CN203712419U - Built-in machine tool - Google Patents

Abstract

The utility model relates to a built-in machine tool. The built-in machine tool is characterized in that materials are carried through cutters and workpieces are arranged on the upper side and the lower side of a working platform and comprises a machine tool body and the working platform; the working platform is provided with a working platform surface which is in horizontal base level; the working platform is provided with a station component; the station component is provided with stations and workpiece space which are loaded with the workpieeces; the machine tool body is provided with internal space; the internal space is provided with a spindle component which is loaded with the cutters, an upright column which is loaded with the spindle component and a longitudinal motion linear track; the centers of the stations are located in the longitudinal motion linear track; the spindle component can arranged on an upright column in a back and forth mode along the longitudinal movement linear track; the station component comprises a stationary disc, a rotary disc and a rotary disc motor; the stationary disc and the rotary disc motor are fixedly installed on the working platform; the rotary disc motor drives the rotary disc to rotate relative to the stationary disc; the inner side of the rotary disc is provided with rotary space which is for horizontal movement of the spindle component.

Description

Built-in lathe

Technical field

The utility model relates to lathe, especially relates to the lathe of inversion type layout.

Background technology

Traditional lathe, capital comprises cutter loading and workpiece loading, cutter is loaded in cutter loading, workpiece to be processed is loaded in workpiece loading, cutter loading can be used to be with cutter to realize various motions, workpiece loading is used for driving workpiece to realize various motions, and then realizes cooperatively interacting of cutter and workpiece, makes workpiece obtain desired geometry, dimensional accuracy and surface quality.Lathe all can comprise for being placed in lathe bed on the ground and being positioned at the workbench of lathe bed top, correct levelness of settling lathe bed to guarantee workbench, the lathe of prior art is all the outlet structure that workpiece loading and cutter loading are arranged on workbench top, exactly be mounted among the space of table surface top, workpiece to be processed is placed in the workpiece space between cutter loading and workbench, so lathe Existential Space limitation of layout, the namely fore-and-aft distance of workpiece limited space between cutter loading and table surface, workpiece is difficult to handling, and in order to process workpiece smoothly, the cantilever of also having to increase horizontally set in cutter loading is suspended in above workpiece, in other words cutter loading has to increase fore-and-aft distance and lateral separation in order to adapt to the volume of workpiece, to increase moulding and volume that workpiece space could adapt to workpiece, and the defect that the cutter loading increasing exists is: integral rigidity reduces, workpiece exceedes clamping shakiness after certain altitude, cutter loading easily produces vibration and rocks, cause precision to reduce, and cost is very high.

Summary of the invention

For overcoming above-mentioned defect, the utility model provides cutter loading and workpiece to lay respectively at the built-in lathe of the upper and lower both sides of workbench.

The built-in lathe that the utility model provides, comprise lathe bed and workbench, workbench has the work top that is level reference, workbench is provided with station parts, station parts are provided with station and the workpiece space of loading workpiece, lathe bed is provided with inner space, described workpiece space is positioned at the top of work top, described inner space is positioned at the below of work top, inner space is provided with the spindle unit that loads cutter, load column and the lengthwise movement straight path of spindle unit, station be centered close to lengthwise movement straight path, described spindle unit along the longitudinal line of motion track moves back and forth and is arranged on column, station parts comprise price fixing, rotating disk, rotary tray motor, price fixing and rotary tray motor are fixedly mounted on workbench, rotating disk is installed with price fixing is concentric, rotating disk is positioned at price fixing inner side, rotary tray motor drives rotating disk to rotate relative to price fixing, described rotating disk top and price fixing top are higher than work top, the station of described loading workpiece is positioned at rotating disk top, the station of described loading workpiece is positioned on rotating disk, the center of station and the center superposition of rotating disk, rotating disk inner side is provided with for the laterally rotating disk space of activity of spindle unit.

