CN205629404U - Boring machine processing machine and Z axle headstock are milled in numerical control - Google Patents

Abstract

The utility model discloses a boring machine processing machine and Z axle headstock are milled in numerical control, including leading electrical slip ring, main shaft, balancing unit, parallel base, drive assembly, mobile device and lock blade holder, leading the electrical slip ring cover and establishing on the main shaft, parallel base setting is provided with the third gear at the lower extreme of main shaft, the lower extreme of main shaft, and parallel base horizontal direction under the drive of third gear is rotatory, and balancing unit sets up in parallel base upper end, and the mobile device setting drives the rotation of mobile device horizontal direction at parallel base lower extreme, parallel base, the mobile device is horizontal radial motion under drive assembly's drive, and the lock blade holder is fixed at the mobile device lower extreme. The utility model discloses not only can carry out the up -and -down motion, the parallel dish in the headstock can also rotate, and the mobile device can also carry out the terminal surface radial motion simultaneously, can be used to mill, functions such as drilling, turning plane and bore hole cutting, and the function is various, changes the cutter, simple structure, simple to operate, work efficiency height through the lock blade holder.

Description

Cnc boring and milling machine processing machine and Z Axle main spindle box

Technical field

This utility model relates to the design of automatic boring & milling machine structure and applied technical field, particularly relates to a kind of multi-functional cnc boring and milling machine processing machine and Z axis main spindle box thereof.

Background technology

At present, along with economic fast development, mechanization that all trades and professions are commonly used, automated job equipment, simultaneously, the machining accuracy of various machineries is had higher requirement, this just requires that corresponding manufacturing and processing equipment must be able to meet this required precision, the process equipment of prior art generally uses numerical control machine tool, in recent years, flourish along with domestic equipment manufacture, the more aobvious status of machine industry as equipment manufacture machine tool highlights, in order to adapt to the demand of various industrial undertaking, Machine Manufacture business release high accuracy milling-boring machine processing machine one after another.

Through market survey analysis, the most many industries are required for the cnc boring and milling machine processing machine of diverse in function, can disposably carry out car face, curved surface, hole, inner conical surface, cylindrical, male cone (strobilus masculinus), cylindrical thread, taper thread, wait the machine tool accessories of multistage manufacturing processes, but the most common multi-functional cnc boring and milling machine processing machine automaticity is low, mismachining tolerance is big, and precision is low, and part exchanging is slow, waste time and energy, functioning efficiency is low, and high-end cnc boring and milling machine processing machine price is high, is unfavorable for popularizing.

Utility model content

For weak point present in above-mentioned technology, this utility model provides a kind of multifunctional numerical control milling-boring machine processing machine and Z axis main spindle box, can not only move up and down, parallel discs in main spindle box can also rotate, and the mobile device being simultaneously installed with cutting workpiece can also carry out end face radial motion.

For achieving the above object, this utility model provides a kind of Z axis main spindle box, including conducting slip ring, main shaft, bascule, parallel plinth, transmission component, mobile device and lock tool rest；

Described conducting slip ring is set in main shaft upper end, described parallel plinth is arranged on the lower end of main shaft, the lower end of described main shaft is provided with the 3rd gear, described parallel plinth horizontal direction under the drive of the 3rd gear rotates, described bascule is arranged on parallel plinth upper end, described mobile device is arranged on parallel plinth lower end, and described parallel plinth drives mobile device horizontal direction to rotate；Described mobile device is horizontal radial motion under the drive of transmission component, and described lock tool rest is fixed on mobile device lower end.

Wherein, described bascule is symmetrical structure, it is provided with the first balance weight, the second balance weight, the first balanced line rail and the second balanced line rail, described first balanced line track and the second balanced line rail are respectively in first storage tank and the second storage tank of parallel plinth, described first balance weight is fixed on the first balanced line rail, described second balance weight is fixed on the second balanced line rail, and the first balance weight and the second balance weight are symmetricly set on the both sides of main shaft.

