CN205571412U - Numerical control double -end lathe - Google Patents

Abstract

The utility model discloses a numerical control double -end lathe has solved that the lathe material loading is slow with unloading speed, the problem of inefficiency, and its technical scheme main points are including the bedplate of installing the chuck, its characterized in that, the installing one by one to the feed mechanism of chuck feeding, one by one to the unloading mechanism of the chuck material returned of chuck, feed mechanism includes wide type gas claw and ejector beam, wide shape gas claw is equipped with the gyro wheel that presss from both sides material and guide, the ejector beam pushes away along the gyro wheel expects to the chuck, unloading mechanism is including the conveyer belt of output material and the clamp material gas claw to the chuck material returned, press from both sides material gas claw pay -off to drive belt, the power supply that the lower zone face department of drive belt installed drive self just the power supply is followed the belt direction is slided, has reached the effect that effectively provides the upper and lower material efficiency of lathe.

Description

A kind of digital-control two-head lathe

Technical field

This utility model relates to the lathe processing equipment of axial workpiece, particularly to double end turning lathe.

Background technology

In machine industry, the machining of countershaft class end face is one common operation, relatively frequently with engine lathe, workpiece being carried out building up by welding processing in prior art, this engine lathe is typically only capable to unidirectional processing, as workpiece need to carry out two-way add man-hour, after first workpiece one end machining can only being completed, again the other end is cut, for operator, constantly feeding feeding operation, make working strength big, and efficiency is the lowest.

Therefore there has been the lathe of a kind of processing two-way to part simultaneously in market.

Now retrieve the Chinese patent document one full-automatic numerical control double end turning lathe of Publication No. CN105215379A.But when chuck being carried out axial workpiece feeding with blanking procedure, inefficiency.

Utility model content

The purpose of this utility model is to provide the Double-head numerical controlled lathes that a kind of feeding is high with blanking efficiency.

Above-mentioned technical purpose of the present utility model has the technical scheme that

A kind of digital-control two-head lathe, including being provided with the seat board of chuck, chuck is provided with one by one to the feed mechanism of chuck charging, one by one cutting agency to the chuck material returned；

Described feed mechanism includes that wide type gas pawl and ejector beam, described wide type gas pawl are provided with the roller of material folding guide, and described ejector beam is along roller pusher to chuck；

Described cutting agency includes conveyer belt and material folding gas pawl to the chuck material returned, the described material folding gas pawl feeding to transmission band of output material, is provided with and drives self power source and described power source along described transmission band direction sliding at the lower belt surface of described transmission band.

By employing technique scheme, feed mechanism and cutting agency are respectively placing raw material to be processed and taking out the material after processing of chuck；The carrying out of the countershaft material of roller of wide type gas pawl clamps, have an advantage in that, the mode of transmission uses cylinder to wear axle material and positions, and then heads into chuck, but owing to the space between axle material and circular hole causes axle material double swerve, chuck hub cannot be directed at accurately, easily cause axle class to be difficult to by chuck to clamp so that the axle material after processing is scrapped, and reduces production efficiency, and efficiently solve above-mentioned axle material by the clamping effect of hanging low of roller and rock problem, improve the loading efficiency of axle material；And when axle material is long, the first and last end of axle material certainly will occur relative bending, and traditional drum type brake location mode Adapter Property is poor, when axle material flexibility is bigger, axle material is easily stuck at cylinder, the feeding operation making axle material is paused, and reduces efficiency, and the compressibility of gas self, axle material will make the gas light reduction in cylinder to running roller active force, the axle material making bending section appoints and can slide in chuck at roller, it is to avoid axle material is stuck at running roller, improves the loading efficiency of axle material.

Material folding gas pawl will processing after axle material clip at chuck transmission band on transport, accelerate blanking speed, improve the efficiency of blanking.The zone face of transmission band from top to bottom circulates transmission, is lower belt surface when zone face is in lower section.

The power source of traditional transmission band is placed in end, power source tensioning conveyer belt, plays the effect limiting Belt Conveying path；When power source is placed at below lower belt surface, the position changing power source does not affect the transmission state of transmission band, position below power source adjustment can make to be conveniently adjusted the space below transmission band, make to place below transmission band according to demand the rewinding frame of different conveying, improve the efficiency collecting axle material (blanking).And when transmission band is damaged, when needing for repairing, can need to regulate the position of power source according to operating mode, two people or many people can be keeped in repair after being positioned at below transmission band simultaneously, improve maintenance efficiency face so that the reparation as early as possible of lathe, the operation as early as possible of lathe is conducive to improving production efficiency.

