CN208083515U - A kind of flat-die deep hole processing system - Google Patents

Abstract

The utility model discloses a kind of flat-die deep hole processing system, is related to the Deep-Hole Drilling Technology field of plane Feedstuff mould, including horizontal machine tool, three-shaft linkage system and depth drill, and the three-shaft linkage system includes X-axis assembly, Y-axis assembly and Z axis assembly；The X-axis assembly is movably installed in the side of the horizontal machine tool, and can be moved along the X-direction of the horizontal machine tool；The Y-axis assembly is movably installed on the X-axis assembly, and can be moved along the Y direction of the horizontal machine tool, and the mold fixing piece for fixing tool and mould to be added is equipped with above the Y-axis assembly；The Z axis assembly is installed on the top of the horizontal machine tool, and the depth drill is fixed on the Z axis assembly, and the Z axis assembly drives the depth drill to be moved along the Z-direction of the horizontal machine tool.The utility model is processed using horizontal machine tool cooperation three-shaft linkage system, is ensured that scrap will not accumulate bottom hole, is more easy to be discharged.

Description

A kind of flat-die deep hole processing system

Technical field

The utility model is related to the Deep-Hole Drilling Technology fields of plane Feedstuff mould, add more particularly to a kind of flat-die deep hole Work system.

Background technology

The deep hole machining of plane Feedstuff mould is substantially processed using vertical fluted drill at present, due to flat-die deep hole Aperture is small, draw ratio is big, and there are iron filings accumulations for traditional vertical processing, twine the problem of knife, abrasion even twist breaking tool, especially It is just more difficult to process for 0.8mm apertures below, the inefficiency of deep hole machining；And traditional fluted drill is deposited in process Cutter lifting repeatedly is needed, processing efficiency is low, and hole wall is coarse after processing, the drawbacks of needing secondary operation.

Therefore it provides a kind of flat-die deep hole processing system becomes present to solve the disadvantages mentioned above present in the prior art Technical problem urgently to be resolved hurrily.

Utility model content

The purpose of this utility model is to provide a kind of flat-die deep hole processing system, to solve above-mentioned of the existing technology ask Topic, can improve iron filings cleaning effect, avoid abrasion of the iron filings to cutter, and can guarantee that process need not lift repeatedly Knife, the completion processing tasks efficiently stablized.

To achieve the above object, the utility model provides following scheme：A kind of flat-die deep hole of the utility model offer adds Work system, including horizontal machine tool, three-shaft linkage system and depth drill, the three-shaft linkage system include X-axis assembly, Y-axis assembly With Z axis assembly；The X-axis assembly is movably installed in the side of the horizontal machine tool, and can be along the X-direction of the horizontal machine tool It is mobile；The Y-axis assembly is movably installed on the X-axis assembly, and can be moved along the Y direction of the horizontal machine tool, the Y Mold fixing piece for fixing tool and mould to be added is installed above axle assembly；The Z axis assembly is installed on the horizontal machine The top of bed, the depth drill are fixed on the Z axis assembly, and the Z axis assembly drives the depth drill along the horizontal machine The Z-direction movement of bed.

Preferably, the horizontal machine tool includes lathe base and rack, and the rack is set on the lathe base, institute It states X-axis assembly to be movably installed on the side wall of the rack, the Z axis assembly is installed on the top of the rack.

Preferably, the X-direction is parallel to the short transverse of the side wall of the rack, and the Y direction is parallel to institute The width direction of the side wall of rack is stated, the Z-direction is parallel to the length direction of the top surface of the rack.

Preferably, the X-axis assembly includes X-axis hoistable platform, and the first linear slide rail is provided on the side wall of the rack, First linear slide rail is parallel to the X-direction setting, and the X-axis hoistable platform connects with first linear slide rail sliding It connects.

Preferably, the Y-axis assembly includes Y-axis supporting plate, and the Y-axis supporting plate passes through the second linear slide rail and the X-axis liter The top slide connection of platform is dropped, and second linear slide rail is set to the top of the X-axis hoistable platform, and is parallel to described Y direction.