Wherein, described mobile device includes first moving dish line rail, second moving dish line rail and mobile dish, described mobile dish is class " recessed " the type structure that the low two ends, centre become with floor combination by the first projection, the second projection are high, described mobile dish the first projection and first moves dish line rail and connects, described second projection and second moves dish line rail and connects, and described mobile dish moves dish line rail and second first and moves horizontal radial motion on dish line rail.

Wherein, the first through hole and the second through hole it is provided with on described parallel plinth, described first through hole is positioned at the first balanced line trackside, described second through hole is positioned at the second balanced line trackside, it is provided with the first gear in described first through hole, it is provided with the second gear in described second through hole, described first gear one end connects the first balance weight, the other end connects the first projection, one end of described second gear connects the second balance weight, the other end connects the second projection, first projection and the second projection are moved on the first balanced line rail and the second balanced line rail by the first gear and second gear driven the first balance weight and the second balance weight.

Wherein, described transmission component includes servomotor, the first belt pulley, belt, the second belt pulley and screw mandrel, described servomotor electrically connects with conducting slip ring, described servomotor is fixed on parallel plinth, described screw mandrel is fixed on mobile dish, and drives mobile dish to do horizontal radial relative to parallel plinth to move；Described first belt pulley is fixed on servomotor, and described second belt pulley is fixed on screw mandrel, and described belt connects the first belt pulley and the second belt pulley.

Wherein, described screw mandrel includes fixing seat and rotates bar, described fixing seat is fixed on mobile dish, described rotation bar is contained in the through hole of fixing seat, described second belt pulley drives and rotates bar rotation, described mobile dish is provided with the first helicitic texture, described rotation bar is provided with the second helicitic texture, described first helicitic texture and the second helicitic texture are adaptive, and the second helicitic texture moves forward and backward relative to the first helicitic texture.

Wherein, described mobile device also includes that grating scale, described grating scale are fixed on mobile dish, and parallel with mobile dish line rail, and described grating scale electrically connects with governor circuit.

Wherein, described lock tool rest is that wedge formula locks tool rest, including the first support, the second support and for controlling the first support and the cylinder of the second support, one end of described first support and the second support is fixed on cylinder, the other end is provided with carves iron block, and two carve iron block and be oppositely arranged, and leave the gap for cutter holding.

This utility model also provides for a kind of cnc boring and milling machine processing machine, including the Z axis main spindle box of said structure.

The beneficial effects of the utility model are: compared with prior art, a kind of multifunctional numerical control milling-boring machine processing machine of this utility model offer and Z axis main spindle box, can not only move up and down, parallel discs in main spindle box can also rotate, the mobile device being simultaneously installed with cutting workpiece can also carry out end face radial motion, when locking tool rest in alignment of shafts position, can be used for milling and drilling function, when mobile device does radial motion, plane machining can be realized, when main shaft moves up and down, bore hole cutting can be done, diverse in function, cutter is changed by lock tool rest, simple in construction, easy for installation, work efficiency is high.

Accompanying drawing explanation

Fig. 1 is the explosive view of the Z axis main spindle box internal structure of this utility model embodiment；

Fig. 2 is that the Z axis main spindle box internal structure assembled state of this utility model embodiment is with reference to figure；

Fig. 3 is the Z axis main spindle box lock tool-apron structure schematic diagram of this utility model embodiment.

Main element symbol description is as follows:

1, main shaft 2, bascule

3, parallel plinth 4, transmission component

5, mobile device 6, lock tool rest

7, conducting slip ring 21, balanced line rail

22, balance weight 31, the first storage tank

32, the second storage tank 33, the second through hole

41, servomotor 42, the first belt pulley

43, belt 44, the second belt pulley

45, screw mandrel 51, dish is moved

52, dish line rail is moved 53, grating scale

61, the first support 62, the second support

63, cylinder 64, gap

211, the first balanced line track

212, the second balanced line rail 221, the first balance weight

222, the second balance weight 451, fixing seat

452, bar is rotated 511, the first projection

512, the second projection 513, base plate

521, first dish line rail is moved 522, second dish line rail is moved

611, first iron block is carved 622, second iron block is carved.

Detailed description of the invention

In order to more clearly state this utility model, below in conjunction with the accompanying drawings this utility model is further described.

