CN202861454U - Deep hole machine tool suitable for tapered deep hole boring - Google Patents

Abstract

The utility model belongs to the technical field of tapered hole processing devices, and particularly provides a deep hole machine tool suitable for tapered deep hole boring and solves the problem that the conventional deep hole machine tool cannot adapt to the processing conditions of too large hole depth and small hole diameter. The deep hole machine tool comprises a machine tool body, a boring bar and a boring cutter, wherein holes are formed in the axial center and in the radial direction of the boring bar; the boring cutter is mounted in the radial hole of the boring bar; a double-cone core bar is arranged in the axial hole of the boring bar; two cones with the same conicity are arranged at the front end of the double-cone core bar; a floating support is also mounted on the boring bar; a taper hole is formed in the boring cutter; and the axial direction of the taper hole is parallel to that of the boring bar. The utility model has the benefits that the requirement of tapered deep hole processing with the deep hole machine tool is met, the defect of high possibility of deformation of the boring bar during deep taper hole processing is overcome, and the processing precision is improved.

Description

A kind of deep hole lathe that is applicable to the taper deep hole boring

Technical field

The utility model belongs to the technical field of processing bellmouth device, is specifically related to a kind of deep hole lathe that is applicable to the taper deep hole boring.

Background technology

The existing ripe technology of boring cylindrical hole, boring taper shallow bore hole is also realized easily.The taper hole that boring is very dark, its difficulty is the first, and the boring cutter bar amount of overhanging is large, and boring cutter bar is out of shape easily, is not easy to guarantee crudy.The second, in the shallow bore hole processing, the boring cutter radial feed realizes easily, and during the very dark taper hole of boring, the mode radial feed when boring cutter is difficult to according to the boring shallow bore hole.The 3rd, be difficult to directly adopt the Deep-Hole Drilling Technologies such as drill gun, BTA brill, DF brill to finish the boring of taper deep hole.Eighties of last century, the mankind have captured the technical barrier of machining medium-length hole processing, formed the modern Deep-Hole Drilling Technology of science, but this technology mainly is applicable to the processing of cylinder deep hole, its main feature is to adopt from leading the sizing cylindrical cutting tool, and the conical bore diameter is variable, and the processing of directly applying mechanically Deep-Hole Drilling Technology solution taper deep hole acquires a certain degree of difficulty.

Although when design, people avoid the circular cone deep-hole structures, in some cases, are difficult to avoid fully the circular cone deep-hole structures as far as possible.Such as, casting or during injection moulding, even cylindrical work sometimes often also will design pattern draft, this is just so that mould can be with taper hole, and when part is longer, just makes mould have the taper deep hole.In real work, people have explored the certain methods of processing taper deep hole, but these methods often have limitation, and such as adapting to the larger situation in aperture, perhaps, can only adapt to the hole is not too dark situation.

Summary of the invention

Goal of the invention of the present utility model: can not adapt to Kong Taishen in order to solve existing deep hole lathe, the processing situation that the aperture is little provides a kind of principle simple, wide adaptability, can be combined with modern cnc technology, can accurately control a kind of deep hole lathe that is applicable to the taper deep hole boring in taper hole aperture.

The utility model is achieved through the following technical solutions:

A kind of deep hole lathe that is applicable to the taper deep hole boring, comprise lathe bed, main shaft, main spindle box, scroll chuck, centre frame, revolving meber, the oil delivering unit support, the oil delivering unit seat, slide carriage and boring bar and boring cutter, the oil delivering unit support is fixed on the bed ways according to the length of bellmouth workpiece, the oil delivering unit seat is connected on the oil delivering unit support, the rear end of revolving meber is installed on the oil delivering unit seat by bearing, the front end of revolving meber contacts with bellmouth workpiece rear end face, the axial centre of described boring bar and radially all perforates, boring cutter is installed in the radial hole of boring bar, be provided with the Double-conical-surface core bar in the axial hole of boring bar, the front end of Double-conical-surface core bar arranges two conical surface bodies, the tapering of two conical surface equates, float support also is installed on the boring bar, float support comprises support bar, swivel nut and spring, swivel nut is fixed in boring bar, and support bar passes the hole at swivel nut center, the support bar bottom is with annular protrusion, between annular protrusion and the swivel nut spring is installed, is processed with keyway on the support bar, card has stop pin in the keyway; Have taper hole on the boring cutter, the axis direction of taper hole is parallel to the boring bar axis direction, be processed with two on the swivel nut upper surface and can insert the complementary connecting hole that nipper plier is screwed into swivel nut boring bar, on swivel nut bottom surface and position that boring bar contacts and all be processed with annular groove on the swivel nut centre bore hole wall, place respectively blind nut seal and float support seal in the annular groove of swivel nut bottom surface and in the annular groove of swivel nut centre bore hole wall