Preferably, the mold fixing piece is scroll chuck, and the scroll chuck is fixed on the Y by chuck fixed seat On axis supporting plate.

Preferably, the Z axis assembly includes electro spindle, Z axis supporting plate and Z axis pedestal, and the Z axis pedestal is fixed on the machine On frame, the third linear sliding rail for being parallel to the Z-direction, the Z axis supporting plate and the third are set on the Z axis pedestal Linear slide rail is slidably connected；The electro spindle is for installing the depth drill, and the electro spindle is fixed on the Z axis supporting plate On.

Preferably, slide arm is slidably connected above the electro spindle, is equipped on the slide arm for being the depth drill The guide sleeve of guiding, the guide sleeve are coaxially disposed with the depth drill.

Preferably, the depth drill bores for single-edge deep-hole, and unidirectional V-groove is offered at the cutting edge that the single-edge deep-hole bores, The middle position of the cutting edge is provided with hollow injector, and the oil inlet of perforation is further opened at the axle center that the single-edge deep-hole bores Channel, one end of the oil inlet passage are connect with the hollow injector, and the other end of the oil inlet passage is connected with high pressure oil Filtration system.

Preferably, the high pressure oil filtration system include sequentially connected Scrap-removing machine, magnetic filter, cloth envelop collector and Precipitate fuel tank, the Scrap-removing machine is arranged in the side of the horizontal machine tool, for collect be discharged in boring procedure contain iron filings High pressure oil；The precipitation fuel tank is connect with the oil inlet passage, for providing high pressure oil for the depth drill.

The utility model achieves following technique effect compared with the existing technology：

1, it is processed using horizontal machine tool cooperation three-shaft linkage system, ensures that scrap will not accumulate bottom hole, be more easy to be discharged；

2, it is bored using single-edge deep-hole, hollow injector is set and utilizes high pressure oil washing processing hole, is further able to preferably Iron filings are discharged, protect cutter, and be not necessarily to cutter lifting, knife molding improves processing efficiency；

3, cutter is directly driven by directly driving electro spindle, and under identical feed speed, rotating speed higher, processing hole inner wall is more smooth, Processing efficiency higher；

4, setting high pressure oil filtration system ensures output free from admixture high pressure oil, cutter is avoided to grind to high pressure oil multistage filtering Damage, ensures the Effec-tive Function of processing, and can be recycled to high pressure oil, economizes on resources.

Description of the drawings

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Needed in attached drawing be briefly described, it should be apparent that, the accompanying drawings in the following description is only the utility model Some embodiments for those of ordinary skill in the art without having to pay creative labor, can also basis These attached drawings obtain other attached drawings.

Fig. 1 is the structural schematic diagram of the utility model flat-die deep hole processing system；

Fig. 2 is the structural schematic diagram of the utility model X-axis assembly；

Fig. 3 is the left view of Fig. 2；

Fig. 4 is the structural schematic diagram of the utility model Y-axis assembly；

Fig. 5 is the sectional view of Fig. 4；

Fig. 6 is the structural schematic diagram of the utility model Z axis assembly；

Fig. 7 is the sectional view of Fig. 6；

Fig. 8 is the structural schematic diagram of the utility model depth drill；

Fig. 9 is the structural schematic diagram of the utility model high pressure oil filtration system；

Figure 10 is the structural schematic diagram of the utility model Scrap-removing machine；

Figure 11 is the structural schematic diagram of the utility model magnetic filter；

Figure 12 is the structural schematic diagram of the utility model cloth envelop collector；

Figure 13 is the structural schematic diagram that the utility model precipitates fuel tank；

