CN206241318U - Numerical control crystallizer copper pipe processes production miller - Google Patents

Abstract

Numerical control crystallizer copper pipe processes production miller, including base, slide, ram, milling head and workbench, the slide is arranged in the X-axis guide rail of base top, and by X-axis screw mandrel connect base, ram is arranged in the Y-axis guide rail of slide top, and connects slide by Y-axis screw mandrel, and ram installs milling head near one end of workbench, workbench is arranged in the Z axis guide rail of base front surface, and by Z axis screw mandrel connect base；The utility model meets the requirement of the disposable clamping correction machine-shaping of middle small dimension long strip type parts, greatly reduces equipment investment, and Product Precision and production efficiency is greatly improved, and with wide market prospects, is worth promoting.

Description

Numerical control crystallizer copper pipe processes production miller

Technical field

The utility model is related to milling machine field, especially a kind of numerical control crystallizer copper pipe processing production miller.

Background technology

In universal numerical control lathe, there is traditional vertical machining center and horizontal for the equipment of middle small dimension parts machining Machining center, and traditional vertical machining center cannot carry out horizontal symmetrical machining, horizontal processing to long strip type parts two ends Center stroke is limited and cannot process part upper surface.Conventionally manufactured business can only simultaneously using traditional vertical machining center and horizontal Machining center operation break-down is processed, and many frocks of operation are complicated, and the precise decreasing that multiple clamping is brought is unavoidable, and inefficiency. Strong manufacturer is then using the horizontal special right-angle milling head of processing of equipment or the large-sized gantry milling machine one with automatic rotary cutter head Secondary clamping machine-shaping, but equipment investment is 5 to 10 times of traditional vertical machining center.

Specifically traditional vertical machining center has following defect：First, traditional vertical machining center is moved using workbench Flowing mode, the length of workbench supporting plate is more than the twice of table stroke, and base span must is fulfilled for pallet length direction Rigid demand, therefore constrain the lengthening (being usually no more than 1000mm) of table stroke significantly in limited cost, it is difficult to Meet the processing of long strip type parts (1000mm or so) two ends.

2nd, traditional vertical machining center cannot carry out horizontal processing, and traditional horizontal Machining centers cannot carry out vertical processing.

3rd, traditional numeric-control planer-type milling machine weight is big, and floor space is big, and the processing for middle small dimension long strip type parts sets Standby service efficiency is low, and equipment investment cost is too high, operates with somewhat expensive.

Utility model content

The utility model aims to provide one kind and is solved for middle small dimension long strip type zero in limited device cost-range Part dispensable mould clamping is corrected, the symmetrical inside and outside contour of parts two ends and upper surface contour machining being automatically performed, and lifts product Quality, reduces equipment investment cost, the numerical control crystallizer copper pipe processing production miller of improve production efficiency.

To achieve the above object, the utility model provides following technical scheme：Numerical control crystallizer copper pipe processes production miller, Including base, slide, ram, milling head and workbench, the slide is arranged in the X-axis guide rail of base top, and by X-axis silk Bar connect base, ram is arranged in the Y-axis guide rail of slide top, and connects slide by Y-axis screw mandrel, and ram is near workbench One end milling head is installed, workbench is arranged in the Z axis guide rail of base front surface, and by Z axis screw mandrel connect base.

As further scheme of the present utility model：The milling head is indexing milling head.

As further scheme of the present utility model：The rotating range of the milling head is -110 °~+110 °.

As further scheme of the present utility model：The X-axis guide rail is vertical with Y-axis guide rail, Z axis guide rail and X-axis guide rail It is vertical with plane where Y-axis guide rail.

As further scheme of the present utility model：The slide is by the X-axis silk at the top of feed screw nut's seat connect base Bar.

As further scheme of the present utility model：The ram connects slide by Y-axis screw mandrel, and Y-axis screw mandrel is arranged on On ram, slide is by feed screw nut's seat connection Y-axis screw mandrel.

As further scheme of the present utility model：The workbench is by feed screw nut's seat positive Z axis of connect base Screw mandrel.

As further scheme of the present utility model：The X-axis screw mandrel, Y-axis screw mandrel and Z axis screw mandrel connect driving electricity respectively Machine.

