CN205496610U - Two -sided four -axis boring car duplex position combined machine tool - Google Patents

Abstract

The utility model provides a two -sided four -axis boring car duplex position combined machine tool, includes the base, be equipped with this base reciprocating motion's removal slip table relatively on this base, be equipped with anchor clamps on this removal slip table, still be equipped with on this base along first processing group and second processing group that the direction axis that moves the slip table was arranged, but this first processing group is including relative movement slip table reciprocating motion's left bore hole subassembly and right bore hole subassembly, this left side bore hole subassembly and right bore hole subassembly set up respectively in the both sides of removing the slip table, be equipped with the first cutter group that is used for realizing the bore hole processing respectively on this left side bore hole subassembly and right bore hole subassembly, but this second processing group is including relative movement slip table reciprocating motion's left toolbox and right toolbox, this left side toolbox and right toolbox set up respectively in the both sides of removing the slip table, be equipped with the second cutter group that is used for realizing the chamfer processing respectively on this left side toolbox and right toolbox. This lathe carries out a clamping to the work piece can be processed, reduces the error.

Description

A kind of two-sided four axle boring car double building-block machines

Technical field

This utility model relates generally to mechanical processing machine technical field, refers in particular to a kind of two-sided four axles Boring car double building-block machine.

Background technology

When the casing gear cavity of food blending machine is processed, except need to the seam of Double End and Outside dead eye is processed, in addition it is also necessary to dead eye is carried out chamfered, thus is applying existing lathe When seam on casing gear cavity and dead eye are processed, need on different lathes casing Gear cavity carries out multiple clamping, turnover just can complete, and easily duplicates position error, work pieces process Efficiency is low, lathe takes up an area big shortcoming.

Summary of the invention

This utility model provides a kind of two-sided four axle boring car double building-block machines, utilizes this lathe to case When seam on body gear cavity and dead eye are processed, it is not necessary to casing gear cavity is repeatedly filled Folder and turnover, be difficult to duplicate position error, improves work pieces process efficiency, reduces lathe and takes up an area face Long-pending.

The technical solution adopted in the utility model is:

A kind of two-sided four axle boring car double building-block machines, including base；Being provided with on the base can phase The Mobile Slide moving back and forth this base, is provided with fixture on this Mobile Slide；On the base also It is provided with the first processing group and the second processing group of the guidance axis layout along Mobile Slide；

This first processing group includes can the left bore hole assembly that moves back and forth of relative movement slide unit and right bore hole group Part；This left bore hole assembly and right bore hole assembly are separately positioned on the both sides of Mobile Slide；At this left bore hole It is respectively provided with on assembly and right bore hole assembly and realizes the first cutter group that bore hole processes；

This second processing group includes can the left toolbox that moves back and forth of relative movement slide unit and right cutter group Part；This left toolbox and right toolbox are separately positioned on the both sides of Mobile Slide；At this left cutter The the second cutter group realizing chamfered it is respectively provided with on assembly and right toolbox.

When utilizing combinations thereof lathe that the seam on casing gear cavity and dead eye are processed, it is only necessary to By casing gear cavity by fixture clamping on Mobile Slide, then make casing gear cavity to be processed only Mouth and dead eye are directed at the first cutter group, then drive it respectively by left bore hole assembly, right bore hole assembly On the first cutter group move to Mobile Slide and realize the seam on this casing gear cavity and dead eye Carry out Boring, after Boring completes, made on casing gear cavity by this Mobile Slide mobile Dead eye is directed at the second cutter group, then drives thereon respectively by left toolbox, right toolbox Second cutter group moves to Mobile Slide and realizes the chamfer machining to this casing gear cavity upper bearing aperture. It follows that only the processing to casing gear cavity can be completed by clamped one time, it is not necessary to casing Gear cavity carries out multiple clamping and turnover, is difficult to duplicate position error, improves work pieces process effect Rate, decreases lathe floor space.

The guidance axis of this left bore hole assembly and right bore hole assembly is perpendicular to the guidance axis of Mobile Slide. Simple in construction, it is easy to accomplish.

