CN108188445A - A kind of preceding guider of depth drill - Google Patents

Abstract

The invention discloses a kind of preceding guiders of depth drill, the depth drill includes preceding guide case with preceding guider, guide sleeve, guide sleeve seat, piston, cylinder block, bearing, bearing holder (housing, cover), shock-absorbing sleeve, oil blocking piece, handle, locking screw nail seat and deep hole drill, the guide sleeve is fixed in guide sleeve seat, guide sleeve seat is fixed on preceding guide case forepart, the piston bush is in cylinder block, before cylinder block is fixed in guide case, the bearing holder (housing, cover) is in shock-absorbing sleeve, damping is placed in the hole of bearing holder (housing, cover), the oil blocking piece is placed in the hole of bearing holder (housing, cover) left end, the bearing holder (housing, cover) is stuck in the slot of locking screw nail seat, the side of guide case before the locking screw nail seat is fixed on.The problems such as guider rigidity is insufficient before the depth drill of the present invention solves existing deep hole drilling machine with preceding guider, borehole accuracy is not high, replacement cost is high after guide sleeve abrasion.

Description

A kind of preceding guider of depth drill

Technical field

The present invention relates to mechanical processing machine fields, are related to deep hole working machine, particularly a kind of depth drill with it is leading to Device.

Background technology

Deep hole gun drill system belongs to interior cold external chip discharging mode, cutting fluid by hollow drilling rod inside, reach drill bit head Cooling and lubricating is carried out, and chip is discharged from the V-groove outside drill bit and drilling rod.Deep hole gun drill cut processing (hole depth and aperture Ratio ＞ 10) it is played a very important role in field of machining, with the progress of science and technology, novel high-strength, height The emergence of hardness and high value difficulty deep hole processing part, workpieces processing is in working depth, machining accuracy and processing efficiency The continuous improvement of upper requirement so that deep hole machining becomes the critical process and processing difficulties of mechanical processing.Traditional deep hole machining Lathe since its depth drill guide design is unreasonable is increasingly difficult to that present deep hole machining is even not achieved at all to meet Requirement on precision, efficiency, material.

Invention content

In order to solve the deficiencies in the prior art, the present invention provides a kind of preceding guider of depth drill, solves existing depth The problems such as guider rigidity is insufficient before hole drill machine, borehole accuracy is not high, replacement cost is high after guide sleeve abrasion.

The invention is realized by the following technical scheme：

A kind of preceding guider of depth drill, the depth drill include preceding guide case, guide sleeve, guiding with preceding guider Block set, piston, cylinder block, bearing, bearing holder (housing, cover), shock-absorbing sleeve, oil blocking piece, handle, locking screw nail seat and deep hole drill, the guiding Set is fixed in guide sleeve seat, and guide sleeve seat is fixed on preceding guide case forepart, and the piston bush in cylinder block, fix by cylinder block In preceding guide case, in shock-absorbing sleeve, damping is placed in the hole of bearing holder (housing, cover) the bearing holder (housing, cover), and the oil blocking piece is placed on bearing In the hole for covering left end, the bearing holder (housing, cover) is stuck in the slot of locking screw nail seat, the side of guide case before the locking screw nail seat is fixed on Face.

Preferably, hole card spring is placed in the slot of the guide sleeve seat centre bore, the guide sleeve enters by tapping It is fixed on guide sleeve seat head.

Preferably, guide case forepart before the guide sleeve seat is fixed on by the screw screwed on piston.

Preferably, the right end tail portion of the guide sleeve seat and piston is conical surface, and water conservancy diversion cutting fluid is contributed to accelerate row Bits；The preceding guide case is provided with downwards chip removal mouth, and cutting fluid and chip avoid chip from accumulating finally since gravity falls It is poly-.

Preferably, the cylinder block is equipped with cylinder stretching connector and cylinders retract connector, and when deep hole drill drills, compression is empty Gas stretches out connector by cylinder and enters in the right side gap of cylinder block and piston, piston and guide sleeve seat is pushed to make guiding to the left The left end face top tight workpiece surface of set, later deep hole drill workpiece is rotated at contact surface by guide sleeve centre bore； After drilling is completed and deep hole drill exits workpiece, compressed air enters a left side for cylinder block and piston by cylinders retract connector In the gap of side, push piston and guide sleeve seat that guide sleeve left end face is made to leave workpiece surface to the right.