The inner cone of described Double-conical-surface core bar passes the taper hole of offering on the boring cutter, one side contacts of the inner cone of Double-conical-surface core bar and taper hole, opposite side separates, one end in contact of the rear cone of Double-conical-surface core bar and support bar, the gradient of this end face of support bar is consistent with the rear cone of Double-conical-surface core bar, an other end of support bar contacts with the bore area of bellmouth workpiece boring, the gradient of this end face of support bar is consistent with the hole taper of bellmouth workpiece, float support is provided with two, one of them float support axis is parallel with the boring cutter axis, and be positioned at the offside of boring cutter point of a knife with respect to the boring bar axis, another one float support axis is vertical with boring cutter axis antarafacial, and is positioned at the below of boring cutter;

Also be provided with cylinder core bar and screw thread spline core bar in the axial hole of boring bar, Double-conical-surface core bar and cylinder core bar, screw thread spline core bar is coaxial, the rear end of Double-conical-surface core bar is porose, hole and cylinder core bar front end minor diameter position match, there is a pin to be horizontally through both matching parts, the rear end of cylinder core bar is porose, match with screw thread spline core bar front end smaller diameter end in the hole, there is a pin to be horizontally through both matching parts, on the screw thread spline core bar behind threaded portion and the boring bar screw thread in the stomidium match, splined section on the screw thread spline core bar matches with spline housing, splined section and contiguous position thereof are provided with spatially and staggered many vertical graduation marks of core bar axis, spline housing links to each other with servomotor by shaft coupling, servomotor links to each other with servo motor control device, and servo motor control device links to each other with impulse generator, and impulse generator also links to each other with the feeding motor control assembly, the feeding motor control assembly links to each other with the feeding motor

Two symmetrical long spiro nails are installed on the boring cutter, and two long spiro nails pass the gathering sill of offering on the boring bar, link to each other with short screw on being fixed in boring bar by extension spring, and gathering sill is along the length of the boring cutter axis direction diameter greater than long spiro nail,

Go back perforate on the boring bar industrial endoscope be installed,

The rear end of boring bar passes the oil delivering unit seat and is fixedly connected with slide carriage, be provided with two radial direction through hole on the wall of oil delivering unit seat, also be provided with axially extending bore on the oil delivering unit seat wall, axially extending bore one end communicates with the radial direction through hole of close revolving meber one end, the axially extending bore other end communicates with cannelure on the revolving meber, the inner space of the inner space of oil delivering unit seat, the inner space of revolving meber and workpiece is connected, the scroll chuck of fixation workpiece front end is outside equipped with the scroll chuck cover, and scroll chuck cover bottom arranges chip removal mouth.

Both sides at the boring cutter bellmouth are processed with respectively cannelure, place the boring cutter seal in the groove.

One end of boring bar is equipped with the boring bar end cap, and boring bar end cap end face is offered cannelure, places boring bar end cap seal in the cannelure.

The transparent sealing lid is installed at the position of corresponding industrial endoscope camera lens on boring bar.

At cylinder core bar cylindrical and boring bar endoporus contact position O-ring seals is installed.

The beneficial effects of the utility model:

The first, utilize the motion of conical surface control cutter radial, satisfied the needs of deep hole machine tooling taper deep hole.

The second, two float supports are set, share respectively radial cutting force and cutting force, overcome in the deep taper hole process, boring bar holds yielding shortcoming.