Wherein, 1 is horizontal machine tool, and 11 be rack, and 12 be lathe base, and 13 be shell, and 2 be X-axis assembly, and 21 be X-axis liter Platform drops, and 22 be the first linear slide rail, and 23 be the first driving motor, and 24 be motor cabinet, and 25 be the first ball screw, and 26 be lead screw Seat, 3 be Y-axis assembly, and 31 be Y-axis supporting plate, and 32 be the second linear slide rail, and 33 be the second driving motor, and 34 be the second ball screw, 35 be shaft coupling, and 36 be scroll chuck, and 37 be chuck fixed seat, and 38 be shield, and 4 be Z axis assembly, and 41 be Z axis pedestal, and 42 be Z Axis supporting plate, 43 be electro spindle, and 44 be third linear sliding rail, and 45 be third driving motor, and 46 be third ball screw, and 5 be slide arm, 51 be adjustment screw, and 52 be slide arm cylinder, and 53 be slide arm sliding rail, and 54 be guide sleeve, and 55 be chip space, and 6 be depth drill, and 61 be sky Heart injector, 62 be oil inlet passage, and 7 be Scrap-removing machine, and 71 be elevator, and 72 be pedestal, and 73 arrange for magnetic, and 74 be driving motor, 75 It is oil discharge outlet for hopper, 76,8 be magnetic filter, and 81 be cylinder, and 82 be bar magnet, and 83 be oil inlet pipe, and 84 be oil discharge pipe, and 85 are Fuel tank, 86 be flowline, and 9 be cloth envelop collector, and 91 be hydralic pressure gauge, and 92 be oil inlet, and 93 be unloading port, and 94 be oil outlet, 10 To precipitate fuel tank, 101 be oil cooling machine, and 102 be fuel reserve tank oil inlet, and 103 be fuel reserve tank, and 104 be content gauge, and 105 be oil pump, 106 be pressure reducing valve.

Specific implementation mode

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work The every other embodiment obtained, shall fall within the protection scope of the present invention.

The purpose of this utility model is to provide a kind of flat-die deep hole processing system, of the existing technology to solve the problems, such as, It is processed using horizontal machine tool three-shaft linkage, cooperation single-edge deep-hole bores, and clears up iron filings by high pressure oil, avoids mill of the iron filings to cutter Damage, ensure process need not cutter lifting repeatedly, the completion processing tasks efficiently stablized.

To keep the above objects, features, and advantages of the utility model more obvious and easy to understand, below in conjunction with the accompanying drawings and have Body embodiment is described in further detail the utility model.

Embodiment one,

As shown in Figure 1, the present embodiment provides a kind of flat-die deep hole processing system, including horizontal machine tool 1, three-shaft linkage system With depth drill 6, three-shaft linkage system includes X-axis assembly 2, Y-axis assembly 3 and Z axis assembly 4；X-axis assembly 2 is movably installed in horizontal The side of lathe 1, and can be moved along the X-direction of horizontal machine tool 1；Y-axis assembly 3 is movably installed on X-axis assembly 2, and can edge The Y direction of horizontal machine tool 1 moves, and the top of Y-axis assembly 3 is equipped with the mold fixing piece for fixing tool and mould to be added；Z axis Assembly 4 is installed on the top of horizontal machine tool 1, and depth drill 6 is fixed on Z axis assembly 4, and Z axis assembly 4 drives depth drill 6 along horizontal The Z-direction of lathe 1 moves.Horizontal machine tool 1 further includes having a shell 13, for horizontal machine tool 1 and three-shaft linkage system It is protected.

As shown in Figures 2 and 3, horizontal machine tool 1 includes lathe base 12 and rack 11, and rack 11 is set to lathe base 12 On, X-axis assembly 2 is movably installed on a side wall of rack 11, and Z axis assembly 4 is installed on the top of rack 11.X-direction is flat Row is parallel to the width direction of the side wall of rack 11 in the short transverse of the side wall of rack 11, Y direction, and Z-direction is parallel to The length direction of the top surface of rack 11, X-direction, Y direction and Z-direction are orthogonal；Wherein X-direction, Y direction and The direction of Z-direction is adjustable, disclosure satisfy that the process requirements that three-shaft linkage system is processed flat-die deep hole.