Preferably, the piston bush is in cylinder block, and passes through screw attachment cylinder head, and cylinder block is consolidated entirely through screw Before being scheduled in guide case.

Preferably, the bearing holder (housing, cover) is placed with axis clamp spring in shock-absorbing sleeve in the slot of the shock-absorbing sleeve, and shock-absorbing sleeve is whole It is placed in the hole of bearing holder (housing, cover), the bearing is compressed by compression ring screw thread, and when vibrations are transmitted to shock-absorbing sleeve, most of vibrations will It is absorbed, so as to improve the precision of drilling.

Preferably, the oil blocking piece is two panels, is placed in two holes of bearing holder (housing, cover) left end.

Preferably, the oil blocking piece interstitial hole coincide with deep hole drill.

Preferably, the bearing holder (housing, cover) is integrally caught in by lock-screw and pin in the slot of lock-screw seat, the locking screw The side of guide case before nail seat is fixed by screws in.

Beneficial effects of the present invention：

The depth drill of the present invention is provided with shock-absorbing sleeve with preceding guider, when deep hole drill high-speed rotation is cut, by In by the opposite axial force from workpiece and main shaft, depth drill drilling pipe can generate deflection deformation, in high-speed rotating operating mode In, and the reciprocally swinging for generating radial direction leads to depth drill sharp pounding, and when vibrations are transmitted to shock-absorbing sleeve, most of vibrations will be by It absorbs, so as to improve the precision of drilling.

The oil blocking piece interstitial hole that the depth drill of the present invention is set with preceding guider coincide with deep hole drill, so as to work Shi Youxiao stops that cutting fluid flows through bearing holder (housing, cover) with chip.

The guide sleeve seat and the right end tail portion of piston that the depth drill of the present invention is set with preceding guider are conical surface, are had Help water conservancy diversion cutting fluid and accelerate chip removal.It is set as opening chip removal mouth downwards additionally, due to preceding guide case, cutting fluid and chip are last Since gravity falls, chip is avoided to gather.

The depth drill of the present invention is easily replaced after being worn with rigid strong, the borehole accuracy height of preceding guider, guide sleeve, more resistant to With solving before existing deep hole drilling machine that guider rigidity is insufficient, borehole accuracy is not high, is replaced with after guide sleeve abrasion on the whole The problems such as this is high.

Description of the drawings

Fig. 1 is a kind of concrete structure schematic diagram of the preceding guider of depth drill of the present invention；

Fig. 2 is the front view of preceding guider, represents the position of two cylinder connectors and indicates guide sleeve seat and piston Connecting mode；

Fig. 3 is the vertical view of preceding guider, the stroke of cylinder when indicating entry into working condition；

Fig. 4 is the rearview of preceding guider, represents the mounting means of bearing holder (housing, cover)；

Fig. 5 is the concrete structure of oil blocking piece；

The concrete structure of Fig. 6 shock-absorbing sleeves.

1 it is preceding guide case in Fig. 1-6,2 be blind flange, 3 be cylinder block, 4,12,13,26 be screw, 5 is guide sleeve seat, 6 It is guide sleeve for hole card spring, 7,8 be deep hole drill, 9 be sealing ring, 10 be cylinder head, 11 be piston, 14 is oil blocking piece, 15 For locking screw nail seat, 16 be lock-screw, 17 be pin, 18 be axis clamp spring, 19 be shock-absorbing sleeve, 20 be bearing, 21 be compression ring, 22 be bearing holder (housing, cover), 23 be handle, 24 be cylinder stretch out connector, 25 be cylinders retract connector, 101 be before guide case chip removal mouth, 301 It is cylinder block air inlet for cylinder block gas vent, 302.

Specific embodiment

Below in conjunction with the attached drawing in the embodiment of the present invention, the technical solution in the embodiment of the present invention is carried out clear, complete Site preparation describes, it is clear that described embodiment is only part of the embodiment of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, those of ordinary skill in the art are obtained every other without making creative work Embodiment shall fall within the protection scope of the present invention.

