CN108620644A - A kind of combined machine for processing profiled workpiece - Google Patents

Abstract

The invention discloses a kind of combined machines for processing profiled workpiece, belong to machine tool technology field, aim to solve the problem that the single problem of traditional lathe function, its key points of the technical solution are that a kind of combined machine for processing profiled workpiece, including lathe bed and it is fixedly installed on the mainshaft mechanism of lathe bed, the countershaft mechanism of lathe bed is slideably positioned in, is slideably positioned in the milling mechanism of lathe bed, the mainshaft mechanism includes main shaft, the countershaft mechanism includes countershaft, the axis collinear of the main shaft and countershaft, the milling mechanism are set between mainshaft mechanism and countershaft mechanism.A kind of combined machine for processing profiled workpiece of the present invention, by realizing that the milling processing of workpiece surface is realized in firm clamping, cooperation milling mechanism to workpiece.

Description

A kind of combined machine for processing profiled workpiece

Technical field

The present invention relates to machine tool technology fields, more specifically, it relates to a kind of compounding machine for processing profiled workpiece Bed.

Background technology

Lathe is the equipment for mainly carrying out turnery processing to the workpiece of rotation with lathe tool, and lathe is mainly by bearing part, change The compositions such as fast mechanism, feed mechanism, spindle box, lubricating system.Traditional lathe largely has a single function, some are mainly added with vehicle Based on work, some mainly based on Milling Machining, when needing to operate workpiece into two kinds of driving and milling, need to arrive workpiece replacing It is processed on the lathe of different function, this traditional operation certainly will cause the clamping times to workpiece excessive, corresponding to add Work precision can also be affected, and particular for the processing of special-shaped workpiece, due to frequently replacing the location of workpiece, debug time can be corresponding Increase, leads to low production efficiency.

Therefore need to propose a kind of new scheme to solve the problems, such as this.

Invention content

It is a kind of for the compound of processing profiled workpiece in view of the deficiencies of the prior art, the present invention intends to provide Lathe has the advantages that multi-faceted Milling Process can be carried out to special-shaped workpiece.

The present invention above-mentioned technical purpose technical scheme is that：One kind being used for processing profiled workpiece Combined machine, including lathe bed and be fixedly installed on the mainshaft mechanism of lathe bed, the countershaft mechanism for being slideably positioned in lathe bed, sliding It is set to the milling mechanism of lathe bed, the mainshaft mechanism includes main shaft, and the countershaft mechanism includes countershaft, the main shaft and countershaft Axis collinear, the milling mechanism is set between mainshaft mechanism and countershaft mechanism.

By using above-mentioned technical proposal, when work, workpiece is clamped by main shaft and countershaft so that in the middle part of workpiece Vacantly, it is convenient for milling mechanism to carry out milling machine operation to workpiece, and the axis collinear of countershaft and main shaft, when needing clamping workpiece When, the axis direction along countershaft moves countershaft, realizes the clamping of workpiece, and since workpiece both ends grip so that workpiece Clamping more firm stable, in this way milling mechanism to workpiece surface carry out milling machine operation when, it is ensured that workpiece have foot Enough stability, so that machining accuracy higher.

The present invention is further arranged to：The mainshaft mechanism includes that the spindle drum for being fixedly installed on lathe bed, the main shaft are set It is placed in spindle drum, further includes being connected to first fixture of the main shaft towards countershaft one end.

By using above-mentioned technical proposal, spindle drum, which is bolted, to be arranged on lathe bed, and main shaft is arranged in spindle drum It is upper and rotatable, it is bolted the first fixture in main shaft one end, pouring into the first fixture herein can be according to the practical shape of workpiece Shape is selected, and scroll chuck can be usually selected, and realizes the clamping to special-shaped workpiece.

The present invention is further arranged to：The countershaft mechanism includes the first adjusting part for being set to lathe bed, is connected to The countershaft seat of one adjusting part movable end, the countershaft are set to countershaft seat, further include being connected to countershaft close to main shaft one end Second fixture.

By using above-mentioned technical proposal, countershaft seat can be driven to be moved relative to spindle drum by the first adjusting part, To drive countershaft relative to main axle moving, the second fixture herein can be selected according to workpiece shapes, can be selected herein Scroll chuck is selected, the second fixture is oppositely arranged with the first fixture, is fixedly clamped to be realized to the both ends of workpiece.

