is fixed.

The fixed seat 1 is T-type structure, and rotating disk 24 is cylinder and uniform four planes on side.

The rotating disk 24 is connected through fixing axle 23 with fixed seat 1, installation compression bullet between rotating disk 24 and fixed seat 1 Spring 6, single direction thrust ball bearing 5, compression spring 6 ensure that rotating disk 24 can be stirred freely with single direction thrust ball bearing 5.

A kind of four station arbor flanges of described lathe, including rotating mechanism, it is fixed on the four of four sides of rotating disk The executing agency of station and fixed mechanism；The rotating mechanism is connected to fixed mechanism end face outside, and is positioned by positioning ball； The rotating mechanism includes rotating disk 24, interior hexagonal holding screw 25；The executing agency includes centre drill clamping body 26, staight shank Fluted drill clamping body 28, screw tap transition sleeve 10, screw tap clamping body 12, reamer transition sleeve 17 and reamer clamping body 16；The fixation Mechanism includes fixed seat 1, fixing axle 23, and fixing axle 23 is threadedly attached in the center screw of fixed seat 1, and by fixed seat 1 big face is positioned with knife rest lateral surface to ensure its position degree requirement.

The lathe is arranged on lathe saddle with rotatable tool clamping mechanism, and rotating mechanism drives executing agency around fixation Mechanism rotates, and rotary shaft is vertical with machine tool chief axis, and fixed seat is parallel with machine tool chief axis.

Blind hole can adjust a variety of cutter transition sleeves of installation on described 24 4 sides of rotating disk, have tightening on transition sleeve Hole, and fixed by holding screw.

The executable portion cutter of the executing agency is placed in clamping body, and is fixed by holding screw；Screw tap clamping body 12 It is placed in screw tap transition sleeve 10, and is slided by keyway, reset force is provided by compression spring 8；Reamer clamping body 16 is placed in reamer Fixed in transition sleeve 17 by fluting threaded 15 and jump ring 18, using floating structure.

With reference to a kind of lathe in accompanying drawing 1,2 and 7 four station arbor flanges, including fixed seat 1, fixing axle 23, rotating disk 24 The fixed mechanism and rotating mechanism of composition；Fixed seat 1 is installed on the square tool post of engine lathe, in rotating disk 24 and fixed seat 1 Between install compression spring 6, single direction thrust ball bearing 5, connected by fixing axle 23；The outer face of rotating disk 24 passes through big flat washer 22 and the band that is made up of bakelite handle 19, connecting rod 20, nut 21 nut check is fixed, rotating disk 24 and the contact jaw of fixed seat 1 There is location sphere in face, and positioning, and the good center of centering are contacted with locking ball 2.

With reference to a kind of lathe in accompanying drawing 1,3,4,5 and 6 four station arbor flanges, including centre drill clamping body 26, staight shank fiber crops Flower bores clamping body 28, screw tap transition sleeve 10, screw tap clamping body 12, reamer transition sleeve 17 and reamer clamping body 16 and its connection.

Equipped with centre drill clamping body 26, fluted drill clamping body 28, screw tap transition sleeve 10, screw tap clamping body in rotating disk 24 12nd, reamer transition sleeve 17 and reamer clamping body 16.

Example process：Drill and ream hole machined：

On corresponding clamping body distinguish installation center bore,Fluted drill,Reamer.

Rotating disk is rotated, centre drill is correspondingly processed part, quick using lathe is moved to startup main shaft at workpiece, so (i.e. work is entered) machining center hole is fed at a slow speed afterwards to required size.

Quickly exited after the completion of centre bore to home, rotate rotating disk, makeFluted drill correspondingly processes part, becomes Change owner rotating speed, at fast feed to workpiece, then work enters processingHole.

Hole work is quickly exited to home after proceeding to required working depth, is rotated rotating disk, is madeReamer is corresponding Part is processed, converts the speed of mainshaft, work enters processingHole, until fraising complete then withdrawing to home,Drill reaming is complete Into.

Manufacturing batch part need to repeat the above steps.

M8 drillings, tapping process：

On corresponding clamping body distinguish installation center bore,Fluted drill, M8 screw taps.

Rotating disk is rotated, centre drill is correspondingly processed part, quick using lathe is moved to startup main shaft at workpiece, so (i.e. work is entered) machining center hole is fed at a slow speed afterwards to required size.