The guidance axis of this left toolbox and right toolbox is perpendicular to the guidance axis of Mobile Slide. Simple in construction, it is easy to accomplish.

This left bore hole assembly uses following structure with right bore hole assembly: including can this base autorotation relative Boring head and the first feeding slide unit of being slidably connected with this base；This boring head is arranged on this and first enters To on slide unit；This boring head is connected with this first cutter group.Simple and practical, can meet different Process requirements.

This left toolbox and right toolbox use following structure: including can respect thereto autorotation Unit head and the second feeding slide unit being slidably connected with this base；This unit head is arranged on this second feeding On slide unit；This unit head is connected with this second cutter.Simple and practical, different processing can be met Demand.

This left bore hole assembly is concordant with the guidance axis of right bore hole assembly.This structure arranges and meets casing tooth Seam on wheel chamber and the process requirements of dead eye.

This left toolbox is concordant with the guidance axis of right toolbox.This structure arranges and meets casing tooth The chamfer machining demand of wheel chamber upper bearing aperture.

What this utility model was brought has the beneficial effect that

Two-sided four axle boring car double building-block machine clamped one times can be processed, casing gear cavity Double End Seam and the processing of bearing portion, decrease the error of resetting, improve working (machining) efficiency, reduction The advantages such as the floor space of lathe.

Accompanying drawing explanation

Fig. 1 is the top view of this utility model embodiment；

Fig. 2 is that this utility model embodiment carries out bore hole to seam and dead eye in casing gear Double End Add the structural representation in man-hour；

Fig. 3 is that this utility model embodiment carries out chamfer machining to the dead eye in casing gear Double End Time structural representation；

Reference:

1, base；2, hydraulic moving slide unit；3, hydraulically operated fixture；4, the first feeding slide unit；5, boring Headstock；6, the first cutter group；7, the second feeding slide unit；8, unit head；9, the second cutter group； 10, casing gear cavity.

Detailed description of the invention

As Figure 1-3, a kind of two-sided four axle boring car double building-block machines, including base 1；At this Base 1 be provided with can the hydraulic moving slide unit 2 that moves back and forth of respect thereto 1, at this hydraulic moving slide unit 2 are provided with hydraulically operated fixture 3；This base 1 is additionally provided with the guidance axis along this hydraulic moving slide unit 2 The the first processing group arranged and the second processing group；

Wherein, include can the left bore hole group that moves back and forth of opposing hydraulic Mobile Slide 2 for this first processing group Part and right bore hole assembly, this left bore hole assembly and right bore hole assembly are separately positioned on hydraulic moving slide unit 2 Both sides, this left bore hole assembly all uses following structure with right bore hole assembly: including can this base relative The boring head 5 of 1 autorotation and the first feeding slide unit 4 being slidably connected with this base 1, this boring head 5 It is arranged on this first feeding slide unit 4, boring head 5 is provided with for realizing the first cutter that bore hole processes Tool group 6；

This second processing group includes can the left toolbox that moves back and forth of opposing hydraulic Mobile Slide 2 and the right side Toolbox, this left toolbox and right toolbox are separately positioned on the two of hydraulic moving slide unit 2 Side, this left toolbox and right toolbox all use following structure: including can respect thereto 1 rotation Dynamic unit head 8 and the second feeding slide unit 7 being slidably connected with this base 1, this unit head 8 is arranged on On this second feeding slide unit 7, this unit head 8 is provided with the second cutter group for realizing chamfered 9。