The present invention is further arranged to：The milling mechanism includes the Z-direction drive component for being set to lathe bed, is set to Z-direction The Z-direction slide of drive component movable end, the Y-direction drive component for being set to Z-direction slide, the Y for being connected to Y-direction drive component movable end To pedestal, it is slidably connected to the milling component of Y-direction pedestal.

By using above-mentioned technical proposal, Z-direction herein is to be parallel to main shaft axial direction, Y-direction be it is radial along main shaft and Horizontal direction can drive Z-direction slide to be moved along the direction for being parallel to main shaft, to drive milling by Z-direction drive component Component realizes that sliding is adjusted along Z-direction, and Y-direction drive component can drive Y-direction pedestal to be moved radially along main shaft, to drive milling group Part realizes front and back sliding along Y-direction, the multidirectional adjusting of milling component is realized, to adapt to the processing of different workpieces.

The present invention is further arranged to：The milling component includes being set to Y-direction pedestal towards main shaft one side wall and in vertical Guide rail, the angle drive component, even that is slideably positioned in guide rail and screw-driven lifting seat, is fixed on lifting seat to setting It is connected to the B axle of angle drive component output shaft, the rotating seat for being connected to B axle free end, the milling motor for being set to rotating seat, connects It is connected to the milling cutter of milling motor output shaft.

By using above-mentioned technical proposal, lifting seat drives angle drive component to realize lifting, realizes milling cutter along X to i.e. perpendicular Histogram to mobile adjustment, angle drive component can drive B axle to realize rotation, and the axis of B axle and main-shaft axis antarafacial Vertically, rotating seat and milling motor can be driven to rotate when B axle rotates, rotation is realized relative to workpiece to control milling cutter, After adjusting the angle of milling cutter, milling motor rotates and milling cutter is driven to rotate, and milling is realized to workpiece.

The present invention is further arranged to：The angle drive component includes the electronics index dial for being fixed on lifting seat, described The side of the shell of electronics index dial towards lifting seat is extended with stabilizer blade, and electronics index dial is fixed on by the stabilizer blade by bolt Lifting seat, and the output shaft of electronics index dial is arranged across lifting seat, and the B axle is connected to the output shaft of electronics index dial.

By using above-mentioned technical proposal, the rotational angle of B axle can be controlled by index dial, according to the need of workpieces processing It wants, milling cutter can be turned to any angle, to considerably increase opereating specification.

The present invention is further arranged to：Turning set is equipped with fixing sleeve outside the B axle, and liter is fixed in the fixing sleeve end Seat drops.

By using above-mentioned technical proposal, B axle is threaded through in fixing sleeve and can be rotated, since B axle one end passes through connection Axis device is connected to the output shaft of index dial, therefore B axle, generally in vacant state, setting fixing sleeve can play B axle support Effect, reduce B axle suffered by moment of flexure, reduce B axle bending probability.

The present invention is further arranged to：The Z-direction drive component includes the first sliding rail for being set to lathe bed, is set to lathe bed And be located at the first motor of first sliding rail one end, be connected to the first leading screw of first motor output shaft, the Z-direction slide sliding connects It is connected to the first sliding rail and is threadedly connected to the first leading screw.

By using above-mentioned technical proposal, since Z-direction slide is threadedly connected to the first leading screw, when first motor drives first When leading screw rotates, Z-direction slide can be driven to be slid along the first leading screw, to drive milling component to realize movement.

The present invention is further arranged to：The Y-direction drive component includes being radially disposed at the second of Z-direction slide along main shaft to slide Rail, the second motor for being fixedly installed on Z-direction slide, the second leading screw for being connected to the second motor output shaft, the Y-direction pedestal sliding It is set to the second sliding rail and is threadedly connected to the second leading screw.

By using above-mentioned technical proposal, since Y-direction whorl of base is connected to the second leading screw, when the second motor drives second When leading screw rotates, Y-direction pedestal can be driven to be moved along the realization of the second leading screw.

In conclusion the invention has the advantages that：

First, workpiece is clamped by main shaft and countershaft so that it is hanging in the middle part of workpiece, workpiece is carried out convenient for milling mechanism Milling machine operation, and the axis collinear of countershaft and main shaft, when needing clamping workpiece, the axis direction along countershaft moves countershaft, Realize the clamping of workpiece, and since workpiece both ends grip so that the clamping of workpiece more firm stable, in this way in milling When mechanism carries out milling machine operation to workpiece surface, it is ensured that workpiece has enough stability, so that machining accuracy is more It is high；

Second, lifting seat drives angle drive component to realize lifting, realize that milling cutter moves adjustment, angle along X to i.e. vertical direction Degree drive component can drive B axle to realize rotation, and the axis of B axle is vertical with main-shaft axis antarafacial, and B axle can band when rotating Dynamic rotating seat and milling motor rotation are realized rotation relative to workpiece to control milling cutter, are adjusted when by the angle of milling cutter Afterwards, milling motor rotates and milling cutter is driven to rotate, and milling is realized to workpiece.