The 3rd, be provided with the Double-conical-surface core bar, the tapering of two conical surfaces is identical, so that the radial motion of cutter is consistent with the radial motion of float support, so that float support can play a role in process all the time.Because float support one end and finished Surface Contact can play the benchmark of doing for oneself, selfguided effect to a certain extent, are conducive to improve machining accuracy.

The 4th, utilize servomotor and control device thereof, use simultaneously the radial motion of spline housing 23 and thread mechanism control cutter, technical scheme is simple, accurate, reliable, can satisfy the needs of processing high-quality taper deep hole.Be equipped with many graduation marks, can further grasp, check the taper hole diameter, prevent the generation of process quality issue.

The 5th, industrial endoscope is convenient to observe process, can in time process in case pinpoint the problems, and avoids being difficult to observe in the common deep hole machining process drawback of cutting situation.

Description of drawings

Fig. 1 is structural representation of the present utility model,

Fig. 2 be A-A to structural representation,

Fig. 3 is Double-conical-surface core bar structure schematic diagram,

Fig. 4 is cylinder core bar structural representation,

Fig. 5 is screw thread spline core bar structural representation,

Fig. 6 is the boring bar schematic diagram,

Fig. 7 be boring bar C-C to structural representation,

Among the figure: 1-lathe bed, 2-bellmouth workpiece, 3-scroll chuck, the 4-main spindle box, 5-main shaft, 6-boring bar end cap, the 7-boring bar, 8-boring bar end cap seal, 9-Double-conical-surface core bar, the 10-boring cutter, 11-boring cutter seal, 12-swivel nut, the 13-stop pin, 14-support bar, 15-float support seal, the 16-spring, 17-blind nut seal, 18-Work piece sealing spare, the 19-sealing ring, 20-bearing, 21-Y shape seal, 22-O shape seal, 23-spline housing, 24-shaft coupling, the 25-servomotor, 26-slide carriage, 27-screw thread spline core bar, 28-cylinder core bar, 29-oil delivering unit seat, 30-oil delivering unit support, the 31-servo motor control device, 32-revolving meber, 33-centre frame, the 34-industrial endoscope, 35-transparent sealing lid, 36-impulse generator, 37-scroll chuck cover, 38-short screw, 39-long spiro nail, the 40-extension spring, 41-feeding motor control assembly, 42-feeding motor.

The specific embodiment

Traditional deep hole lathe itself has the function of bore hole, and the utility model is changed a social system the deep hole lathe, can finish the taper deep hole boring.The part of the transformation of the way comprises the parts such as boring bar 7, boring cutter 10, Double-conical-surface core bar 9, cylinder core bar 28, screw thread spline core bar 27.Scroll chuck 3 on the main spindle box 4 of deep hole lathe will be clamped with the bellmouth workpiece 2 of taper deep hole, and centre frame 33 is by the other end of holding the bellmouth workpiece.

Oil delivering unit support 30 is fixed in a certain position of lathe bed 1 guide rail according to the length of bellmouth workpiece, be fixed with oil delivering unit seat 29 on the oil delivering unit support 30, one end of revolving meber 32 is installed on the oil delivering unit seat 29 by bearing, and the other end contacts with the bellmouth workpiece end face.

One end of boring bar 7 is fixedly connected with slide carriage 26, and boring bar 7 is made axial feed with slide carriage 26 along the movement of bed ways, and servomotor 25 and the shaft coupling 24 that is attached thereto, spline housing 23 are also thereupon mobile.The power resources of slide carriage motion are main motor.

Two radial direction through hole of wall processing at oil delivering unit seat 29 enter fluid from macropore, and fluid flows to the boring cutter place by the inner space of oil delivering unit seat 29, the inner space of revolving meber 32, washes away iron filings, cooling, lubricated working position.Iron filings, fluid are from other one section outflow of bellmouth workpiece.Be provided with scroll chuck cover 37 at the scroll chuck place, in the situation of the artificial in advance shutoff of spindle hole quilt, iron filings, fluid are under the effect of centrifugal force, be thrown in the scroll chuck cover from the space between the claw, prevent that fluid from throwing away, produce and pollute that the bottom of scroll chuck cover is provided with chip removal mouth, adopt prior art in time with the iron filings cleaning, prevent the iron filings accumulation.