It is also preferred that the left described feed mechanism is placed on the right side of chuck, wide type gas pawl includes that two claws, each described claw have been arranged symmetrically with at least two roller, and described ejector beam is placed on the right side of roller and the bayonet socket of the described ejector beam described chuck of sensing.

By using technique scheme, roller is two, utilizes 2 characteristics determining straight line, by the four rolling of two claws, axle material is carried out axis location, further countershaft material moves to chuck and carries out spacing, prevents axle material from offseting, improves the efficiency of feeding.Axle material in claw is headed in chuck by ejector beam.

Moving back and forth it is also preferred that the left described ejector beam is driven by material ejection cylinder to bayonet socket direction, described material ejection cylinder is fixed on seat board.

By using technique scheme, material ejection cylinder maintains static so that each ejection position of ejector beam is all identical accurate, improves loading efficiency, and the employee by Air Valve Control of cylinder or programme-control the simplest and the most direct.

It is also preferred that the left the circumferencial direction of described roller is provided with the groove for material folding.

By using technique scheme, roller is arranged symmetrically with so that being arranged symmetrically with of groove, and when axle material is by grooves hold, the sidewall of groove limits the vertical degree of freedom of axle material, further increases axle material and enters the accuracy of chuck, improves loading efficiency.

Preferably, described feed mechanism also includes the feed mechanism being provided with feed one by one, and described feed mechanism includes the vertical cylinder driving wide type gas pawl vertically to move, is fixed on seat board and drives the lateral cylinder of vertical cylinder transverse shifting, be placed in support bin, the one by one feeding below wide type gas pawl to the material jacking mechanism supportting bin；Under the driving with lateral cylinder of the described vertical gas bar, wide type gas pawl carries out material folding in support bin.

By using technique scheme, vertical cylinder controls to coordinate control wide type cylinder to be clamped from supportting bin by axle material with lateral cylinder, and the widest type cylinder is by Zhou Liao sports cards disk center, relative to artificial blowing, this step there is higher loading efficiency.Material jacking mechanism by axle material list one gradually placement son support bin on, it is simple to the fast clamp of wide type cylinder, improve loading efficiency.

It is also preferred that the left described material jacking mechanism includes storage bin hopper, in storage bin hopper, laminating sidewall is provided with slide plate, and slide plate top is provided with the inclined-plane to described sidewall slope, and slide plate lower end is stretched out storage bin hopper and connects upper top gas cylinder by flake joint；

Be pushed to the slide plate of highest point in described upper top gas cylinder, described inclined-plane is placed in the same face with the end face of described sidewall, and described inclined-plane guide is to supportting bin below；

Being provided with flat-removing air cyclinder between described support bin and storage bin hopper, described flat-removing air cyclinder promotes below described support bin extremely described sidewall or described wide type gas pawl.

By using technique scheme, the inclined-plane of slide plate and sidewall form the otch of a bearing shaft material, and slide plate is to top under upper top gas cylinder promotes, and then axle material slips into support bin along inclined-plane；Inclined-plane is positioned at the top of support bin so that axle material can be crossed when utilizing gravity to tumble and drop downward into support bin, and flat-removing air cyclinder promotes support bin that axle material card is moved quickly to the clamping position of wide type gas pawl, improves loading efficiency.

Flake joint makes have certain degree of freedom between slide plate and upper top gas cylinder, can curve in less scope, sliding process middle slide plate at slide plate only can acting on by piston rod reasoning straight up or pulling force, without the power by horizontal direction, slide plate can be avoided when sliding owing to by the power of bigger horizontal direction and occurring bigger friction to block and time between the sidewall of storage bin hopper, thus improve the efficiency of feeding.So arrange and skateboarding can be made more smooth and easy, extend the life-span of the sealing member of cylinder interior simultaneously.

It is also preferred that the left described cutting agency as chuck on the left of, described cutting agency includes being fixed on seat board and driving described material folding gas pawl to the horizontal material returned cylinder of transmission band, and described material folding gas pawl is by material folding air cylinder driven.

By using technique scheme, lateral cylinder promotes material folding gas pawl from chuck for moving quickly into transmission band, accelerates the speed of blanking, improves blanking efficiency.