Built-in lathe of the present utility model, be intended to cutter, spindle unit, column is placed among the inner space of lathe bed completely, cutter and workpiece are taking workbench as boundary, separate from the both sides up and down of workbench, the workpiece space of workbench top just can be by cutter like this, spindle unit and column are occupied, in other words workbench top is all the workpiece space that can be considered as for settling workpiece, the handling operation of workpiece is convenient, and clamping workpiece is stable, spindle unit does not need to consider to increase length and height again, can complete and the coordinating of workpiece with cutter, the adaptability of cutter is enhanced, column height reduces, rigidity reinforced, lathe bed smaller volume, weight saving, cost, and because working angles is for from bottom to top, the chip producing in working angles drops, can make cutter reduce wearing and tearing, and chip and cooling water that cutting produces are difficult for dropping out outside lathe bed.

The utility model provides improved built-in lathe, workbench is provided with at least two station parts and station central line, each station parts are provided with the workpiece space of loading the station of workpiece and being positioned at station top, the center of each station is positioned at station central line, inner space is provided with transverse movement straight path, transverse movement straight path is parallel with station central line, described lengthwise movement straight path is vertical with transverse movement straight path and crossing, lengthwise movement straight path is vertical with station central line and crossing, the lengthwise movement straight path intersection point crossing with station central line is positioned at the center of station, described column transversely line of motion track moves back and forth.By more than two station is provided, can be only with the workpiece on a set of column successively processing stations, when certain station is during at workpiece loading and unloading, another station can carry out cutting workpiece, and then realizes and do not shut down processing operation.

The utility model provides further improved built-in lathe, the rotary tray motor that inner space is provided with stand column transmission mechanism and matches with rotating disk number, rotary tray motor is arranged in the straight line parallel with transverse movement straight path, stand column transmission mechanism and rotary tray motor lay respectively at the both sides of transverse movement straight path, rotating disk outer rim is provided with tooth, rotary tray motor output shaft is provided with the travelling gear being meshed with the tooth of rotating disk, rotary tray motor drives turntable rotation by travelling gear, stand column transmission mechanism is provided with column motor and screw nut driven pair, the secondary input of screw nut driven connects column motor, the secondary output of screw nut driven connects column, column motor is by the moving transversely line of motion orbiting motion of column of screw nut driving subband.The utility model aims to provide optimized internal space layout, inner space is made full use of most and significantly simplify lathe bed overall volume.

Below in conjunction with embodiment and accompanying drawing, the utility model is described in further detail.

Brief description of the drawings

Fig. 1 is one of built-in lathe embodiment medial bed stereogram.

Fig. 2 is two of built-in lathe embodiment medial bed stereogram.

Fig. 3 is three of built-in lathe embodiment medial bed stereogram.

Fig. 4 is one of structure chart of built-in lathe embodiment.

Fig. 5 be built-in lathe embodiment structure chart two.

Fig. 6 is one of stereogram of clamp member in built-in lathe embodiment.

Fig. 7 be clamp member in built-in lathe embodiment stereogram two.

Fig. 8 is that the clamp member in Fig. 1 is laid down the stereogram after workpiece.

Fig. 9 is the cut-away view of clamp member in built-in lathe embodiment.

Figure 10 is moving gear ring among clamp member and the assembling schematic diagram of quiet gear ring.

Detailed description of the invention

Fig. 1 to Fig. 5 represents the overall structure of built-in lathe embodiment of the present utility model, comprise lathe bed 100 and workbench 200, workbench has the work top 208 that is level reference, workbench 200 is provided with station parts 201, station parts 201 are provided with the station 202 and the workpiece space f that load workpiece 9, lathe bed 100 is provided with inner space g, described workpiece space f is positioned at the top of work top 208, described inner space g is positioned at the below of work top 208, inner space g is provided with the spindle unit 300 that loads cutter, load column 400 and the lengthwise movement straight path i of spindle unit 300, station 202 be centered close to lengthwise movement straight path i, described spindle unit 300 along the longitudinal line of motion track i moves back and forth and is arranged on column 400.Alleged spindle unit 300 in the present embodiment, basic structure and the operation principle of column 400 these two assemblies, all roughly the same with the corresponding assembly of existing lathe, can be with reference to prior art, do not need in the present embodiment to repeat, work top 208 in the present embodiment is not the upper surface that is simply interpreted as workbench 200, this term is construed as the correction water plane of Installing machine tool, in the time of Installing machine tool, its workbench must ensure to have the datum level that reference level is proofreaied and correct, the levelness of station on guarantee workbench like this, and even fixture and workpiece are placed on station and add and there will not be larger error man-hour.