Little radial direction through hole from oil delivering unit seat 29 walls enters other high-voltage oil liquid, by the pushing of the axial hole on oil delivering unit seat 29 walls revolving meber 32, prevents its axial play.

The boring cutter 10 that can move with respect to boring bar is installed in the transverse holes of boring bar 7, in the axial hole at boring bar center, is placed with Double-conical-surface core bar 9, cylinder core bar 28, screw thread spline core bar 27, at boring bar swivel nut 12, spring 16, float support 14 are installed.

Boring cutter 10 has taper hole, and the anterior conical surface of Double-conical-surface core bar 9 passes the taper hole that boring cutter is offered, and with the one side contacts, opposite side does not contact, i.e. relatively biasing.Because the tensioning function of 14 pairs of boring cutters of extension spring, single edge contact remains.When servomotor 25 rotations, when driving 27 rotation of screw thread spline core bars by shaft coupling 24 and spline housing 23, screw thread spline core bar 27 and the cylinder core bar 28 that is attached thereto, Double-conical-surface core bar 9 move axially with respect to boring bar 7, effect by Double-conical-surface core bar 9 inner cones, so that the boring cutter radial motion processes taper hole.

The rear portion conical surface of Double-conical-surface core bar 9 and an end in contact of float support 14, an other end of float support contacts with bellmouth workpiece 2, and float support 14 passes the hole at swivel nut 12 middle parts of being fixed in boring bar, can move with respect to swivel nut.Float support 14 1 ends are with annular protrusion, and mounting spring 16 between annular protrusion and the swivel nut, spring 16 so that an end of float support 14 contact with the conical surface of Double-conical-surface core bar 9 all the time, when 9 axially-movable of Double-conical-surface core bar, so that float support 14 radial motions.When the hole of institute's boring diminished, because 9 two conical degree of conical surfaces of Double-conical-surface core bar are identical, float support 14 inwardly moved, and adapts with the hole that processes.The effect of supplemental support has been played in the existence of float support, can reduce the distortion of boring bar, and this is very dark for the hole, and the cone hole machine when boring bar is longer acts on very large.

The two ends band of float support 14 is gradient, an end that contacts with Double-conical-surface core bar 9, and gradient is consistent with the core bar conical surface, an end that contacts with the bellmouth workpiece, gradient is consistent with bellmouth workpiece tapering.

Be processed with keyway on the float support, dismountable stop pin 13 snaps in the keyway; Prevent that float support 14 is around self axis revolution.Float support 14 has two, one of them float support axis is parallel with the boring cutter axis or near level, and be positioned at the offside of boring cutter point of a knife with respect to the boring bar axis, radial cutting force is born in help, another one float support axis and boring cutter axial space are staggered, and vertical or approaching vertical, are positioned at the boring cutter below, cutting force is born in help, reduces the distortion of boring bar.

Long spiro nail 39 is installed on the boring cutter 10, long spiro nail 39 is positioned at the kidney-shaped groove of offering on the boring bar 7, link to each other with short screw 38 on being fixed in boring bar 7 by extension spring 40, by the pulling force of spring so that the conical surface of the taper hole of boring cutter 10 and Double-conical-surface core bar 9 remains single edge contact.

Double-conical-surface core bar 9 and cylinder core bar 28, screw thread spline core bar 27 is coaxial, the right-hand member of Double-conical-surface core bar 9 is porose, hole and cylinder core bar 28 left end minor diameter positions match, there is a pin to be horizontally through both matching parts, the right-hand member of cylinder core bar 28 is porose, match with screw thread spline core bar 27 left end smaller diameter end in the hole, there is a pin to be horizontally through both matching parts, threaded portion matches with screw thread in the boring bar right-hand member hole on the screw thread spline core bar 27, splined section on the screw thread spline core bar 27 matches with spline housing 23, splined section and contiguous position thereof have spatially and staggered many vertical graduation marks of core bar axis, and spline housing links to each other with servomotor 25 by shaft coupling 24.Many graduation marks can help to understand and check screw thread spline core bar 27 to move axially distance, help thus to understand and check the boring cutter radial motion distance that is attached thereto, and namely help to understand and check the taper hole aperture.