Quickly exited after the completion of centre bore to home, rotate rotating disk, makeFluted drill correspondingly processes part, becomes Change owner rotating speed, at fast feed to workpiece, then work enters processingHole.

Hole work is quickly exited to home after proceeding to required working depth, rotates rotating disk, makes screw tap is corresponding to add Work part, the speed of mainshaft is converted, knife rest is to feeding, until tapping is completed then main shaft and inverted, screw tap is in screw tap transition sleeve The lower withdrawing of stage clip traction, rapid return is to home after tapping knot speed；

Manufacturing batch part need to repeat the above steps.

Contrast：

Drilling and tapping is carried out to part on engine lathe

1st, traditional handicraft (attacking exemplified by M8) need to repeatedly change cutter and pull tail stock back and forth

1) drill centers：Load drill chuck in tailstock, drill point does not have Clamping Center brill dragging tail stock to be treated to close At workpiece, then lock tailstock and start main shaft, the crank on manual rotation's tailstock, the drill chuck on barrel of tail stock is advanced, Carry out being cut to required chamfer dimesion.(due to manual rotation therefore the feeding of average rate can not be kept).

2) boreHole, after the completion of drill centers, pull tailstock and leave to safe distance, unload centre drill and replace with Fluted drill, or replace with and be equipped withFried dough twist drill chuck adjusts the set speed of mainshaft to pull at tailstock to workpiece, and process is same as above.

3) attack M8, pull tailstock to home, change the Special Tapping Clamp equipped with M8 screw taps in barrel of tail stock, then Mobile tailstock adjusts the set speed of mainshaft, and main shaft inverts after completing silk, exits screw tap using special fixture and completes tapping.

First, part is drilled on engine lathe, reamed.

1st, traditional handicraft (withExemplified by), step is substantially the same as processing M8.

1) drill centers.

2) boreHole.

3) ream.

2nd, carry out the drilling and tapping of bulk of components using this fixture or drilling, fraising, disk of the invention or knife rest are installed on On the square tool post of engine lathe, and the good center of centering.

On arbor flange equipped with centre drill,Fluted drill, M8 screw taps.

Process：1 rotates arbor flange, centre drill is correspondingly processed part, and quick using lathe is moved to workpiece Place starts main shaft, then feeds (i.e. work is entered) machining center hole at a slow speed to required size.

Quickly exited after the completion of centre bore to home, rotate arbor flange, makeFluted drill correspondingly processes part, The speed of mainshaft is converted, at fast feed to workpiece, then work enters processingHole.

Quickly exited to home after working depth needed for the completion of hole, rotate arbor flange, make screw tap is corresponding to add Work part, the speed of mainshaft is converted, knife rest is to feeding, until fraising is completed then main shaft and inverted, screw tap is drawn in the stage clip of fixture Lower withdrawing, rapid return is to home after tapping knot speed.

Manufacturing batch part need to repeat the above steps.

Drilling, reaming procedure are same as above substantially, and tapping clamping fixture need to be only replaced by fraising clamping fixture, are changed corresponding Fluted drill and clamping fixture.

The embodiment is the preferred embodiment of the present invention, but the present invention is not limited to above-mentioned embodiment, is not being carried on the back From the present invention substantive content in the case of, those skilled in the art can make it is any it is conspicuously improved, replace or Modification belongs to protection scope of the present invention.

Claims (7)

1. four station arbor flanges of a kind of lathe, it is characterised in that including fixed seat (1), fixing axle (23), rotating disk (24), centre drill clamping body (26), straight shank twist drill clamping body (28), screw tap transition sleeve (10), screw tap clamping body (12), reamer Transition sleeve (17) and reamer clamping body (16)；

The fixed seat (1) is arranged on lathe square tool post, has screwed hole and bearing mounting hole among fixed seat, there is steel ball both sides Positioning hole；There is screw thread at fixing axle (23) both ends, and one end is connected with fixed seat (1) neutral threaded hole, and positioning ball (2) passes through compression Spring (3) and interior hexagonal holding screw (4) are arranged on the both sides steel ball positioning hole of fixed seat (1)；