Referring to Fig. 1-Fig. 2, this utility model provides a kind of Z axis main spindle box, including conducting slip ring 7, main shaft 1, bascule 2, parallel plinth 3, transmission component 4, mobile device 5 and lock tool rest 6；Conducting slip ring 7 is set in main shaft 1 upper end, parallel plinth 3 is arranged on the lower end of main shaft 1, the lower end of main shaft 1 is provided with gear, parallel plinth 3 horizontal direction under the drive of gear rotates, bascule 2 is arranged on parallel plinth 3 upper end, mobile device 5 is arranged on parallel plinth 3 lower end, and parallel plinth 3 drives mobile device 5 horizontal direction to rotate；Mobile device 5 is horizontal radial motion under the drive of transmission component 4, and lock tool rest 6 is fixed on mobile device 5 lower end.

Compared with prior art, a kind of Z axis main spindle box that this utility model provides, it is mainly used in cnc boring and milling machine processing machine, Z axis main spindle box is mainly used in the motion of milling-boring machine processing machine above-below direction, its motion is mainly moved up and down by whole main spindle box, in this utility model, mobile device 5 both can carry out the rotation of horizontal direction together with parallel plinth 3, radial motion can be done under the effect of transmission component 4 again simultaneously, and do not affected by parallel plinth 3, motion mode is more flexible, so that original main spindle box is only used for doing milling and drilling, to realizing turning, borings etc. operate, simple in construction, function is the most diversified, only need to replace the cutter on lock tool rest, not only increase work efficiency, a tractor serves several purposes, save production cost.

nullIn the present embodiment，Mobile device 5 includes mobile dish 51 and mobile dish line rail 52，Mobile dish line rail 52 is fixed on parallel plinth 3 lower end，Mobile dish 51 is horizontal radial motion on mobile dish line rail 52，Thus realize radial motion，It is allowed to the function with plane machining，Due in the present embodiment，Parallel plinth 3 rotates under the drive of main shaft 1，And movement dish line rail 52 is fixed on parallel plinth 3，Therefore move dish 51 and carry out 360 rotations of horizontal direction as well as parallel plinth 3，Owing to mobile dish 51 is that the mode being driven selects，Easily produce a centrifugal force，It is easy to allow mobile dish 51 depart from，Therefore in the present embodiment，Parallel plinth 3 is provided with a through hole，Gear (not shown) it is provided with in through hole，Gear one end connects the balance weight 22 on bascule 2，The other end connects the mobile dish 51 in mobile device 5，Arranging of balance weight 22 reduces mobile dish 51 and the centrifugal force of parallel plinth，It is allowed to running balance，Safer.

nullIn the present embodiment，The mobile dish 51 of mobile device 5 further can be by the first projection 511、Class " recessed " the type structure that low two ends, centre that second projection 512 and base plate 513 are combined into are high，Mobile device 5 includes that first moves dish line rail 521、Second moves dish line rail 522 and mobile dish 51，First projection 511 moves dish line rail 521 and is connected with first，Second projection 512 moves dish line rail 522 and is connected with second，Mobile dish 51 moves dish line rail 521 and second first and moves horizontal radial motion on dish line rail 522，Corresponding，Bascule 2 is symmetrical structure，It is provided with the first balance weight 221、Second balance weight 222、First balanced line rail 211 and the second balanced line rail 212，First balanced line track 211 and the second balanced line rail 212 are respectively in first storage tank 31 and the second storage tank 32 of parallel plinth 3，First balance weight 221 is fixed on the first balanced line rail 211，Second balance weight 222 is fixed on the second balanced line rail 212，And first balance weight 221 and the second balance weight 222 be symmetricly set on the both sides of main shaft 1.The first through hole (not shown) and the second through hole 33 it is provided with on parallel plinth 3, it is other that first through hole is positioned at the first balanced line rail 211, it is other that second through hole 33 is positioned at the second balanced line rail 212, the first gear (not shown) it is provided with in first through hole, the second gear (not shown) it is provided with in second through hole 33, first gear one end connects the first balance weight 221, the other end connects the first projection 511, one end of second gear connects the second balance weight 222, the other end connects the second projection 512, first projection 511 and the second projection 512 are moved on the first balanced line rail 211 and the second balanced line rail 212 by the first gear and second gear driven the first balance weight 221 and the second balance weight 222, thus preferably reduce centrifugal force when parallel plinth 3 rotates with mobile dish 51.