It is also preferred that the left described power source is motor, transmission band is fixed on seat board by carriage, and described carriage connects the lower extension slide plate along the direction sliding of transmission band, and described motor is fixed on slide plate and drives described transmission band by leather belt roller.

By using technique scheme, slide plate downwardly extend so that slide plate some to below carriage, motor is also fixed on the lower section of carriage with slide plate, and electric machine rotation drives transmission in transmission.

It is also preferred that the left described carriage offers slideway, described slide plate passes through slideway described in T-shaped slide block sliding, the threaded lock-screw having driving himself to be connected to slideway with realization of described T-shaped slide block.

By using technique scheme, when lock-screw unclamps, T-shaped slide block is stuck in the anti-limited slip plate of slideway and drops, and now T-shaped slide block can move on slideway；Owing to slide plate moves along transmission band direction so that leather belt roller can be conflicted with transmission tube after all the time, does not affect motor to the driving to transmission band.

It is also preferred that the left be provided with even number below described carriage to be fixed on the idler roller of slide plate, described idler roller is arranged symmetrically with and the both sides of described leather belt roller, and described lower belt surface is staggered successively is around in idler roller and leather belt roller.

By using technique scheme, idler roller is arranged symmetrically in leather belt roller both sides, transmission band successively staggered around refer to transmission band on leather belt roller with idler roller in " W " shape, add the contact area of transmission band and leather belt roller, it is to avoid the skidding of transmission band.

In sum, this utility model has the advantages that improve axle material by roller enters the precision of chuck, and transmission band accelerates the quick feeding of axle material.

Accompanying drawing explanation

Fig. 1 is the front view of embodiment double end turning lathe；

Fig. 2 is the left view of embodiment double end turning lathe；

Fig. 3 is the isometric view of embodiment double end turning lathe；

Fig. 4 is the A portion enlarged drawing (its display pushes to slide schematic diagram during plate upwards liftout) in Fig. 2；

Fig. 5 is the A1 portion enlarged drawing (its display pushes to slide schematic diagram when plate reaches the top) in Fig. 2；

Fig. 6 is the B portion enlarged drawing in Fig. 3；

Fig. 7 is the structural representation of wide type gas pawl in embodiment；

Fig. 8 is the structural representation of roller clamping axle material in embodiment；

Fig. 9 is conveyer belt and the structural representation of assembly thereof in embodiment；

Figure 10 be embodiment middle slide plate on carriage specially join schematic diagram (by left side sliding enter carriage)；

Figure 11 is the structural representation in embodiment between conveyer belt and leather belt roller；

Figure 12 is C portion enlarged drawing in Figure 10；

Figure 13 is the structural representation (display slide plate, installation relation between motor and transmission band) of embodiment double end turning lathe；

Figure 14 is the D portion enlarged drawing in Figure 13.

In figure: 1, seat board；11, chuck；

2, feed mechanism；21, wide type gas pawl；22, roller；221, groove；23, material ejection cylinder；231, ejector beam；24, claw；

3, feed mechanism；31, vertical cylinder；32, lateral cylinder；33, support bin；

4, material jacking mechanism；41, storage bin hopper；42, sidewall；43, plate is pushed to slide；44, inclined-plane；45, flake joint；46, upper top gas cylinder；47, flat-removing air cyclinder；

5, cutting agency；51, conveyer belt；52, material folding gas pawl；53, power source；

54, horizontal material returned cylinder；55, material folding cylinder；

56, carriage；561, slideway；57, T-shaped slide block；58, lock-screw；59, slide plate；

61, leather belt roller；62, idler roller；63, transmission band；

7, axle material.

Detailed description of the invention

Below in conjunction with accompanying drawing, this utility model is described in further detail.

This specific embodiment is only to explanation of the present utility model; it is not to restriction of the present utility model; the present embodiment can be made after reading this specification by those skilled in the art as required does not has the amendment of creative contribution, but as long as all being protected by Patent Law in right of the present utility model.

(digital-control two-head lathe), as it is shown in figure 1, chuck 11 for both sides to wear in wear clamping axle material 7, wherein chuck 11 clamps by cylinder, chuck 11 rotate through driving motor transmission control.

The arranged on left and right sides of chuck 11 is respectively equipped with feed mechanism 2 and cutting agency 5.