A kind of preceding guider of depth drill, the preceding guider of the depth drill include preceding guide case 1, guide sleeve 7, lead To block set 5, piston 11, cylinder block 3, bearing 20, bearing holder (housing, cover) 22, shock-absorbing sleeve 19, oil blocking piece 14, handle 23, locking screw nail seat 15 With deep hole drill 8, the guide sleeve 7 is fixed in guide sleeve seat 5, and guide sleeve seat 5 is fixed on preceding 1 forepart of guide case, the work Plug 11 is sleeved in cylinder block 3, and before cylinder block 3 is fixed in guide case 1, the bearing 20 is sleeved in shock-absorbing sleeve 19, shock-absorbing sleeve 19 It is placed in the hole of bearing holder (housing, cover) 22, the oil blocking piece 14 is placed in the hole of 22 left end of bearing holder (housing, cover), and the bearing holder (housing, cover) 22 is stuck in locking In the slot of screw base 15, the side of guide case 1 before the locking screw nail seat 15 is fixed on.

Preferably, be placed with hole card spring 6 in the slot of 5 centre bore of guide sleeve seat, the guide sleeve 7 by tap into Enter to be fixed on 5 head of guide sleeve seat.

Preferably, the guide sleeve seat 5 is fixed on preceding 1 forepart of guide case by screwing in the screw on piston 11.

Preferably, the right end tail portion of the guide sleeve seat 5 and piston 11 is conical surface, and water conservancy diversion cutting fluid is contributed to accelerate Chip removal；The preceding guide case 1 is provided with downwards chip removal mouth, and cutting fluid and chip avoid chip finally since gravity falls Accumulation.

Preferably, the cylinder block 3 is equipped with cylinder stretching connector 24 and cylinders retract connector 25, when deep hole drill 8 drills, Compressed air is stretched out connector 24 by cylinder and is entered in the right side gap of cylinder block 3 and piston 11, push to the left piston 11 and Guide sleeve seat 5 makes the left end face top tight workpiece surface of guide sleeve 7, later deep hole drill 8 by 7 centre bore of guide sleeve from contact Workpiece is rotated at face；After drilling is completed and deep hole drill 8 exits workpiece, compressed air passes through cylinders retract connector 25 Into in the left side gap of cylinder block 3 and piston 11, piston 11 and guide sleeve seat 5 is pushed to make 7 left end face of guide sleeve to the right Leave workpiece surface.

Preferably, the piston 11 is sleeved in cylinder block 3, and passes through screw attachment cylinder head 10, cylinder block 3 entirely through Before screw is fixed in guide case 1.

Preferably, the bearing holder (housing, cover) 22 is placed with axis clamp spring 18 in the slot of the shock-absorbing sleeve 19, subtracts in shock-absorbing sleeve 19 Shake set 19 is integrally placed in the hole of bearing holder (housing, cover) 22, and the bearing 20 is compressed by 21 screw thread of compression ring, when vibrations are transmitted to damping When covering 19, most of vibrations will be absorbed, so as to improve the precision of drilling.

Preferably, the oil blocking piece 14 is two panels, is placed in two holes of 22 left end of bearing holder (housing, cover).

Preferably, 14 interstitial hole of oil blocking piece coincide with deep hole drill 8.

Preferably, the bearing holder (housing, cover) 22 is caught in by the way that lock-screw 16 and pin 17 are whole in the slot of lock-screw seat 15, institute State the side of guide case 1 before locking screw nail seat 15 is fixed by screws in.

The depth drill of the present invention is provided with shock-absorbing sleeve 19 with preceding guider, when 8 high-speed rotation of deep hole drill is cut, Since by the opposite axial force from workpiece and main shaft, depth drill drilling pipe can generate deflection deformation, in high-speed rotating work In condition, and the reciprocally swinging for generating radial direction leads to depth drill sharp pounding, most of to shake when vibrations are transmitted to shock-absorbing sleeve 19 It will be absorbed, so as to improve the precision of drilling.

14 interstitial hole of oil blocking piece that the preceding guider of the depth drill of the present invention is set coincide with deep hole drill 8, thus Effectively stop that cutting fluid flows through bearing holder (housing, cover) with chip during work.