In the present embodiment, transmission component 4 drives mobile device 5 to carry out radial motion, transmission component 4 includes servomotor the 41, first belt pulley 42, belt the 43, second belt pulley 44 and screw mandrel 45, servomotor 41 electrically connects with conducting slip ring 7, conducting slip ring 7 provides power supply to main shaft 1 and servomotor 41, servomotor 41 is fixed on parallel plinth 3, screw mandrel 45 is fixed on mobile dish 51, it is fixed on specifically on base plate 513, and drive mobile dish 51 horizontal radial to move, radially move relative to parallel plinth 3；Screw mandrel 45 includes fixing seat 451 and rotates bar 452, fixing seat 451 is fixed on mobile dish 51, rotate bar 452 to be contained in the through hole (not shown) of fixing seat 451, first belt pulley 42 is fixed on servomotor 41, second belt pulley 44 is fixed on rotation bar 452, belt 43 connects the first belt pulley 42 and the second belt pulley 44, servomotor 41 rotates, the first belt pulley 42 is made to rotate, under the affecting of belt 43, the second belt pulley 44 rotates, second belt pulley 44 drives rotation bar 452 to rotate, it is provided with the first helicitic texture (not shown) on mobile dish 51, rotate and be provided with the second helicitic texture (not shown) on bar 452, first helicitic texture and the second helicitic texture are adaptive, second helicitic texture moves forward and backward relative to the first helicitic texture.In the present embodiment, the direction that whole mobile dish 51 moves is tangent with parallel plinth 3 radius, therefore mobile dish 51 can be driven in the case of parallel plinth 3 rotates to radially move for radial motion transmission component 4, it is also possible to do radial motion when parallel plinth 3 is non-rotary, motion mode is flexible.

In the present embodiment, mobile device 5 also includes grating scale 53, grating scale 53 is fixed on mobile dish 51, and move dish line rail 521 and second to move dish line rail 522 parallel with first, grating scale 52 electrically connects with governor circuit (not shown), mainly by the photoinduction to grating scale 52, measures the distance that mobile dish 51 runs, and be transferred in governor circuit be monitored analyzing and display by this distance value, it is simple to milling-boring machine works more accurately.

Refer to Fig. 3, in the present embodiment, lock tool rest 6 locks tool rest for wedge formula, lock tool rest 6 includes the first support 61, second support 62 and be used for controlling the cylinder 63 of the first support and the second support, one end of first support 61 and the second support 62 is fixed on cylinder 63, the other end is provided with first and carves iron block 611 and second and carve iron block 622, first carves iron block 611 and second carves iron block 622 and is oppositely arranged, and leave the gap 64 for cutter holding, under the control of cylinder 63, first support 61 and the second support 62 move, drive first carve iron block 611 and second carve iron block 622 unclamp with clamping, to facilitate the replacing of cutter.

This utility model also provides for a kind of cnc boring and milling machine processing machine, include above-mentioned described Z axis main spindle box, there is the cnc boring and milling machine processing machine of this Z axis headstock structure, can not only move up and down, parallel discs in main spindle box can also rotate, the mobile device being simultaneously installed with cutting workpiece can also carry out end face radial motion, when locking tool rest in alignment of shafts position, can be used for milling and drilling function, when mobile device does radial motion, plane machining can be realized, when main shaft moves up and down, bore hole cutting can be done, diverse in function, cutter is changed by lock tool rest, simple in construction, easy for installation, work efficiency is high.

Advantage of the present utility model is:

1) simple in construction, easy for installation, the operation of different operation can be carried out by changing the cutter on lock tool rest, work efficiency is high；

2) it is provided with balance weight, pins down mobile dish and the centrifugal force of parallel plinth rotation, make equipment operation get up safer, relieved；

3) equipment, can carry out turning, milling, boring, drilling simultaneously and can realize tool rest rotor, save the expense purchasing other equipment, made production cost less expensive.