(cutting agency 5), as shown in Fig. 2 Yu Fig. 4, its material jacking mechanism 4 includes storage bin hopper 41, this storage bin hopper 41 is fixed by screws in the side edge of seat board 1, and the bottom surface of storage bin hopper 41 is the base plate tilted towards base, and the edge of base plate is provided with vertical sidewall 42, this sidewall 42 press close to seat board 1, having gap between sidewall 42 and base plate, this gap is inserted with and rectangular-shaped pushes to slide plate 43, and pushing to slide plate 43 can be along sidewall 42 sliding at gap.Push to slide plate 43 offers inclined-plane 44, inclined-plane 44 tilts obliquely towards sidewall 42, the inwall of inclined-plane 44 and sidewall 42 forms the groove of bearing shaft material 7, push to slide axle material 7 when moving on plate 43 one ibid to move in this groove, it is single axle material 7 that inclined-plane 44 can be cut into appearance according to axle material 7 size, it is achieved single ejects axle material 7.As shown in Fig. 1 Yu Fig. 5, and push to slide the lower section of plate 43 and be connected by flake joint 45 with the piston rod of upper top gas cylinder 46.The cylinder body of upper top gas cylinder 46 is fixed by screws on seat board 1.The upper end face of sidewall 42 cuts with the face at oblique angle identical with inclined-plane 44, and when pushing to slide plate 43 and moving topmost, inclined-plane 44 and the upper end face of sidewall 42, now the axle material 7 on inclined-plane 44 is along inclined-plane 44 landing outside sidewall 42.

As shown in Fig. 4 Yu Fig. 6, supportting bin 33, support bin 33 includes rectangular-shaped push pedal, a bracer of two band " V " shape otch installed above of push pedal, and a bracer left and right sliding can regulate spacing each other so that a bracer can prop up the axle material 7 of different length.Axle material 7 is supported on V " shape incision, it is simple to wide type gas pawl 21 grips.The right side of storage bin hopper 41 is fixed with flat-removing air cyclinder 47 by screw, and the piston rod thread of translation gas bar is connected in the push pedal of bracing frame.As it is shown in figure 5, when flat-removing air cyclinder 47 bounces back, the outer wall laminating of a bracer and sidewall 42, it is simple to axle material 7 is slipped into bracing frame by storage bin hopper 41.When flat-removing air cyclinder 47 ejects onto, support is shifted the lower section of wide type gas pawl 21.

As it is shown on figure 3, the top of seat board 1 is provided with lateral cylinder 32 by winning in succession, the piston rod of lateral cylinder 32 is fixed with mounting by screw, and mounting sliding is in slide rail, and slide rail is fixed in frame, and lateral cylinder 32 promotes mounting to move towards chuck 11.Being connected by sliding on mounting and have vertical cylinder 31, straight down, vertical cylinder 31 is fixed on mounting the piston rod of vertical cylinder 31 by external gas bar.And vertically cylinder 31 piston-rod lower end is fixed with wide type gas pawl 21 by screw.Wide type gas pawl 21 is moved at bracing frame in the promotion of lateral cylinder 32, then move straight down under the effect of vertical cylinder 31, open gas pawl to be clamped by axle material 7, lean under the promotion of lateral cylinder 32 afterwards into chuck 11, make chuck 11 align with the bayonet socket of wide type gas pawl 21 under the effect by vertical cylinder 31.Be fixed with material ejection cylinder 23 on seat board 1 by winning in succession, material ejection cylinder 23 is positioned at the right side of wide type gas pawl 21, is provided with ejector beam 231 below the piston rod of material ejection cylinder 23, and piston rod is fixed by screws on piston rod, and ejector beam 231 points to the center of chuck 11.When wide type claw 24 aligns with card, the piston rod of material ejection cylinder 23 ejects and drives ejector beam 231 to move towards chuck, in axle material 7 is advanced chuck 11 by ejector beam 231.

As it is shown in fig. 7, wide type gas pawl 21, it has two claws 24 being arranged symmetrically with, and claw 24 has air pressure control clamping and unclamp.Claw 24 supports rectangular block shape, the internal hollow out of this claw 24 has article putting groove, and article putting groove is hinged with roller 22 by rotating shaft, and each claw 24 is provided with two rollers 22, the roller 22 of two claws 24 is arranged symmetrically with two-by-two, and the gap location of symmetrical roller 22 points to the center of chuck 11.Roller 22 circumferencial direction offers the groove 221 of circumferencial direction, the two outward-dipping settings of wall of this groove 221, and this design makes roller 22 can clamp the axle material 7 of different-diameter.