Yes for spindle unit 300 with spinfunction, driven by the spindle motor x4 in Fig. 5, spindle unit 300 is used for driving the cutter rotation of loading, and some situation lower main axis parts 300 is selected not rotate and only had feeding effect, can certainly be rotation be incorporated into compound motion.

What above-mentioned paragraph was described is the situation that workbench 200 only comprises station parts 201, also just say that workbench 200 in this case completes after time processing, needing the old workpiece to be removed such as time-out that new workpiece is installed just can return to work afterwards, therefore in the present embodiment, workbench 200 is provided with two station parts 201 and station central line e, each station parts 201 are provided with the station 202 and the workpiece space f that load workpiece 9, each station 202 center is positioned at station central line e, inner space g is provided with transverse movement straight path h, transverse movement straight path h is parallel with station central line e, described lengthwise movement straight path i is vertical with transverse movement straight path h and crossing, lengthwise movement straight path i is vertical with station central line e and crossing, the lengthwise movement straight path i intersection point crossing with station central line e is positioned at station 202 center, described column 400 transversely line of motion track h moves back and forth.

In the present embodiment, so-called lengthwise movement straight path i, transverse movement straight path h and station central line e are the virtual reference lines that is arranged in lathe, and each associated components all can the movable or assembling according to its corresponding reference line.

Do not violating under the prerequisite of above-mentioned basic structure, the present embodiment can also further increase the quantity of station parts 201, also multiple station parts 201 is arranged in a straight line.

In the present embodiment, each station parts 201 comprise price fixing 203, rotating disk 204, rotary tray motor 205, price fixing 203 and rotary tray motor 205 are fixedly mounted on workbench 200, rotating disk 204 and the concentric installation of price fixing 203, rotating disk 204 is positioned at price fixing 203 inner sides, rotary tray motor 205 drives rotating disk 204 to rotate relative to price fixing 203, the station 202 of described loading workpiece 9 is positioned on rotating disk 204, the center superposition of station 202 center and rotating disk 204, rotating disk 204 inner sides are provided with for the laterally rotating disk space j of activity of spindle unit 300.Rotating disk 204 tops and price fixing 203 tops in the present embodiment all exceed work top 208 a little; mean that station 202 is also higher than work top 208; flow on workbench 200 adding assorted material such as the oil or the water etc. that produce man-hour like this; and needn't consider affected parts to seal; can certainly consider that rotating disk 204 and price fixing 203 flush with work top 208 even lower than work top 208, but must install seal member protection additional to associated components like that.

In the present embodiment, the rotary tray motor 205 that inner space g is provided with stand column transmission mechanism 500 and matches with rotating disk 204 numbers, rotary tray motor 205 is arranged in the straight line parallel with transverse movement straight path h, stand column transmission mechanism 500 and rotary tray motor 205 lay respectively at the both sides of transverse movement straight path h, rotating disk 204 outer rims are provided with tooth 204a, rotary tray motor 205 output shafts are provided with the travelling gear 205a being meshed with the tooth 204a of rotating disk, rotary tray motor 205 drives rotating disk 204 to rotate by travelling gear 205a, stand column transmission mechanism 500 is provided with column motor 501 and screw nut driven pair 502, secondary 502 inputs of screw nut driven connect column motor 501, secondary 502 outputs of screw nut driven connect column 400, column motor 501 drives transversely line of motion track h motion of column 400 by screw nut driving secondary 502.

Thus, the cutter of the present embodiment can be selected transverse movement, lengthwise movement, rotatablely move and compound motion, and workpiece can be selected to rotatablely move, and then obtains the turning effect of workpiece rotation, tool feeding; Or workpiece is static, the boring and milling effect of tool feeding; Or workpiece rotation, cutter do not turn the boring effect of feeding, it can also be the combination effect of workpiece rotation, cutter rotation feeding.