The guide sleeve seat 5 and the right end tail portion of piston 11 that the depth drill of the present invention is set with preceding guider are taper table Face contributes to water conservancy diversion cutting fluid to accelerate chip removal.It is set as opening chip removal mouth downwards additionally, due to preceding guide case 1, cutting fluid and cut Bits are finally fallen due to gravity, and chip is avoided to gather.

The depth drill of the present invention is easily replaced after being worn with rigid strong, the borehole accuracy height of preceding guider, guide sleeve, more resistant to With solving before existing deep hole drilling machine that guider rigidity is insufficient, borehole accuracy is not high, is replaced with after guide sleeve abrasion on the whole The problems such as this is high.

The piston 11 of the present invention is first inserted in cylinder block 3, is reused screw 13 and is coupled cylinder head 10, whole to pass through screw again 12 are fixed in preceding guide case 1.

It after bearing 20 is inserted in shock-absorbing sleeve 19, is put into using axis clamp spring 18 in the slot of shock-absorbing sleeve 19, then will integrally together It is put into the hole of bearing holder (housing, cover) 22, compression ring 21 is then compressed into bearing 20 by screw thread, two panels oil blocking piece 14 is then put into axis In two holes of 22 left end of bearing sleeve, handle 23 is finally installed, then pulls handle and is caught in lock by the way that lock-screw 16 and pin 17 are whole In the slot of tight screw base 15, the side of guide case 1 before locking screw nail seat 15 is fixed on by screw 26.

When installing guide sleeve seat 5, first a hole card spring 6 is put into the slot of guide sleeve seat centre bore, then guiding Set 7 knocks in the head of guide sleeve seat 5, and at this time since clamp spring is held out against and hole wall squeezes, guide sleeve is fixed in guide sleeve seat.

When replacing drill gun, corresponding guide sleeve 5 and bearing holder (housing, cover) 22 are first replaced；As shown in Fig. 2, guide sleeve seat 5 is logical It crosses and screws in four screws 4 on piston 11 originally and fix, when replacement, which first rotates clockwise guide sleeve seat 5, makes screw 4 exit guide sleeve The small end of waist-shaped hole on seat, then guide sleeve seat 5 is made to be detached from preceding guide case 1；Again as shown in figure 4, when replacing bearing holder (housing, cover) 22, counterclockwise Pulling handle 23 forces pin 17 to cross lock-screw 16, then leaves the slot of locking screw nail seat 15, finally extracts bearing holder (housing, cover) 22.

In a specific case study on implementation, compressed air stretches out connector 24 by cylinder and enters cylinder block 3 and piston 11 Right side gap in, piston 11 and guide sleeve seat 5 is pushed to make the left end face top tight workpiece surface of guide sleeve 7 to the left, later Deep hole drill 8 rotates into workpiece by 7 centre bore of guide sleeve at contact surface.It is completed in drilling and deep hole drill 8 exits After workpiece, compressed air enters cylinder block 3 in the left side gap of piston 11, pushing piston to the right by cylinders retract connector 25 11 and guide sleeve seat 57 left end face of guide sleeve is made to leave workpiece surface.

In a specific case study on implementation, when the entrance workpiece of deep hole drill 8 is cut, the cutting fluid of high pressure passes through depth Channel inside hole drill enters cutting parts, reduces temperature of diamond bit and carries a large amount of chips simultaneously from the V-groove of depth drill to the right Discharge.Since guide sleeve 7 is held out against with workpiece surface, cutting fluid can only continue through guide sleeve 7, after guide sleeve 7 is left, cutting Liquid and chip are due to splash around under centrifugal action.The right end end cone surface of guide sleeve seat 5 and piston 11, contributes to Water conservancy diversion cutting fluid accelerates chip removal.Again since preceding guide case 1 opens downwards chip removal mouth, cutting fluid and chip are finally due to gravity It falls, chip is avoided to gather.