Compared with prior art, the beneficial effects of the utility model are：Numerical control crystallizer copper pipe processing production miller tool Have the advantage that：First, compared with traditional vertical machining center, there is longer X-axis stroke, the automatic rotation indexing milling head of band can be right Middle small dimension long strip type parts two ends carry out symmetrical machining.Two and the contrast of traditional horizontal Machining centers, can be to medium and small rule Lattice long strip type parts carry out the vertical processing in upper surface, and equipment investment cost is better than traditional horizontal Machining centers.Three and tradition CNC planer type milling machine is compared, and equipment investment cost advantage is huge, and use cost advantage is huge.

The utility model meets the requirement of the disposable clamping correction machine-shaping of middle small dimension long strip type parts, greatly Equipment investment is reduced greatly, Product Precision and production efficiency is greatly improved, with wide market prospects, be worth pushing greatly Extensively.

Brief description of the drawings

Fig. 1 is front view of the present utility model；

Fig. 2 is side view of the present utility model.

Specific embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is carried out Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the utility model, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made The every other embodiment for being obtained, belongs to the scope of the utility model protection.

Fig. 1-2 is referred to, in the utility model embodiment, numerical control crystallizer copper pipe processing production miller, including base 1, Slide 2, ram 3, milling head 4 and workbench 5, the slide 2 are arranged in the X-axis guide rail at the top of base 1, and by X-axis screw mandrel Connect base 1, ram 3 is arranged in the Y-axis guide rail at the top of slide 2, and connects slide 2 by Y-axis screw mandrel, and ram 3 is near work Milling head 4 is installed in the one end for making platform 5, and workbench 5 is arranged in the positive Z axis guide rail of base 1, and by Z axis screw mandrel connect base 1。

Above-mentioned, milling head 4 is that high-precision swing indexes milling head, can automatically be rotated in the range of -110 ° to+110 ° and high accuracy Indexing.

Above-mentioned, X-axis guide rail is vertical with Y-axis guide rail, and Z axis guide rail is vertical with the plane where X-axis guide rail and Y-axis guide rail.

It is above-mentioned, the X-axis screw mandrel that slide 2 passes through the top of feed screw nut's seat connect base 1.

Above-mentioned, ram 3 connects slide 2 by Y-axis screw mandrel, and Y-axis screw mandrel is arranged on ram 3, and slide 2 passes through feed screw nut Seat connection Y-axis screw mandrel.

Above-mentioned, workbench 5 is by feed screw nut's seat positive Z axis screw mandrel of connect base 1.

Above-mentioned, X-axis screw mandrel, Y-axis screw mandrel and Z axis screw mandrel connect motor respectively.

Above-mentioned, the connection between slide 2 and X-axis screw mandrel, slide 2 and Y-axis screw mandrel and workbench 5 and Z axis screw mandrel can be Feed screw nut's seat is still not limited only to by feed screw nut's seat.

Above-mentioned, each motor and indexing milling head are all connected with digital control system, Automated condtrol.

The machine tool type for being directed to the processing of steel mill conticaster key components and parts crystallizer copper pipe and developing, but do not limit to This work pieces process.

In order to reach Horizontal dual-end face symmetrical machining and the processing of vertical upper surface, the design of milling head 4 possesses following functions feature： A milling heads 4 with spinfunction, for realizing realizing that left and right both ends of the surface and upper surface add in the case where the disposable clamping of workpiece is corrected Work；B milling heads 4 are with precision round subsection function, it is ensured that in the case where the disposable clamping of workpiece is corrected, left and right both ends of the surface and upper table The symmetrical required precision of face processing；The two above function of c milling heads 4 is all by digital control system and the internal structure function part of milling head 4 Part is automatically obtained, and completely disengages from manual intervention, to save human cost and improve processing efficiency, it is to avoid intervene the mistake for producing manually Difference.

Further, for the processing of middle small dimension long strip type parts, also a kind of scheme is exactly using three main shafts (both ends of the surface and each one above) layout designs, can avoid the exploitation of the automatic rotation indexing function milling head 4 of band, but cost is close In 3 costs of equipment, equipment investment is not too excellent.

Design feature of the present utility model and its advantage：Workbench 5 is moved up and down (Z axis) on base 1, clamping cutter Milling head 4 installed in the end face of ram 3, ram 3 does movable (Y-axis) on slide 2, and slide 2 does left and right at the top of base 1 Mobile (X-axis), milling head 4 can automatically rotate and precision round subsection in the range of -110 ° to+110 °.In limited device cost-range It is interior to solve for the correction of middle small dimension long strip type parts dispensable mould clamping, the symmetrical interior foreign steamer of the parts two ends being automatically performed Wide and upper surface contour machining, Improving The Quality of Products reduces equipment investment cost, improve production efficiency.