In addition, in the present embodiment, lathe bed 100 is provided with the dividing plate 101 that extends to ground from workbench 200, and workbench 200 belows are provided with described dividing plate 101 and surround the totally enclosed inner space g forming.Dividing plate 101 and workbench 200 are roughly perpendicular structure; inner space g is provided with the chip cleaner x1 leading to outside lathe bed 100; the chip that machine tooling produces like this can be collected among the g of inner space; only can collect by chip cleaner x1 is unified; can not leak outside lathe bed, effectively protection of the environment.Workbench 200 is provided with guard rail x2, and guard rail x2 is advisable to exceed clamp member 600, ensures safety.In the g of inner space, also there is the additional functional components of spindle unit 300; respectively the lever tool changing parts x3 fixing a cutting tool for changing spindle unit 300; and be arranged at the spindle motor x4 on column 400; spindle motor x4 drive shaft parts 300 rotatablely move; between spindle motor x4 and spindle unit 300, be also provided with torque limiter x5; torque limiter x5 is the overload protection of spindle motor x4 and spindle unit 300, prevents mechanical failure, avoids expensive shutdown loss.

Fig. 4 to Figure 10 represents the subsidiary clamp member 600 of station parts 201 in the present embodiment, for workpiece 9 calibration processing, clamp member 600 is positioned among the f of workpiece space, workpiece 9 is loaded among clamp member 600, the integral installation of workpiece 9 and clamp member 600 is loaded on station 202, clamp member 600 comprises the left and right sides clamp body 6 that holds the clamp body space 8 of workpiece 9 and lay respectively at 8 relative both sides, clamp body space, 7, between left side clamp body 6 and right side clamp body 7, be also provided with the clamp body base 11 that both are associated together, and be positioned at the clamp body lateral pin 12 together with left side clamp body 6 and right side clamp body 7 tops both are associated, in order to strengthen overall firmness.

Left side clamp body 6 is provided with positioning hydraulic cylinders 61 and location-plate 62, location-plate 62 is arranged on the piston rod of positioning hydraulic cylinders 61, location-plate 62 can relative positioning hydraulic cylinder 61 piston rod rotation, location-plate 62 is subject to positioning hydraulic cylinders 61 to order about lateral shuttle, mean that both can the be positioned piston rod of hydraulic cylinder 61 of location-plate 62 promotes transverse translation, piston rod rotation that again can relative positioning hydraulic cylinder 61.

Right side clamp body 7 is provided with contiguous block 71 and locating piece 72, oscillating motor 73, locked hydraulic cylinder 74, moving gear ring 75 and quiet gear ring 76, contiguous block 71 and locating piece 72 are fixedly connected, contiguous block 71 and moving gear ring 75 are fixedly connected, contiguous block 71 is arranged on oscillating motor 73, contiguous block 71 is subject to oscillating motor 73 to order about rotation, locating piece 72 and location-plate 62 are respectively from left and right sides holding workpiece 9, for improving the accuracy of location-plate 62 horizontal rectilinear translations, embodiment is provided with especially location-plate 62 and has the locating dowel 62a extending towards locating piece 72, in this locating dowel 62a, be provided with locating dowel hole 62b, in the 62b of locating dowel hole, be provided with back-moving spring 62c, locating piece 72 is provided with locating piece hole 72a, locating dowel 62a Matching installation is in the 72a of locating piece hole, locating dowel 62a is subject to positioning hydraulic cylinders 61 to order about lateral shuttle in the 72a of locating piece hole, back-moving spring 62c two ends are connected to respectively locating dowel hole 62b inwall and locating piece hole 72a inwall.Oscillating motor 73 is purchased rotating hydraulic cylinder common on market, mean oscillating motor 73 as long as drive contiguous block 71 to rotate, can drive locating piece 72 and moving gear ring 75 together with fixing with contiguous block 71 to rotate simultaneously, and even location-plate 62 and workpiece 9 be together rotation also, and in order to ensure the accuracy of above-mentioned parts rotation, preferably make oscillating motor 73 and positioning hydraulic cylinders 61 pivot alignment, be the concentric installation of a horizontal straight line.Quiet gear ring 76 is arranged on the piston rod of locked hydraulic cylinder 74 and fixes with it, quiet gear ring 76 is subject to locked hydraulic cylinder 74 to order about lateral shuttle, quiet gear ring 76 has the moving gear ring effect of pinning of the moving gear ring 75 of butt and departs from the moving gear ring effect of release of moving gear ring 75, it is realized by following structure: quiet gear ring 76 all has mutually in the face of not indicating in the circle face figure arranging with moving gear ring 75, on both circle faces, be respectively equipped with in lock tooth figure and do not indicate, both lock teeth are used for being fitted to each other, quiet gear ring 76 is as shown in Figure 4 the states in departing from moving gear ring 75, that is to say that moving gear ring 75 is now rotatable, when locked hydraulic cylinder 74 promotes quiet gear ring 76 to right translation until it is while being connected to moving gear ring 75, the rotation trend of moving gear ring 75 is just stoped by quiet gear ring 76, form the latch functions of quiet gear ring 76 to moving gear ring 75, also the locating piece 72 that makes aforesaid and moving gear ring 75 be fixedly connected, contiguous block 71, location-plate 62 and workpiece 9 are together by locking, can effectively reduce the vibration that workpiece 9 produces when processed.