The operation principle of blanking: push to slide plate 43 and axle material 7 in discharge bucket is upwards released, then bracing frame is slipped into along inclined-plane 44, bracing frame moves forward the gripping position reaching wide type gas pawl 21 under the effect of flat-removing air cyclinder 47, wide type gas pawl 21 grips axle material 7 by roller 22 under the drive of lateral cylinder 32 and vertical cylinder 31 at bracing frame, then the effect again by lateral cylinder 32 with vertical cylinder 31 is come at chuck 11, now axle material 7 be axially directed to chuck 11, then material ejection cylinder 23 ejects its piston rod impeller-hub material 7 and enters in chuck 11, realize whole feeding action.

Chuck 11 carries out turnery processing by the two ends of the countershaft material of the lathe tool on both sides 7 after clamping axle material 7.

(cutting agency 5), as shown in Figure 3, laterally material returned cylinder 54 is by winning in succession and screw is fixed on seat board 1, laterally the piston rod of material returned cylinder 54 is perpendicularly oriented to chuck 11, slide rail and the mounting moved along slide rail is had equally on the left of chuck 11, laterally the piston rod of material returned cylinder 54 is fixed by screws on mounting, mounting is fixed with material folding gas pawl 52, material folding gas pawl 52 is controlled clamping by the material folding cylinder 55 above it or unclamps, the structure of material folding gas pawl 52 is identical with the structure of wide type gas pawl 21, and its roller 22 also allows for movement and the clamping of axle material 7.The material folding gas pawl 52 axle material 7 after clamping processing, feed mechanism 2 feeding again on the right side of chuck 11, the axle material 7 after processing is ejected by new axle material 7 to be processed.Material folding gas pawl 52 is moved to the left to, at transmission band 63, open gas pawl under the drive of horizontal material returned cylinder 54 afterwards, the axle material 7 after processing is placed transmission band 63 and carries.

As shown in Figures 9 and 11, transmission band 63 is ring-type, and seat board 1 is fixed with carriage 56 by screw, and transmission band 63 is opened by the two ends of carriage 56 by cylindrical roll.

As shown in Figure 10, Figure 12, Figure 13 and Figure 14, wherein carriage 56 includes the metal fixed bridge along transmission band 63 direction, metal fixed bridge is positioned at the two ends of transmission band 63, and metal fixed bridge offers "T"-shaped slideway 561, this slideway 561 length course bearing is identical with transmission band 63 transmission direction, and in this slideway 561, sliding has T-shaped slide block 57, and the outer end of this T-shaped slide block 57 is fixed with slide plate 59 by lock-screw 58, lock-screw 58 is worn and is penetrated this T-shaped slide block 57, and slide plate 59 is trapezoidal shape panel.Being provided with power source 53 between two pieces of slide plates 59, this power source 53 is motor.

Shown in Figure 11, it is fixed with columned leather belt roller 61 by flat key in the rotating shaft of motor, the both sides of leather belt roller 61 are provided with idler roller 62, idler roller 62 is cylindric, and idler roller 62 is fixed on slide plate 59 by round bar, the lower belt surface of transmission band 63 is staggered in leather belt roller 61 and idler roller 62 successively so that leather belt roller 61 increases with the contact area of transmission band 63.And after unclamping lock-screw 58, T-shaped slide block 57 can be along slideway 561 sliding, it is achieved the regulation of power source 53 position.The inner face of transmission band 63 is cingulum, and outside is burnishing surface, and leather belt roller 61 is the gear coordinated with cingulum, leather belt roller 61 and transmission band 63 carry out transmission by the engagement system of tooth, it is to avoid transmission band 63 skids, and improves transmission efficiency.

The above is only preferred implementation of the present utility model, and protection domain of the present utility model is not limited merely to above-described embodiment, and all technical schemes belonged under this utility model thinking belong to protection domain of the present utility model.It should be pointed out that, for those skilled in the art, without departing from the some improvements and modifications under this utility model principle premise, these improvements and modifications also should be regarded as protection domain of the present utility model.