The rotating disk (24) and installation compression spring (6), single direction thrust ball bearing (5) among fixed seat (1), pass through fixing axle (23) connect, rotating disk (24) outer face is by big flat washer (22) and by bakelite handle (19), connecting rod (20), nut (21) group Into band nut check is fixed, rotating disk (24) and fixed seat (1) contact face have location sphere, are connect with locking ball (2) Touch positioning；

The centre drill clamping body (26), straight shank twist drill clamping body (28), screw tap transition sleeve (10) and reamer transition sleeve (17) It is placed in the blind hole of (24) four sides of rotating disk, interior hexagonal holding screw (25) passes through rotating disk (24) end face outside screwed hole Compress centre drill clamping body (26), straight shank twist drill clamping body (28), screw tap transition sleeve (10) and reamer transition sleeve (17)；Center Clamping body (26) intermediate throughholes are bored, centre drill is installed in through hole, and by uniform four in centre drill clamping body (26) head Hexagonal holding screw (27) is fixed；Straight shank twist drill clamping body (28) intermediate throughholes, straight shank twist drill are installed in through hole, and by Four uniform interior hexagonal holding screws (13) of straight shank twist drill clamping body (28) head are fixed；Installed in screw tap transition sleeve (10) Screw tap clamping body (12), compression spring (8), screw tap clamping body (12) one end central blind hole installation screw tap, and uniform by periphery Four interior hexagonal holding screws (13) are fixed, other end screwed hole of centre, off-center pin-and-hole, press-in bearing pin (11), the face of cylinder On be provided with keyway, interior hexagonal belt shoulder positioning screw (14) is stretched into keyway by screw tap transition sleeve (10), and compression spring (9) is by ten Word groove sunk screw (7) is loaded in screw tap transition sleeve (10) by stage clip catch (8)；Installation reamer folder in reamer transition sleeve (17) Tight body (16), fixed by fluting threaded (15) and jump ring (18), reamer clamping body (16) intermediate throughholes, reamer is installed on through hole It is interior and fixed by four uniform interior hexagonal holding screws (27) of reamer clamping body (16) head.

2. four station arbor flanges of a kind of lathe according to claim 1, it is characterised in that the fixed seat (1) is T Type structure, rotating disk (24) are cylinder and uniform four planes on side.

3. four station arbor flanges of a kind of lathe according to claim 1, it is characterised in that the rotating disk (24) is worn Cross fixing axle (23) to be connected with fixed seat (1), compression spring (6), unilateral thrust are installed between rotating disk (24) and fixed seat (1) Ball bearing (5), compression spring (6) ensure that rotating disk (24) can be stirred freely with single direction thrust ball bearing (5).

4. four station arbor flanges of a kind of lathe according to claim 1, it is characterised in that including rotating mechanism, admittedly Executing agency and fixed mechanism due to four stations of four sides of rotating disk；The rotating mechanism is connected on the outside of fixed mechanism End face, and positioned by positioning ball；The rotating mechanism includes rotating disk (24), interior hexagonal holding screw (25)；The execution Mechanism include centre drill clamping body (26), straight shank twist drill clamping body (28), screw tap transition sleeve (10), screw tap clamping body (12), Reamer transition sleeve (17) and reamer clamping body (16)；The fixed mechanism includes fixed seat (1), fixing axle (23), fixing axle (23) be threadedly attached in the center screw of fixed seat (1), and by big face and the knife rest lateral surface of fixed seat (1) position with Ensure its position degree requirement.

A kind of 5. four station arbor flanges of lathe according to claim 1, it is characterised in that the lathe rotatable knife Have clamping mechanism to be arranged on lathe saddle, rotating mechanism drives executing agency to rotate around fixed mechanism, rotary shaft and lathe master Axle is vertical, and fixed seat is parallel with machine tool chief axis.

A kind of 6. four station arbor flanges of lathe according to claim 1, it is characterised in that the rotating disk (24) four Blind hole can adjust a variety of cutter transition sleeves of installation on individual side, have tightening hole on transition sleeve, and fixed by holding screw.

7. four station arbor flanges of a kind of lathe according to claim 4, it is characterised in that the executing agency holds Row part cutter is placed in clamping body, and is fixed by holding screw；Screw tap clamping body (12) is placed in screw tap transition sleeve (10), and Slided by keyway, reset force is provided by compression spring (8)；Reamer clamping body (16) is placed in reamer transition sleeve (17) by slotting Threaded (15) and jump ring (18) are fixed, using floating structure.