X-axis assembly 2 includes X-axis hoistable platform 21, and the first linear slide rail 22 is provided on the side wall of rack 11, and first is linear Sliding rail 22 is parallel to X-direction setting, and X-axis hoistable platform 21 is slidably connected with the first linear slide rail 22.X-axis assembly 2 further includes First drive system, the first drive system include the first ball screw 25 and the first driving motor 23, are pacified on X-axis hoistable platform 21 Equipped with motor cabinet 24, the first driving motor 23 is installed on motor cabinet 24, and the bottom end of the first ball screw 25 passes through screw rodb base 26 On lathe base 12, top is connect by motor cabinet 24 with the first driving motor 23；First driving motor 23 driving the The rotation of one ball screw 25 drives the movement of motor cabinet 24 further to drive the X-axis hoistable platform 21 to be slided along the first linear slide rail 22 It is dynamic, realize 21 moving along X-direction of X-axis hoistable platform.

As shown in Figure 4 and Figure 5, Y-axis assembly 3 includes Y-axis supporting plate 31, and Y-axis supporting plate 31 passes through the second linear slide rail 32 and X-axis The top slide of hoistable platform 21 connects, and the second linear slide rail 32 is set to the top of X-axis hoistable platform 21, and is parallel to Y-axis Direction.Y-axis assembly 3 further includes the second drive system, and the second drive system includes the second driving motor 33 and the second ball screw 34, the second driving motor 33 is set to the side of Y-axis supporting plate 31, and is connect with the second ball screw 34 by shaft coupling 35, the Two ball screws 34 are also connect with the bottom end of Y-axis supporting plate 31, and the rotation of the second ball screw 34 is driven by the second driving motor 33 Y-axis supporting plate 31 is driven to be slided along the second linear slide rail 32, realizing the moving along Y direction of Y-axis supporting plate 31.Mold fixing piece Y-axis support is fixed on by chuck fixed seat 37 for scroll chuck 36 or the fixed desired fixture of other satisfactions, scroll chuck 36 On plate, scroll chuck 36 is bolted with chuck fixed seat 37；Armor formula shield 38 is additionally provided on Y-axis supporting plate 31 to Y Axle assembly 3 and scroll chuck 36 are protected, and armor formula shield 38 divides for two parts, is separately positioned on the two of scroll chuck 36 Side.

As shown in Figures 6 and 7, Z axis assembly 4 includes electro spindle 43, Z axis supporting plate 42 and Z axis pedestal 41, and Z axis pedestal 41 passes through Bolt is fixed in rack 11, on Z axis pedestal 41 setting be parallel to the third linear sliding rail 44 of Z-direction, Z axis supporting plate 42 with Third linear sliding rail 44 is slidably connected；Electro spindle 43 drives the rotation of depth drill 6 to add to carry out deep hole for installing depth drill 6 Work；And electro spindle 43 is fixed on Z axis supporting plate 42.Z axis assembly 4 further includes having third drive system, third drive system packet Third driving motor 45 and third ball screw 46 are included, third driving motor 45 is installed on Z axis pedestal 41 by motor cabinet 24 On side wall, third driving motor 45 is also connect with third ball screw 46, and third ball screw 46 and the bottom of Z axis supporting plate 42 connect It connects, drives third ball screw 46 to rotate by third driving motor 45 to drive Z axis supporting plate 42 to be slided along third linear sliding rail 44 It is dynamic, the moving along Z-direction of Z axis supporting plate 42 is realized, so as to drive electro spindle 43 and depth drill 6 to be moved along Z-direction It is dynamic.

43 top of electro spindle slidably connects slide arm 5, and the front bottom end on slide arm 5 is equipped with for being oriented to for depth drill 6 Guide sleeve 54, guide sleeve 54 and depth drill 6 are coaxially disposed.Slide arm sliding rail 53, slide arm 5 are provided with by sliding block on electro spindle 43 It is slidably connected with slide arm sliding rail 53, the opposite sliding with before and after electro spindle 43 of guide sleeve 54 can be driven, and also set up on sliding block There is slide arm cylinder 52 for driving slide arm 5 to move.The lower section of guide sleeve 54 is additionally provided with chip space 55, and being used for will be before depth drill 6 Hold the iron filings discharge drilled out.