Claims (10)

1. a digital-control two-head lathe, including the seat board (1) being provided with chuck (11), it is characterized in that, chuck (11) is provided with feed mechanism (2), the cutting agency (5) to chuck (11) material returned one by one fed chuck (11) one by one；

Described feed mechanism (2) includes wide type gas pawl (21) and ejector beam (231), described wide type gas pawl (21) is provided with the roller (22) of material folding guide, and described ejector beam (231) is along roller (22) pusher to chuck (11)；

Described cutting agency (5) includes conveyer belt (51) and material folding gas pawl (52) to chuck (11) material returned of output material, described material folding gas pawl (52) feeding to transmission band (63), is provided with at the lower belt surface of described transmission band (63) and drives self power source (53) and described power source (53) along the direction sliding of described transmission band (63).

A kind of digital-control two-head lathe the most according to claim 1, it is characterized in that, described feed mechanism (2) is placed in chuck (11) right side, wide type gas pawl (21) includes two claws (24), each described claw (24) has been arranged symmetrically with at least two roller (22), and described ejector beam (231) is placed on the right side of roller (22) and described ejector beam (231) points to the bayonet socket of described chuck (11).

A kind of digital-control two-head lathe the most according to claim 2, it is characterized in that, described ejector beam (231) is driven by material ejection cylinder (23) and moves back and forth to bayonet socket direction, and described material ejection cylinder (23) is fixed on seat board (1).

4. according to the arbitrary described a kind of digital-control two-head lathe of claim 1 ~ 3, it is characterised in that the circumferencial direction of described roller (22) is provided with the groove (221) for material folding.

A kind of digital-control two-head lathe the most according to claim 1, it is characterized in that, described feed mechanism (2) also includes the feed mechanism (3) being provided with feed one by one, and described feed mechanism (3) includes driving the vertical cylinder (31) of wide type gas pawl (21) vertically movement, being fixed on seat board (1) and drive the lateral cylinder (32) of vertical cylinder (31) transverse shifting, be placed in the support bin (33) of wide type gas pawl (21) lower section, one by one feeding to the material jacking mechanism (4) supportting bin (33)；Under the driving with lateral cylinder (32) of the described vertical gas bar, wide type gas pawl (21) carries out material folding in support bin (33).

A kind of digital-control two-head lathe the most according to claim 5, it is characterized in that, described material jacking mechanism (4) includes storage bin hopper (41), in storage bin hopper (41), laminating sidewall (42) is provided with and pushes to slide plate (43), push to slide plate (43) top to be provided with to the inclined-plane (44) that described sidewall (42) tilts, push to slide plate (43) lower end and stretch out storage bin hopper (41) and by top gas cylinder (46) in flake joint (45) connection；

Plate (43) is pushed to slide in what described upper top gas cylinder (46) was pushed to highest point, described inclined-plane (44) is placed in the same face with the end face of described sidewall (42), and described inclined-plane (44) guide is to support bin (33) below；

Being provided with flat-removing air cyclinder (47) between described support bin (33) and storage bin hopper (41), described flat-removing air cyclinder (47) promotes described support bin (33) to described sidewall (42) or described wide type gas pawl (21) lower section.

A kind of digital-control two-head lathe the most according to claim 1, it is characterized in that, described cutting agency (5) is as chuck (11) left side, described cutting agency (5) includes being fixed on seat board (1) and driving described material folding gas pawl (52) to be driven by material folding cylinder (55) to the horizontal material returned cylinder (54) of transmission band (63), described material folding gas pawl (52).

A kind of digital-control two-head lathe the most according to claim 7, it is characterized in that, described power source (53) is motor, transmission band (63) is fixed on seat board (1) by carriage (56), described carriage (56) connects the lower extension slide plate (59) along transmission band (63) direction sliding, and described motor is fixed on slide plate (59) and drives described transmission band (63) by leather belt roller (61).

A kind of digital-control two-head lathe the most according to claim 8, it is characterized in that, described carriage (56) offers slideway (561), described slide plate (59) is by T-shaped slide block (57) sliding in slideway (561), and described T-shaped slide block (57) is threaded to be had and drive himself to realize being connected to the lock-screw (58) of slideway (561).

A kind of digital-control two-head lathe the most according to claim 9, it is characterized in that, it is provided with even number in described carriage (56) lower section and is fixed on the idler roller (62) of slide plate (59), described idler roller (62) is symmetrically arranged in the both sides of described leather belt roller (61), and described lower belt surface is staggered successively is around in idler roller (62) and leather belt roller (61).