When utilizing combinations thereof lathe that the seam on casing gear cavity 10 and dead eye are processed, only Need to by casing gear cavity 10 by hydraulically operated fixture 3 clamping on hydraulic moving slide unit 2, then make casing Seam that gear cavity 10 is to be processed and dead eye are directed at the first cutter group 6, then by left bore hole assembly, Right bore hole assembly drives the first cutter group 6 thereon move to hydraulic moving slide unit 2 and realize this respectively Seam and dead eye on casing gear cavity 10 carry out Boring, as in figure 2 it is shown, Boring is complete Cheng Hou, makes the dead eye on casing gear cavity 10 be directed at the second cutter by movable hydraulic Mobile Slide 2 Group 9, then drive the second cutter group 9 thereon to hydraulic pressure respectively by left toolbox, right toolbox Mobile Slide 2 moves and realizes the chamfer machining to this casing gear cavity 10 upper bearing aperture, such as Fig. 3 institute Show.It follows that only the processing to casing gear cavity 10 can be completed by clamped one time, it is not necessary to Casing gear cavity 10 is carried out multiple clamping and turnover, is difficult to duplicate position error, improve workpiece Working (machining) efficiency, decreases lathe floor space.

In the present embodiment, the guidance axis of this left bore hole assembly and right bore hole assembly is perpendicular to hydraulic moving The guidance axis of slide unit 2；The guidance axis of this left toolbox and right toolbox is perpendicular to hydraulic pressure and moves The guidance axis of dynamic slide unit 2.Simple in construction, it is easy to accomplish.

This left bore hole assembly is concordant with the guidance axis of right bore hole assembly, and this structure arranges and meets casing tooth Seam on wheel chamber 10 and the process requirements of dead eye.

This left toolbox is concordant with the guidance axis of right toolbox.This structure arranges and meets casing tooth The chamfer machining demand of wheel chamber 10 upper bearing aperture.

Wherein first feeding slide unit the 4, second feeding slide unit 7 is hydraulic feed slide unit.

Above-listed detailed description is illustrating for one of this utility model possible embodiments, and this embodiment is also Being not used to limit the scope of the claims of the present utility model, all equivalences done without departing from this utility model are implemented or become More, it is intended to be limited solely by the scope of the claims of this case.

Claims (7)

1. two-sided four axle boring car double building-block machines, it is characterised in that: include base；Institute State base be provided with can the Mobile Slide that moves back and forth of the most described base, described Mobile Slide sets There is fixture；Described base is additionally provided with along Mobile Slide guidance axis arrange the first processing group and Second processing group；

Described first processing group includes can the left bore hole assembly that moves back and forth of relative movement slide unit and right bore hole Assembly；Described left bore hole assembly and right bore hole assembly are separately positioned on the both sides of Mobile Slide；Described It is respectively provided with on left bore hole assembly and right bore hole assembly and realizes the first cutter group that bore hole processes；

Described second processing group includes can the left toolbox that moves back and forth of relative movement slide unit and right cutter Assembly；Described left toolbox and right toolbox are separately positioned on the both sides of Mobile Slide；Described The the second cutter group realizing chamfered it is respectively provided with on left toolbox and right toolbox.

Two-sided four axle boring car double building-block machines the most according to claim 1, its feature exists In: the guidance axis of described left bore hole assembly and described right bore hole assembly is perpendicular to described Mobile Slide Guidance axis.

Two-sided four axle boring car double building-block machines the most according to claim 1, its feature exists In: the guidance axis of described left toolbox and described right toolbox is perpendicular to described Mobile Slide Guidance axis.

Two-sided four axle boring car double building-block machines the most according to claim 1, its feature exists In: described left bore hole assembly uses following structure with described right bore hole assembly: including can the relative described end The seat boring head of autorotation and the first feeding slide unit being slidably connected with described base；Described boring head sets Put on described first feeding slide unit；Described boring head is connected with described first cutter group.

Two-sided four axle boring car double building-block machines the most according to claim 1, its feature exists Use following structure in: described left toolbox and right toolbox: include can relative described base from The unit head rotated and the second feeding slide unit being slidably connected with described base；Described unit head is arranged on On described second feeding slide unit；Described unit head is connected with described second cutter.

Two-sided four axle boring car double building-block machines the most according to claim 1, its feature exists In: described left bore hole assembly is concordant with the guidance axis of right bore hole assembly.

Two-sided four axle boring car double building-block machines the most according to claim 1, its feature exists In: described left toolbox is concordant with the guidance axis of right toolbox.