Adjustment screw 51 is additionally provided on sliding block, after installing depth drill 6 on electro spindle 43, according to cutter length, rotation Then adjustment screw 51 adjusts guide sleeve 54 at a distance from electro spindle 43, ensures that 6 point of a knife of depth drill and 54 front end face of guide sleeve are rigid Until getting well concordantly, 5 block of slide arm is then pulled down, ensures slide arm cylinder 52 when stretching out, 54 front end face of guide sleeve and point of a knife It is aligned and will not relatively move, so when processing the workpiece, ensure that 54 front end face of guide sleeve is bonded workpiece surface always, ensure knife The rigidity for having front end avoids fractureing due to cutter is unstable because being oriented to.

The position for adjusting scroll chuck 36 in the present embodiment by X-axis assembly 2 and Y-axis assembly 3, to be added to adjust The position of tool and mould；Depth drill 6 is adjusted at a distance from tool and mould to be added by Z axis assembly 4, so as to ensure mould to be processed Tool is aligned with depth drill 6, is convenient for deep hole machining.

6 are bored as shown in figure 8, the depth drill 6 in the present embodiment is single-edge deep-hole, is offered at the cutting edge of single-edge deep-hole brill 6 The middle position of unidirectional V-groove, cutting edge is provided with hollow injector 61, and perforation is further opened at the axle center of single-edge deep-hole brill 6 Oil inlet passage 62,62 one end of oil inlet passage connect with hollow injector 61, and the other end is connected with high pressure oil filtration system.In depth During hole machined, high pressure oil is sprayed from hollow injector 61, and the iron filings that 6 front end of depth drill drills out are gone out along V-groove and are added Work area domain avoids abrasion of the iron filings to depth drill 6.

As described and depicted in figs. 9-13, high pressure oil filtration system includes sequentially connected Scrap-removing machine 7, magnetic filter 8, Bag filter Device 9 and precipitation fuel tank 10, Scrap-removing machine 7 are arranged in the left side of horizontal machine tool 1, close to three-shaft linkage system setting, are bored for collecting The high pressure oil containing iron filings being discharged during hole；Precipitation fuel tank 10 is located at the other side, and is connect with oil inlet passage 62, for for Depth drill 6 provides high pressure oil；Magnetic filter 8 and cloth envelop collector 9 are arranged at the top of precipitation fuel tank 10.

Scrap-removing machine 7 is made of elevator 71, pedestal 72, magnetic row 73, driving motor 74 and hopper 75, and depth drill 6 is processed Iron filings out are initially entered in elevator 71 with high pressure oil by chip space 55, built-in filter screen and magnetic row on elevator 71 73, adsorbable major part iron filings avoid iron filings from entering in pedestal 72, while driving motor 74 can drive elevator 71 that will adsorb Iron filings band material bin 75 in；Residual high pressure oil enters in pedestal 72, and the magnetic row 73 constituted by bar magnet array, absorption is surplus again Remaining iron filings；Filtered high pressure oil is pumped into magnetic filter 8 by oil pump by oil discharge outlet 76, carries out next link filtering.

Magnetic filter 8 is made of cylinder 81, magnetic row 73, oil inlet pipe 83 etc., the high pressure oil being discharged from Scrap-removing machine 7 by into Oil pipe 83 enters in fuel tank 85, and the embedded filtering magnetic row 73 being made of bar magnet 82, can adsorb the high pressure of process in fuel tank 85 Remaining iron filings in oil, filtered high pressure oil, which is entered by flowline 86 in cloth envelop collector 9, carries out next link filtering.It crosses It is necessary to clear up filtering magnetic row 73 after filter a period of time, at this time, it is only necessary to magnetic row 73 will be filtered by cylinder 81 and pulled out Fuel tank 85 is then shut off flowline 86, opens oil discharge pipe 84, inputs high pressure oil from oil inlet pipe 83, Scrap-removing machine 7 is led in oil discharge pipe 84 In, so that it may the iron filings in fuel tank 85 to be flushed in Scrap-removing machine 7.