Industrial endoscope 34 is installed in the hole of offering on the boring bar 7.The lens location design is advisable with the working angles that can observe the point of a knife place, but leaves the point of a knife certain distance, prevents that iron filings from damaging the transparent sealing lid 35 of installing before the camera lens.

Two conical degree of conical surfaces of Double-conical-surface core bar 9 equate.

Swivel nut 12 is fixed in boring bar, and float support 14 passes the hole at swivel nut center, is processed with two holes at end face of swivel nut, is used for tightening or unclamping swivel nut.

The system many places arrange seal, to prevent oil liquid leakage.Be processed with cannelure at swivel nut another one end face and swivel nut centre bore hole wall, place respectively blind nut seal 17, float support seal 15 in the groove, prevent oil liquid leakage.Both sides at boring cutter 10 bellmouths are processed with respectively cannelure, place boring cutter seal 11, Leakage prevention in the groove.One end of boring bar 7 is equipped with boring bar end cap 6, and boring bar end cap 6 end faces are offered cannelure, places boring bar end cap seal 8 in the groove.Prevent draining.At cylinder core bar 28 cylindricals and boring bar 7 endoporus contact positions O-ring seals is installed.

Servomotor 25 links to each other with impulse generator 36 by servo motor control device 31, impulse generator 36 links to each other with feeding motor 42 by feeding motor control assembly 41, so that the motion of feeding motor 42 is coordinated mutually with the motion of servomotor 25, guarantee that the tapering that processes meets the requirements.In the bore hole process, the rotation of bellmouth workpiece is by main shaft drives, and main shaft is by motor-driven independently.Main shaft and drive motors thereof are not controlled the motion of cutter.The motion of cutter is jointly controlled by servomotor and feeding motor.Feeding Electric Machine Control cutter moves along bellmouth axis of workpiece direction, and servomotor control cutter is along bellmouth workpiece moving radially.

Claims (5)

1. deep hole lathe that is applicable to the taper deep hole boring, comprise lathe bed (1), main shaft (5), main spindle box (4), scroll chuck (3), centre frame (33), revolving meber (32), oil delivering unit support (30), oil delivering unit seat (29), slide carriage (26) and boring bar (7) and boring cutter (10), oil delivering unit support (30) is fixed on lathe bed (1) guide rail according to the length of bellmouth workpiece, oil delivering unit seat (29) is connected on the oil delivering unit support (30), the rear end of revolving meber (32) is installed on the oil delivering unit seat (29) by bearing, the front end of revolving meber (32) contacts with bellmouth workpiece rear end face, it is characterized in that the axial centre of boring bar (7) and radially all perforates, boring cutter (10) is installed in the radial hole of boring bar (7), be provided with Double-conical-surface core bar (9) in the axial hole of boring bar (7), the front end of Double-conical-surface core bar (9) arranges two conical surface bodies, the tapering of two conical surface equates, boring bar also is equipped with float support on (7), float support comprises support bar (14), swivel nut (12) and spring (16), swivel nut (12) is fixed in boring bar (7), support bar (14) passes the hole at swivel nut (12) center, support bar (14) bottom is with annular protrusion, spring (16) is installed between annular protrusion and the swivel nut (12), support bar is processed with keyway on (14), and card has stop pin (13) in the keyway; Boring cutter, (10) have taper hole on, the axis direction of taper hole is parallel to boring bar, (7) axis direction, swivel nut, (12) be processed with two on the upper surface and can insert nipper plier with swivel nut, (12) be screwed into boring bar, (7) complementary connecting hole, at swivel nut, (12) bottom surface and boring bar, (7) contact the position on and swivel nut, (12) all be processed with annular groove on the centre bore hole wall, swivel nut, (12) the interior and swivel nut of the annular groove of bottom surface, (12) place respectively the blind nut seal in the annular groove of centre bore hole wall, (17) and the float support seal, (15)