The clamp member 600 of the present embodiment has easily assembling, firm position, the accurately reliable effect of calibration, location-plate 62 and locating piece 72 combinations by the left and right sides are fixed workpiece 9, two vertical gear rings are set on a side clamp body further to be locked workpiece 9, make it keep more firmly inactive state, to workpiece is processed to operation accurately, and can reduce the unfavorable factor that the vibration producing because of processing causes machining accuracy to reduce, also there is compact conformation, joint space-efficient advantage.And coordinating between the locating piece hole 72a of the locating dowel 62a of location-plate 62 and locating piece 72 further improved clamp member 600 to workpiece 9 setting accuracies.

For improving operation stability and reducing the consideration that processing is vibrated equally, the moving gear ring 75 of the present embodiment and quiet gear ring 76 are all installed with one heart centered by oscillating motor 73, as shown in Figure 5, right side clamp body 7 is provided with three locked hydraulic cylinders 74 that are evenly distributed on quiet gear ring 76, quiet gear ring 76 is arranged on three locked hydraulic cylinders 74 simultaneously, and quiet gear ring 76 orders about lateral shuttle under effect at three locked hydraulic cylinders 74 simultaneously.Further improve the coupling mechanism force of quiet gear ring 76, and make it stressed evenly, operation is more steadily reliable.

As shown in Fig. 6, Fig. 7, Fig. 8, workpiece 9 is valve bodies, the present embodiment is in order to adapt with it, the moulding of location-plate 62 is done to the improvement matching with workpiece 9, location-plate 62 has the location-plate sidepiece 621 coordinating with workpiece 9 sidepieces and the location-plate bottom 622 coordinating with workpiece bottom, location-plate sidepiece 621 and the 622 composition L moulding of location-plate bottom, location-plate sidepiece 621 coincide with workpiece 9 sidepiece profiles, and location-plate bottom 622 coincide with workpiece 9 bottom profile.Correspondingly also can make the moulding matching with the sidepiece profile of workpiece 9 opposite sides for locating piece 72.If the workpiece of other moulding 9, also only need make location-plate 62 match with the surface profile that locating piece 72 contacts with workpiece.

As shown in Fig. 6, Fig. 7, Fig. 9, workpiece 9 is valve bodies, is irregular body, the present embodiment is in order to adapt with it, locating piece 72 is provided with balancing weight 72c, can correspondingly change volume and the weight of balancing weight for different workpiece 9, to reach weight balancing state when workpiece 9 is clamped locates.