Cloth envelop collector 9 is made of hydralic pressure gauge 91, oil inlet 92, unloading port 93, oil outlet 94 etc., built-in filter screen, from The high pressure oil that magnetic filter 8 is discharged is entered by oil inlet 92 in cloth envelop collector 9, built-in filter screen right and wrong in filter The filter layer of Chang Mishi can filter out very tiny impurity, under being entered by oil outlet 94 by filtered high pressure oil One filtering link；Hydralic pressure gauge 91 can show internal hydraulic pressure, and feed back in system, when oil pressure is excessively high, send out alarm, at this time It should be to being cleared up inside cloth envelop collector 9, extra oil is discharged for opening unloading port 93, then opens cloth envelop collector 9, will The filter screen of the inside is changed, and the cleaning work of cloth envelop collector 9 is completed.

It includes oil cooling machine 101, fuel reserve tank oil inlet 102, fuel reserve tank 103, content gauge 104 etc. to precipitate fuel tank 10, from cloth bag Filter 9 be discharged hydraulic oil entered in fuel reserve tank 103 by fuel reserve tank oil inlet 102, in fuel reserve tank 103 built-in multilayer every Plate ensures that hydraulic oil fully precipitates in fuel reserve tank 103, by residual powder shape contamination precipitation, ensures the filter effect of high pressure oil. Then the hydraulic oil suction after precipitation is input to again in pressure reducing valve 106 by oil pump 105, ensures the hydraulic pressure of output steady pressure Oil；In addition, oil cooling machine 101, control precipitation 10 hydraulic fluid temperature of fuel tank is arranged on 10 side of precipitation fuel tank；By layering, Ensure be depth drill 6 provide clean, voltage stabilizing, low temperature hydraulic oil, ensure the normal operation of depth drill 6 and electro spindle 43.

The present embodiment flat-die deep hole machining process is as follows：

1) during processing, 6 high speed rotation of depth drill is driven by electro spindle 43, while Z axis supporting plate 42 drives depth Hole drill 6 is towards workpiece feed motion, while in boring procedure, the hollow 61 sustained firing high pressure oil of injector in 6 front end of depth drill, The iron filings generated in process will be fed and go out aperture, avoid the damage to cutter；

2) lead-in stage：Depth drill 6 is just contacted with workpiece surface, and depth drill 6 protects length shorter, so just starting to feed Speed is relatively low, with the high speed rotation of depth drill 6, slowly processes importing depth；

3) drilling stage：After lead-in stage, it is put into drilling stage, the depth imported at this time can be very good to protect Shield drill bit is not broken, so speed is very fast compared to importing；

4) decelerating phase：When that will perforate, in order to avoid perforation 6 drill bit of moment depth drill is swung excessively, in perforation Before to slow down, ensure drill bit safety.

The present embodiment is processed using horizontal machine tool, and scrap will not accumulate bottom hole, be more easy to be discharged；It is bored using single-edge deep-hole, phase High pressure oil washing processing hole can be utilized than fluted drill, iron filings are discharged, protects cutter, and be not necessarily to cutter lifting, knife molding, processing It is more efficient；Cutter is directly driven by directly driving electro spindle, and under identical feed speed, rotating speed higher, processing hole inner wall is more smooth, adds Work is efficient；High pressure oil filtration system multistage filtering is set, ensures output free from admixture high pressure oil, avoids tool wear, ensures to add The Effec-tive Function of work, and high pressure oil can be recycled, it economizes on resources.

Embodiment two

It is the change carried out on the basis of embodiment one the present embodiment provides a kind of flat-die deep hole processing system, with Embodiment one the difference is that only：X-direction, Y direction and Z-direction are improved, wherein X-direction is parallel to The width direction of 11 side wall of rack, Y direction are parallel to the short transverse of 11 side wall of rack, and Z-direction is parallel to rack 11 The length direction of top surface.