First, the utility model numerical control double-end facing cut bed is fixed using workbench, and milling head main axle moving mode is substantially increased Processing length in limited cost.

2nd, the utility model numerical control double-end facing cut bed uses Special Automatic rotary index milling head, in -110 ° to+110 ° models Interior automatic rotation and precision round subsection are enclosed, horizontal two ends processing can be carried out in the case of disposable clamping correction parts With vertical processing.

3rd, cost and use cost control of the utility model numerical control double-end facing cut bed based on traditional vertical machining center, With less floor space, supermatic operation reduction investment demand and use cost.

Operation principle of the present utility model and its application method：In order to reach bigger processing model in limited design cost Enclose, the utility model structure has separated the dimension of workpiece movement and cutter movement, workpiece does one-dimensional movement, and cutter does three-dimensional shifting It is dynamic.Concrete principle process is as follows：Due to for compared with elongated parts machining, in order to save the floor space of mobile space, whole machine Base 1 is fixed in ground base, and workpiece (workbench 5) is existed by the guide rail and screw mandrel installed in the front vertical direction of base 1 Short transverse (Z-direction) does one-dimensional movement；Slide 2 is by the guide rail and screw mandrel installed in the horizontal left and right directions of top surface of base 1 One-dimensional movement is done in left and right directions, and then drives ram 3 and the part of milling head 4 to realize that cutter is moved left and right (X-direction)；Ram 3 Front and rear one-dimensional movement is done by the guide rail and screw mandrel on the top of slide 2, and then before and after driving the part of milling head 4 to realize cutter Mobile (Y direction)；The band of milling head 4 carries rotary index function, is rotated in YZ planes, realize cutter -110 ° to+ One-dimensional Rotary indexing movement (C axles) in the range of 110 °.

It is obvious to a person skilled in the art that the utility model is not limited to the details of above-mentioned one exemplary embodiment, and And in the case of without departing substantially from spirit or essential attributes of the present utility model, can in other specific forms realize that this practicality is new Type.Therefore, no matter from the point of view of which point, embodiment all should be regarded as exemplary, and is nonrestrictive, this practicality is new The scope of type limits by appended claims rather than described above, it is intended that the equivalency fallen in claim is contained All changes in justice and scope are included in the utility model.Any reference in claim should not be considered as limitation Involved claim.

Moreover, it will be appreciated that although the present specification is described in terms of embodiments, not each implementation method is only wrapped Containing an independent technical scheme, this narrating mode of specification is only that for clarity, those skilled in the art should Specification an as entirety, the technical scheme in each embodiment can also be formed into those skilled in the art through appropriately combined May be appreciated other embodiment.

Claims (8)

1. numerical control crystallizer copper pipe processes production miller, including base, slide, ram, milling head and workbench, it is characterised in that The slide is arranged in the X-axis guide rail of base top, and by X-axis screw mandrel connect base, ram is arranged on the Y of slide top On axis rail, and slide is connected by Y-axis screw mandrel, ram installs milling head near one end of workbench, and workbench is arranged on base In positive Z axis guide rail, and by Z axis screw mandrel connect base.

2. numerical control crystallizer copper pipe according to claim 1 processes production miller, it is characterised in that the milling head is indexing Milling head.

3. numerical control crystallizer copper pipe according to claim 1 processes production miller, it is characterised in that the rotation of the milling head Scope is -110 °~+110 °.

4. numerical control crystallizer copper pipe according to claim 1 processes production miller, it is characterised in that the X-axis guide rail and Y Axis rail is vertical, and Z axis guide rail is vertical with the plane where X-axis guide rail and Y-axis guide rail.

5. numerical control crystallizer copper pipe according to claim 1 processes production miller, it is characterised in that the slide passes through silk X-axis screw mandrel at the top of stem nut seat connect base.

6. numerical control crystallizer copper pipe according to claim 1 processes production miller, it is characterised in that the ram passes through Y Axial filament bar connects slide, and Y-axis screw mandrel is arranged on ram, and slide is by feed screw nut's seat connection Y-axis screw mandrel.

7. numerical control crystallizer copper pipe according to claim 1 processes production miller, it is characterised in that the workbench passes through Feed screw nut's seat positive Z axis screw mandrel of connect base.

8. numerical control crystallizer copper pipe according to claim 1 processes production miller, it is characterised in that the X-axis screw mandrel, Y Axial filament bar and Z axis screw mandrel connect motor respectively.