Claims (10)

1. built-in lathe, it is characterized in that: comprise lathe bed (100) and workbench (200), workbench has the work top (208) that is level reference, workbench (200) is provided with station parts (201), station parts (201) are provided with the station (202) and workpiece space (f) that load workpiece (9), lathe bed (100) is provided with inner space (g), described workpiece space (f) is positioned at the top of work top (208), described inner space (g) is positioned at the below of work top (208), inner space (g) is provided with the spindle unit (300) that loads cutter, the column (400) of loading spindle unit (300) and lengthwise movement straight path are (i), station (202) be centered close to lengthwise movement straight path (i), described spindle unit (300) along the longitudinal line of motion track (i) moves back and forth and is arranged on column (400), described station parts (201) comprise price fixing (203), rotating disk (204), rotary tray motor (205), price fixing (203) and rotary tray motor (205) are fixedly mounted on workbench (200), rotating disk (204) and the concentric installation of price fixing (203), rotating disk (204) is positioned at price fixing (203) inner side, rotary tray motor (205) drives rotating disk (204) to rotate relative to price fixing (203), described rotating disk (204) top and price fixing (203) top are higher than work top (208), the station (202) of described loading workpiece (9) is positioned at rotating disk (204) top, the center superposition of the center of station (202) and rotating disk (204), rotating disk (204) inner side is provided with for the laterally rotating disk space (j) of activity of spindle unit (300).

2. built-in lathe according to claim 1, it is characterized in that: workbench (200) is provided with at least two station parts (201) and station central line (e), each station parts (201) are provided with the station (202) and workpiece space (f) that load workpiece (9), the center of each station (202) is positioned at station central line (e), inner space (g) is provided with transverse movement straight path (h), transverse movement straight path (h) is parallel with station central line (e), described lengthwise movement straight path is (i) vertical with transverse movement straight path (h) and crossing, lengthwise movement straight path is (i) vertical with station central line (e) and crossing, the lengthwise movement straight path (i) intersection point crossing with station central line (e) is positioned at the center of station (202), described column (400) transversely line of motion track (h) moves back and forth.

3. built-in lathe according to claim 1 and 2, it is characterized in that: the rotary tray motor (205) that described inner space (g) is provided with stand column transmission mechanism (500) and matches with rotating disk (204) number, rotary tray motor (205) is arranged in the straight line parallel with transverse movement straight path (h), stand column transmission mechanism (500) and rotary tray motor (205) lay respectively at the both sides of transverse movement straight path (h), rotating disk (204) outer rim is provided with tooth (204a), rotary tray motor (205) output shaft is provided with the travelling gear (205a) being meshed with the tooth (204a) of rotating disk, rotary tray motor (205) drives rotating disk (204) rotation by travelling gear (205a), stand column transmission mechanism (500) is provided with column motor (501) and screw nut driven pair (502), screw nut driven pair (502) input connects column motor (501), screw nut driven pair (502) output connects column (400), column motor (501) drives transversely line of motion track (h) motion of column (400) by screw nut driving pair (502).

4. built-in lathe according to claim 1 and 2, it is characterized in that: described lathe bed (100) is provided with the dividing plate (101) that extends to ground from workbench (200), workbench (200) below is provided with described dividing plate (101) and surrounds the totally enclosed inner space (g) forming.

5. built-in lathe according to claim 3, it is characterized in that: described lathe bed (100) is provided with the dividing plate (101) that extends to ground from workbench (200), workbench (200) below is provided with described dividing plate (101) and surrounds the totally enclosed inner space (g) forming.

6. built-in lathe according to claim 1 and 2, it is characterized in that: described station parts (201) are provided with the clamp member (600) for the processing of workpiece (9) calibration, clamp member (600) is positioned among workpiece space (f), workpiece (9) is loaded among clamp member (600), the integral installation of workpiece (9) and clamp member (600) is loaded on station (202), described clamp member (600) comprises to be held the clamp body space (8) of workpiece (9) and lays respectively at clamp body space (8) the left and right sides clamp body (6 of both sides relatively, 7), left and right sides clamp body (6, 7) be fixedly installed to workbench (200), left side clamp body (6) is provided with positioning hydraulic cylinders (61) and location-plate (62), location-plate (62) is arranged on positioning hydraulic cylinders (61), location-plate (62) can rotate by relative positioning hydraulic cylinder (61), location-plate (62) is subject to positioning hydraulic cylinders (61) to order about lateral shuttle, right side clamp body (7) is provided with contiguous block (71) and locating piece (72), oscillating motor (73), locked hydraulic cylinder (74), moving gear ring (75) and quiet gear ring (76), contiguous block (71) and locating piece (72) are fixedly connected, contiguous block (71) and moving gear ring (75) are fixedly connected, contiguous block (71) is arranged on oscillating motor (73), contiguous block (71) is subject to oscillating motor (73) to order about rotation, quiet gear ring (76) is arranged on locked hydraulic cylinder (74), quiet gear ring (76) is subject to locked hydraulic cylinder (74) to order about lateral shuttle, quiet gear ring (76) has the moving gear ring effect of pinning of the moving gear ring (75) of butt and departs from the moving gear ring effect of release of moving gear ring (75).