Specific case is applied in the utility model to be expounded the principles of the present invention and embodiment, it is above The explanation of embodiment is merely used to help understand the method and its core concept of the utility model；Meanwhile for the one of this field As technical staff, according to the utility model thought, there will be changes in the specific implementation manner and application range.To sum up Described, the content of the present specification should not be construed as a limitation of the present invention.

Claims (10)

1. a kind of flat-die deep hole processing system, it is characterised in that：It is described including horizontal machine tool, three-shaft linkage system and depth drill Three-shaft linkage system includes X-axis assembly, Y-axis assembly and Z axis assembly；The X-axis assembly is movably installed in the horizontal machine tool Side, and can be moved along the X-direction of the horizontal machine tool；The Y-axis assembly is movably installed on the X-axis assembly, and can Y direction along the horizontal machine tool moves, and the mold being equipped with above the Y-axis assembly for fixing tool and mould to be added is solid Determine part；The Z axis assembly is installed on the top of the horizontal machine tool, and the depth drill is fixed on the Z axis assembly, the Z Axle assembly drives the depth drill to be moved along the Z-direction of the horizontal machine tool.

2. flat-die deep hole processing system according to claim 1, it is characterised in that：The horizontal machine tool includes lathe base And rack, the rack are set on the lathe base, the X-axis assembly is movably installed on the side wall of the rack, institute State the top that Z axis assembly is installed on the rack.

3. flat-die deep hole processing system according to claim 2, it is characterised in that：The X-direction is parallel to the machine The short transverse of the side wall of frame, the Y direction are parallel to the width direction of the side wall of the rack, and the Z-direction is parallel Length direction in the top surface of the rack.

4. flat-die deep hole processing system according to claim 3, it is characterised in that：The X-axis assembly includes that X-axis lifting is flat Platform is provided with the first linear slide rail on the side wall of the rack, and first linear slide rail is parallel to the X-direction setting, The X-axis hoistable platform is slidably connected with first linear slide rail.

5. flat-die deep hole processing system according to claim 4, it is characterised in that：The Y-axis assembly includes Y-axis supporting plate, The Y-axis supporting plate is connect by the second linear slide rail with the top slide of the X-axis hoistable platform, and second linear slide rail is set It is placed in the top of the X-axis hoistable platform, and is parallel to the Y direction.

6. flat-die deep hole processing system according to claim 5, it is characterised in that：The mold fixing piece is three-jaw card Disk, the scroll chuck are fixed on by chuck fixed seat on the Y-axis supporting plate.

7. flat-die deep hole processing system according to claim 5, it is characterised in that：The Z axis assembly includes electro spindle, Z Axis supporting plate and Z axis pedestal, the Z axis pedestal are fixed in the rack, are arranged on the Z axis pedestal and are parallel to the Z axis The third linear sliding rail in direction, the Z axis supporting plate are slidably connected with the third linear sliding rail；The electro spindle is for installing institute Depth drill is stated, and the electro spindle is fixed on the Z axis supporting plate.

8. flat-die deep hole processing system according to claim 7, it is characterised in that：It is slidably connected above the electro spindle Slide arm is equipped with the guide sleeve for being oriented to for the depth drill on the slide arm, and the guide sleeve and the depth drill are coaxial Setting.

9. flat-die deep hole processing system according to claim 1, it is characterised in that：The depth drill bores for single-edge deep-hole, Unidirectional V-groove is offered at the cutting edge that the single-edge deep-hole bores, the middle position of the cutting edge is provided with hollow injector, institute State the oil inlet passage that perforation is further opened at the axle center of single-edge deep-hole brill, one end of the oil inlet passage and the hollow injector Connection, the other end of the oil inlet passage are connected with high pressure oil filtration system.

10. flat-die deep hole processing system according to claim 9, it is characterised in that：The high pressure oil filtration system includes Sequentially connected Scrap-removing machine, magnetic filter, cloth envelop collector and precipitation fuel tank, the Scrap-removing machine are arranged in the horizontal machine tool Side, for collecting the high pressure oil containing iron filings being discharged in boring procedure；The precipitation fuel tank connects with the oil inlet passage It connects, for providing high pressure oil for the depth drill.