The inner cone of described Double-conical-surface core bar (9) passes the taper hole of offering on the boring cutter (10), the inner cone of Double-conical-surface core bar (9) and a side contacts of taper hole, opposite side separates, one end in contact of the rear cone of Double-conical-surface core bar (9) and support bar (14), the gradient of this end face of support bar (14) is consistent with the rear cone of Double-conical-surface core bar (9), an other end of support bar (14) contacts with bellmouth workpiece (2) the bore area of boring, the gradient of this end face of support bar (14) is consistent with the hole taper of bellmouth workpiece, float support is provided with two, one of them float support axis is parallel with the boring cutter axis, and be positioned at the offside of boring cutter point of a knife with respect to the boring bar axis, another one float support axis is vertical with boring cutter (10) axis antarafacial, and is positioned at the below of boring cutter (10);

Also be provided with cylinder core bar (28) and screw thread spline core bar (27) in the axial hole of boring bar (7), Double-conical-surface core bar (9) and cylinder core bar (28), screw thread spline core bar (27) is coaxial, the rear end of Double-conical-surface core bar (9) is porose, hole and cylinder core bar (28) front end minor diameter position match, there is a pin to be horizontally through both matching parts, the rear end of cylinder core bar (28) is porose, match with screw thread spline core bar (27) front end smaller diameter end in the hole, there is a pin to be horizontally through both matching parts, the interior screw thread of stomidium matches behind the upper threaded portion of screw thread spline core bar (27) and the boring bar, splined section on the screw thread spline core bar (27) matches with spline housing (23), splined section and contiguous position thereof are provided with spatially and staggered many vertical graduation marks of core bar axis, spline housing links to each other with servomotor (25) by shaft coupling (24), servomotor (25) links to each other with servo motor control device (31), servo motor control device (31) links to each other with impulse generator (36), impulse generator (36) also links to each other with feeding motor control assembly (41), feeding motor control assembly (41) links to each other with feeding motor (42)

Symmetrical two long spiro nails (39) are installed on the boring cutter (10), two long spiro nails (39) pass the gathering sill of offering on the boring bar (7), link to each other with short screw (38) on being fixed in boring bar (7) by extension spring (40), gathering sill is along the length of the boring cutter axis direction diameter greater than long spiro nail

The upper also perforate of boring bar (7) is equipped with industrial endoscope (34),

The rear end of boring bar (7) passes oil delivering unit seat (29) and is fixedly connected with slide carriage (26), be provided with two radial direction through hole on the wall of oil delivering unit seat (29), also be provided with axially extending bore on oil delivering unit seat (29) wall, axially extending bore one end communicates with the radial direction through hole of close revolving meber (32) one ends, the axially extending bore other end communicates with cannelure on the revolving meber (32), the inner space of oil delivering unit seat (29), the inner space of revolving meber (32) and the inner space of workpiece are connected, the scroll chuck of fixation workpiece front end (30) is outside equipped with scroll chuck cover (37), and scroll chuck cover (37) bottom arranges chip removal mouth.

2. the deep hole lathe that is applicable to the taper deep hole boring according to claim 1, it is characterized in that: the both sides at boring cutter (10) bellmouth are processed with respectively cannelure, place boring cutter seal (11) in the groove.

3. the deep hole lathe that is applicable to the taper deep hole boring according to claim 1, it is characterized in that: an end of boring bar (7) is equipped with boring bar end cap (6), and boring bar end cap (6) end face is offered cannelure, places boring bar end cap seal (8) in the cannelure.

4. the deep hole lathe that is applicable to the taper deep hole boring according to claim 1 is characterized in that: at the position of upper corresponding industrial endoscope (34) camera lens of boring bar (7) transparent sealing is installed and covers (35).

5. the deep hole lathe that is applicable to the taper deep hole boring according to claim 1 is characterized in that: at cylinder core bar (28) cylindrical and boring bar (7) endoporus contact position O-ring seals (22) is installed.

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