Description of the drawings

Fig. 1 is the positive overall structure diagram of the present embodiment；

Fig. 2 is the back side entirety volume structural scheme of mechanism of the present embodiment；

Fig. 3 is the internal structure schematic diagram of milling mechanism；

Fig. 4 is the sectional view of milling mechanism, is mainly used for showing the internal structure of milling mechanism.

In figure：1, lathe bed；2, mainshaft mechanism；3, countershaft mechanism；4, milling mechanism；5, main shaft；6, countershaft；7, spindle drum； 8, the first fixture；9, the first adjusting part；10, countershaft seat；11, the second fixture；12, Z-direction drive component；13, Z-direction slide；14、 Y-direction drive component；15, Y-direction pedestal；16, milling component；17, guide rail；18, lifting seat；19, angle drive component；20, B axle； 21, rotating seat；22, milling motor；23, milling cutter；24, electronics index dial；25, stabilizer blade；26, fixing sleeve；27, the first sliding rail；28、 First motor；29, the first leading screw；30, the second sliding rail；31, the second motor；32, the second leading screw.

Specific implementation mode

With reference to the accompanying drawings and examples, the present invention will be described in detail.

A kind of combined machine for processing profiled workpiece, as shown in Figure 1, being set including lathe bed 1 and being bolted It is placed in the mainshaft mechanism 2 of lathe bed 1, the countershaft mechanism 3 of lathe bed 1 is slideably positioned in, is slideably positioned in the milling mechanism 4 of lathe bed 1, it is main Axis mechanism 2 includes main shaft 5, and countershaft mechanism 3 includes countershaft 6, the axis collinear of main shaft 5 and countershaft 6, and milling mechanism 4 is set to master Between axis mechanism 2 and countershaft mechanism 3；When work, workpiece is clamped by main shaft 5 and countershaft 6 so that outstanding in the middle part of workpiece Sky carries out milling machine operation convenient for milling mechanism 4 to workpiece, and the axis collinear of countershaft 6 and main shaft 5, when needing clamping workpiece When, countershaft 6 is moved along the axis direction of countershaft 6, realizes the clamping of workpiece, and since workpiece both ends grip so that work The clamping of part more firm stable, in this way when milling mechanism 4 carries out milling machine operation to workpiece surface, it is ensured that workpiece has Enough stability, so that machining accuracy higher.

As shown in Figure 1, mainshaft mechanism 2 is including being fixedly installed on the spindle drum 7 of lathe bed 1, main shaft 5 is set to spindle drum 7, also Including being connected to first fixture 8 of the main shaft 5 towards 6 one end of countershaft；Spindle drum 7, which is bolted, to be arranged on lathe bed 1, main shaft 5 are arranged on spindle drum 7 and rotatably, are bolted the first fixture 8 in 5 one end of main shaft, pouring into the first fixture 8 herein can To be selected according to workpiece true form, scroll chuck can be usually selected, realizes the clamping to special-shaped workpiece.

As shown in Figure 1, countershaft mechanism 3 includes being set to the first adjusting part 9 of lathe bed 1, and the first adjusting part 9 with Mainshaft mechanism 2 is oppositely arranged, and further includes the countershaft seat 10 for being connected to 9 movable end of the first adjusting part, and countershaft 6 is set to countershaft seat 10, further include the second fixture 11 for being connected to countershaft 6 close to 5 one end of main shaft；Countershaft seat can be driven by the first adjusting part 9 10 move relative to spindle drum 7, and to drive countershaft 6 to be moved relative to main shaft 5, the second fixture 11 herein can be according to workpiece Shape is selected, and scroll chuck, the second fixture 11 can be selected to be oppositely arranged with the first fixture 8 herein, to workpiece It realizes and is fixedly clamped in both ends.It includes sliding rail and leading screw that the first adjusting part 9 herein, which can select straight line slide unit, straight line slide unit, Motor realizes the movement to countershaft seat 10 by the way that countershaft seat 10 to be bolted on leading screw.