In a specific embodiment, deep hole drill 8 is cut into workpiece, and high-pressure cutting fluid carries chip edge It depth drill V-groove to discharge to the right, most of cutting fluid and chip have since gravity and centrifugal action leave depth drill Part cutting fluid continues on V-groove movement.As shown in figure 5, oil blocking piece interstitial hole coincide with deep hole drill, so as at work Effectively blocking cutting fluid flows through bearing holder (housing, cover) with chip.

In a specific embodiment, when 8 high-speed rotation of deep hole drill is cut, due to by from workpiece with The opposite axial force of main shaft, depth drill drilling pipe can generate deflection deformation, in high-speed rotating operating mode, and generate the past of radial direction Physical pendulum, which moves, leads to depth drill sharp pounding.When vibrations are transmitted to shock-absorbing sleeve 19, most of vibrations will be absorbed, and be bored so as to improve The precision in hole.

The foregoing is merely invention preferred embodiments, the claim of the present invention are not thereby limited, so all Change with the equivalent structure made by description of the invention and diagramatic content, be all contained in protection scope of the present invention.

Claims (10)

1. the preceding guider of a kind of depth drill, which is characterized in that the preceding guider of the depth drill includes preceding guide case, leads To set, guide sleeve seat, piston, cylinder block, bearing, bearing holder (housing, cover), shock-absorbing sleeve, oil blocking piece, handle, locking screw nail seat and depth drill Head, the guide sleeve are fixed in guide sleeve seat, and guide sleeve seat is fixed on preceding guide case forepart, and the piston bush is in cylinder block In, before cylinder block is fixed in guide case, in shock-absorbing sleeve, damping is placed in the hole of bearing holder (housing, cover) the bearing holder (housing, cover), the shelves Oil sheet is placed in the hole of bearing holder (housing, cover) left end, and the bearing holder (housing, cover) is stuck in the slot of locking screw nail seat, and the locking screw nail seat is fixed In the side of preceding guide case.

2. the preceding guider of depth drill according to claim 1, which is characterized in that the slot of the guide sleeve seat centre bore Hole card spring is inside placed with, the guide sleeve is fixed on guide sleeve seat head by tapping to enter.

3. the preceding guider of depth drill according to claim 1, which is characterized in that the guide sleeve seat is lived by screwing in Screw beyond the Great Wall is fixed on preceding guide case forepart.

4. the preceding guider of depth drill according to claim 1, which is characterized in that the right side of the guide sleeve seat and piston End tail portion is conical surface, and the preceding guide case is provided with downwards chip removal mouth.

5. the preceding guider of depth drill according to claim 1, which is characterized in that the cylinder block is stretched out equipped with cylinder Connector and cylinders retract connector, when deep hole drill drills, compressed air stretches out connector by cylinder and enters cylinder block and piston In the gap of right side, piston and guide sleeve seat is pushed to make the left end face top tight workpiece surface of guide sleeve to the left, later depth drill Head rotates into workpiece by guide sleeve centre bore at contact surface；After drilling is completed and deep hole drill exits workpiece, pressure Contracting air is entered by cylinders retract connector in the left side gap of cylinder block and piston, piston and guide sleeve seat is pushed to make to the right Guide sleeve left end face leaves workpiece surface.

6. the preceding guider of depth drill according to claim 1, which is characterized in that the piston bush in cylinder block, And pass through screw attachment cylinder head, before cylinder block is fixed on entirely through screw in guide case.

7. the preceding guider of depth drill according to claim 1, which is characterized in that the bearing holder (housing, cover) in shock-absorbing sleeve, Axis clamp spring is placed in the slot of the shock-absorbing sleeve, shock-absorbing sleeve is integrally placed in the hole of bearing holder (housing, cover), and the bearing passes through compression ring Screw thread compresses.

8. the preceding guider of depth drill according to claim 1, which is characterized in that the oil blocking piece is two panels, is placed In two holes of bearing holder (housing, cover) left end.

9. the preceding guider of depth drill according to claim 1, which is characterized in that the oil blocking piece interstitial hole and deep hole Drill bit coincide.

10. the preceding guider of depth drill according to claim 1, which is characterized in that the bearing holder (housing, cover) passes through locking screw Nail and pin entirety are caught in the slot of lock-screw seat, the side of guide case before the locking screw nail seat is fixed by screws in.