7. built-in lathe according to claim 3, it is characterized in that: described station parts (201) are provided with the clamp member (600) for the processing of workpiece (9) calibration, clamp member (600) is positioned among workpiece space (f), workpiece (9) is loaded among clamp member (600), the integral installation of workpiece (9) and clamp member (600) is loaded on station (202), described clamp member (600) comprises to be held the clamp body space (8) of workpiece (9) and lays respectively at clamp body space (8) the left and right sides clamp body (6 of both sides relatively, 7), left and right sides clamp body (6, 7) be fixedly installed to workbench (200), left side clamp body (6) is provided with positioning hydraulic cylinders (61) and location-plate (62), location-plate (62) is arranged on positioning hydraulic cylinders (61), location-plate (62) can rotate by relative positioning hydraulic cylinder (61), location-plate (62) is subject to positioning hydraulic cylinders (61) to order about lateral shuttle, right side clamp body (7) is provided with contiguous block (71) and locating piece (72), oscillating motor (73), locked hydraulic cylinder (74), moving gear ring (75) and quiet gear ring (76), contiguous block (71) and locating piece (72) are fixedly connected, contiguous block (71) and moving gear ring (75) are fixedly connected, contiguous block (71) is arranged on oscillating motor (73), contiguous block (71) is subject to oscillating motor (73) to order about rotation, quiet gear ring (76) is arranged on locked hydraulic cylinder (74), quiet gear ring (76) is subject to locked hydraulic cylinder (74) to order about lateral shuttle, quiet gear ring (76) has the moving gear ring effect of pinning of the moving gear ring (75) of butt and departs from the moving gear ring effect of release of moving gear ring (75).

8. built-in lathe according to claim 6, it is characterized in that: location-plate (62) has the locating dowel (62a) of extending towards locating piece (72), in this locating dowel (62a), be provided with locating dowel hole (62b), in locating dowel hole (62b), be provided with back-moving spring (62c), locating piece (72) is provided with locating piece hole (72a), locating dowel (62a) Matching installation is in locating piece hole (72a), locating dowel (62a) is subject to positioning hydraulic cylinders (61) to order about lateral shuttle in locating piece hole (72a), back-moving spring (62c) two ends are connected to respectively locating dowel hole (62b) inwall and locating piece hole (72a) inwall.

9. built-in lathe according to claim 6, it is characterized in that: moving gear ring (75) and quiet gear ring (76) are all installed with one heart centered by oscillating motor (73), right side clamp body (7) is provided with three locked hydraulic cylinders (74) that are evenly distributed on quiet gear ring (76), quiet gear ring (76) is arranged on three locked hydraulic cylinders (74) simultaneously, and quiet gear ring (76) orders about lateral shuttle under effect at three locked hydraulic cylinders (74) simultaneously.

10. built-in lathe according to claim 8, it is characterized in that: moving gear ring (75) and quiet gear ring (76) are all installed with one heart centered by oscillating motor (73), right side clamp body (7) is provided with three locked hydraulic cylinders (74) that are evenly distributed on quiet gear ring (76), quiet gear ring (76) is arranged on three locked hydraulic cylinders (74) simultaneously, and quiet gear ring (76) orders about lateral shuttle under effect at three locked hydraulic cylinders (74) simultaneously.