As depicted in figs. 1 and 2, milling mechanism 4 includes the Z-direction drive component 12 for being set to lathe bed 1, is set to Z-direction driving The Z-direction slide 13 of 12 movable end of component, the Y-direction drive component 14 for being set to Z-direction slide 13 are connected to the work of Y-direction drive component 14 The Y-direction pedestal 15 of moved end, the milling component 16 for being slidably connected to Y-direction pedestal 15；Z-direction herein is to be parallel to 5 axial direction side of main shaft It is that Z-direction slide 13 can be driven along being parallel to master by Z-direction drive component 12 along the radial and horizontal direction of main shaft 5 to, Y-direction The direction of axis 5 is moved, and to drive milling component 16 to realize that sliding is adjusted along Z-direction, Y-direction drive component 14 can drive Y-direction bottom Seat 15 is moved radially along main shaft 5, to drive milling component 16 to realize front and back sliding along Y-direction, realizes the multidirectional of milling component 16 It adjusts, to adapt to the processing of different workpieces.

As shown in figure 3, milling component 16 includes being set to Y-direction pedestal 15 towards 5 one side wall of main shaft and in longitudinally disposed Guide rail 17, the angle drive component 19 for being slideably positioned in guide rail 17 and screw-driven lifting seat 18, being fixed on lifting seat 18, It is connected to the B axle 20 of 19 output shaft of angle drive component, the rotating seat 21 for being connected to 20 free end of B axle, is set to rotating seat 21 Milling motor 22, be connected to the milling cutter 23 of 22 output shaft of milling motor；Lifting seat 18 drives angle drive component 19 to realize and rises Drop realizes that move adjustment of the milling cutter 23 along X to i.e. vertical direction, angle drive component 19 can drive B axle 20 to realize rotation, and And the axis of B axle 20 is vertical with 5 axis antarafacial of main shaft, B axle 20 can drive 22 turns of rotating seat 21 and milling motor when rotating It is dynamic, rotation is realized relative to workpiece, after adjusting the angle of milling cutter 23, milling motor 22 rotates simultaneously to control milling cutter 23 It drives milling cutter 23 to rotate, milling is realized to workpiece.

As shown in Figure 3 and Figure 4, angle drive component 19 includes the electronics index dial 24 for being fixed on lifting seat 18, electronics point The side of the shell of scale 24 towards lifting seat 18 is extended with stabilizer blade 25, and electronics index dial 24 is fixed on by stabilizer blade 25 by bolt Lifting seat 18, and the output shaft of electronics index dial 24 is arranged across lifting seat 18, and B axle 20 is connected to the defeated of electronics index dial 24 Shaft；The rotational angle that B axle 20 can be controlled by index dial can turn to milling cutter 23 according to the needs of workpieces processing Any angle, to considerably increase opereating specification.

As shown in figure 4,20 outside turning set of B axle is equipped with fixing sleeve 26, lifting seat 18 is fixed in 26 end of fixing sleeve；B axle 20 are threaded through in fixing sleeve 26 and can be rotated, since 20 one end of B axle is connected to by shaft coupling the output shaft of index dial, because This B axle 20 can play the role of B axle 20 support, reduce suffered by B axle 20 generally in vacant state, setting fixing sleeve 26 Moment of flexure reduces the probability that B axle 20 is bent.

As shown in Fig. 2, Z-direction drive component 12 includes the first sliding rail 27 for being set to lathe bed 1, is set to lathe bed 1 and is located at The first motor 28 of 27 one end of the first sliding rail, the first leading screw 29 for being connected to 28 output shaft of first motor, the sliding of Z-direction slide 13 connect It is connected to the first sliding rail 27 and is threadedly connected to the first leading screw 29；Since Z-direction slide 13 is threadedly connected to the first leading screw 29, when first When motor 28 drives the rotation of the first leading screw 29, Z-direction slide 13 can be driven to be slid along the first leading screw 29, to drive milling component 16 realize movement.

As shown in Fig. 2, Y-direction drive component 14 includes being radially disposed at the second sliding rail 30 of Z-direction slide 13 along main shaft 5, consolidating Surely it is set to the second motor 31 of Z-direction slide 13, is connected to the second leading screw 32 of 31 output shaft of the second motor, Y-direction pedestal 15 is slided It is dynamic to be set to the second sliding rail 30 and be threadedly connected to the second leading screw 32；Since Y-direction pedestal 15 is threadedly connected to the second leading screw 32, When the second motor 31 drives the rotation of the second leading screw 32, Y-direction pedestal 15 can be driven to be moved along the realization of the second leading screw 32.