Only several specific embodiments of the present utility model disclosed above, but this utility model is not limited to this, and the changes that any person skilled in the art can think of all should fall into protection domain of the present utility model.

Claims (9)

1. a Z axis main spindle box, it is characterised in that include conducting slip ring, main shaft, bascule, parallel plinth, transmission component, mobile device and lock tool rest；

Described conducting slip ring is set in main shaft upper end, described parallel plinth is arranged on the lower end of main shaft, the lower end of described main shaft is provided with the 3rd gear, described parallel plinth horizontal direction under the drive of the 3rd gear rotates, described bascule is arranged on parallel plinth upper end, described mobile device is arranged on parallel plinth lower end, and described parallel plinth drives mobile device horizontal direction to rotate；Described mobile device is horizontal radial motion under the drive of transmission component, and described lock tool rest is fixed on mobile device lower end.

Z axis main spindle box the most according to claim 1, it is characterized in that, described bascule is symmetrical structure, it is provided with the first balance weight, the second balance weight, the first balanced line rail and the second balanced line rail, described first balanced line track and the second balanced line rail are respectively in first storage tank and the second storage tank of parallel plinth, described first balance weight is fixed on the first balanced line rail, described second balance weight is fixed on the second balanced line rail, and the first balance weight and the second balance weight are symmetricly set on the both sides of main shaft.

Z axis main spindle box the most according to claim 2, it is characterized in that, described mobile device includes first moving dish line rail, second moving dish line rail and mobile dish, described mobile dish is class " recessed " the type structure that the low two ends, centre become with floor combination by the first projection, the second projection are high, described mobile dish the first projection and first moves dish line rail and connects, described second projection and second moves dish line rail and connects, and described mobile dish moves dish line rail and second first and moves horizontal radial motion on dish line rail.

Z axis main spindle box the most according to claim 3, it is characterized in that, the first through hole and the second through hole it is provided with on described parallel plinth, described first through hole is positioned at the first balanced line trackside, described second through hole is positioned at the second balanced line trackside, it is provided with the first gear in described first through hole, it is provided with the second gear in described second through hole, described first gear one end connects the first balance weight, the other end connects the first projection, one end of described second gear connects the second balance weight, the other end connects the second projection, first projection and the second projection are moved on the first balanced line rail and the second balanced line rail by the first gear and second gear driven the first balance weight and the second balance weight.

Z axis main spindle box the most according to claim 3, it is characterized in that, described transmission component includes servomotor, the first belt pulley, belt, the second belt pulley and screw mandrel, described servomotor electrically connects with conducting slip ring, described servomotor is fixed on parallel plinth, described screw mandrel is fixed on mobile dish, and drives mobile dish to do horizontal radial relative to parallel plinth to move；Described first belt pulley is fixed on servomotor, and described second belt pulley is fixed on screw mandrel, and described belt connects the first belt pulley and the second belt pulley.

Z axis main spindle box the most according to claim 5, it is characterized in that, described screw mandrel includes fixing seat and rotates bar, described fixing seat is fixed on mobile dish, and described rotation bar is contained in the through hole of fixing seat, and described second belt pulley drives and rotates bar rotation, it is provided with the first helicitic texture on described mobile dish, being provided with the second helicitic texture, described first helicitic texture and the second helicitic texture on described rotation bar adaptive, the second helicitic texture moves forward and backward relative to the first helicitic texture.

Z axis main spindle box the most according to claim 3, it is characterised in that described mobile device also includes that grating scale, described grating scale are fixed on mobile dish, and parallel with mobile dish line rail, described grating scale electrically connects with governor circuit.

Z axis main spindle box the most according to claim 1, it is characterized in that, described lock tool rest is that wedge formula locks tool rest, including the first support, the second support and for controlling the first support and the cylinder of the second support, one end of described first support and the second support is fixed on cylinder, the other end is provided with carves iron block, and two carve iron block and are oppositely arranged, and leaves the gap for cutter holding.

9. a cnc boring and milling machine processing machine, it is characterised in that include the Z axis main spindle box described in described claim 1-8 Arbitrary Term.