The above is only a preferred embodiment of the present invention, protection scope of the present invention is not limited merely to above-mentioned implementation Example, all technical solutions belonged under thinking of the present invention all belong to the scope of protection of the present invention.It should be pointed out that for the art Those of ordinary skill for, several improvements and modifications without departing from the principles of the present invention, these improvements and modifications It should be regarded as protection scope of the present invention.

Claims (9)

1. a kind of combined machine for processing profiled workpiece, it is characterised in that：Including lathe bed (1) and it is fixedly installed on lathe bed (1) mainshaft mechanism (2), the countershaft mechanism (3) for being slideably positioned in lathe bed (1), the milling mechanism for being slideably positioned in lathe bed (1) (4), the mainshaft mechanism (2) includes main shaft (5), and the countershaft mechanism (3) includes countershaft (6), the main shaft (5) and countershaft (6) axis collinear, the milling mechanism (4) are set between mainshaft mechanism (2) and countershaft mechanism (3).

2. a kind of combined machine for processing profiled workpiece according to claim 1, it is characterised in that：The main shaft machine Structure (2) includes the spindle drum for being fixedly installed on lathe bed (1)（7）, the main shaft (5) be set to spindle drum（7）, further include being connected to First fixture (8) of the main shaft (5) towards countershaft (6) one end.

3. a kind of combined machine for processing profiled workpiece according to claim 2, it is characterised in that：The countershaft machine Structure (3) includes being set to the first adjusting part (9) of lathe bed (1), being connected to the countershaft seat of the first adjusting part (9) movable end （10）, the countershaft (6) is set to countershaft seat（10）, further include the second fixture for being connected to countershaft (6) close to main shaft (5) one end (11)。

4. a kind of combined machine for processing profiled workpiece according to claim 3, it is characterised in that：The Milling Machine Structure (4) includes being set to the Z-direction drive component (12) of lathe bed (1), being set to the Z-direction slide of Z-direction drive component (12) movable end (13), it is set to the Y-direction drive component (14) of Z-direction slide (13), is connected to the Y-direction pedestal of Y-direction drive component (14) movable end (15), it is slidably connected to the milling component (16) of Y-direction pedestal (15).

5. a kind of combined machine for processing profiled workpiece according to claim 4, it is characterised in that：The milling group Part (16) include be set to Y-direction pedestal (15) towards main shaft (5) one side wall and in longitudinally disposed guide rail (17), be slideably positioned in Guide rail (17) and screw-driven lifting seat (18), are connected to angle at the angle drive component (19) for being fixed on lifting seat (18) The B axle (20) for spending drive component (19) output shaft, is set to rotating seat at the rotating seat (21) for being connected to B axle (20) free end (21) milling motor (22), the milling cutter (23) for being connected to milling motor (22) output shaft.

6. a kind of combined machine for processing profiled workpiece according to claim 5, it is characterised in that：The angle is driven Dynamic component (19) includes the electronics index dial (24) for being fixed on lifting seat (18), and the shell direction of the electronics index dial (24) rises The side of drop seat (18) is extended with stabilizer blade (25), and electronics index dial (24) is fixed on lifting seat by the stabilizer blade (25) by bolt (18), and the output shaft of electronics index dial (24) is arranged across lifting seat (18), and the B axle (20) is connected to electronics index dial (24) output shaft.

7. a kind of combined machine for processing profiled workpiece according to claim 6, it is characterised in that：The B axle (20) external turning set is equipped with fixing sleeve (26), and lifting seat (18) is fixed in fixing sleeve (26) end.

8. a kind of combined machine for processing profiled workpiece according to claim 5, it is characterised in that：The Z-direction is driven Dynamic component (12) includes the first sliding rail (27) for being set to lathe bed (1), is set to lathe bed (1) and is located at the first sliding rail (27) one end First motor (28), be connected to first leading screw (29) of first motor (28) output shaft, the Z-direction slide（13）It is slidably connected In the first sliding rail (27) and it is threadedly connected to the first leading screw (29).

9. a kind of combined machine for processing profiled workpiece according to claim 8, it is characterised in that：The Y-direction is driven Dynamic component (14) includes being radially disposed at Z-direction slide along main shaft (5)（13）The second sliding rail (30), be fixedly installed on Z-direction slide （13）The second motor (31), be connected to second leading screw (32) of the second motor (31) output shaft, Y-direction pedestal (15) sliding It is set to the second sliding rail (30) and is threadedly connected to the second leading screw (32).