CN205551996U - Lathe frame and lathe - Google Patents

Abstract

Environmental pollution is big in the lathe frame manufacture process among the prior art, the energy consumption big in order to overcome, workman intensity of labour is high, respectively tie the component assembly precision is difficult to the problem of adjusting, the utility model provides a lathe frame which comprises base plate, pad foot, crossbeam and prop up supporting beam, it is fixed in on the base plate to fill up the foot, the crossbeam is fixed in fill up on the foot for the X of installation lathe is to the motion subassembly, it is fixed in to prop up supporting beam on the base plate, a supporting beam is located the crossbeam below for the Y of installation lathe is to the motion subassembly, base plate, crossbeam and a supporting beam are granite spare, the pad foot is the ironcasting. And simultaneously, the utility model also provides a lathe. The utility model provides a lathe frame adopts ironcasting and granite spare respectively according to atress and precision regulation needs, and reducible ironcasting pollutes the high problem of big energy consumption on the one hand, and on the other hand can overcome the problem that granite spare is difficult to adjust the assembly precision.

Description

A kind of machine tool frame and lathe

Technical field

This utility model relates to a kind of machine tool frame and uses the lathe of this machine tool frame.

Background technology

China's machine-tool industry had both been faced with the demand of elevating mechanism manufacturing industry level and the good opportunity that causes, also met with Run into the market competitive pressure of fierceness.From the point of view of from technological layer, accelerating to advance Numeric Control Technology will be solution machine One key of bed manufacturing industry sustainable development.The technical merit of equipment manufacture and up-to-dateness decide whole The level of individual national economy and up-to-dateness.The widely used Numeric Control Technology of world manufacturing industry, with Improve manufacturing capacity and level, improve the adaptation ability to dynamic changeable market and competitiveness.Digit Control Machine Tool Becoming the main flow of machine industry already, while keeping quickly increasing, industrial upgrading and structural adjustment are carried out Also obtain effect, rely on autonomous innovation, make technical products accelerate to high-end upgrading paces.At following 3-5, The thriving demand of China NC Machine industry will keep rapid growth, will welcome the bigger market space, city Field rate of increase is up to 12%, and this will drive China's domestic numerical control lathe and digital control system thereof and correlation function portion The development of part, is the technology of domestic digital control system production firm development oneself the most undoubtedly, expands market and carries Supply fabulous opportunity.

Due to machining center can intensively, be automatically completed working procedures, it is to avoid artificial operating error, Decrease adjustment time and workpiece turnover, carrying and the resting period of clamping workpiece, measurement and lathe, significantly Improve working (machining) efficiency and machining accuracy, so having good economic benefit.Particularly it can complete many The processing that conventional equipment can not complete, more complicated to shape, single-piece work that required precision is high or small batch Multi-item production is the most applicable.

At present, in existing machine tool frame existence manufacture process more or less, environmental pollution is big, energy consumption big, The problem that labor strength height or machine tool frame each structural member assembly precision are difficult to regulate.

Utility model content

Technical problem to be solved in the utility model is in machine tool frame manufacture process of the prior art Environmental pollution is big, energy consumption is big, labor strength is high, each structural member assembly precision is difficult to the problem that regulates, A kind of machine tool frame is provided.

The technical scheme that the above-mentioned technical problem of this utility model solution is used is as follows:

There is provided a kind of machine tool frame, including substrate, feet, crossbeam and support beam；Described feet is fixed on base On plate；Described crossbeam is fixed in described feet, for installing the X of lathe to moving parts；Described support Beam is fixed on described substrate, and support beam is positioned at below described crossbeam, for installing the Y-direction exercise group of lathe Part；Described substrate, crossbeam and support beam are granite part；Described feet is ironcasting.

Granite process technology is ripe, easy, is readily available the highest rough surface by grinding, polishing Degree and the depth of parallelism, perpendicularity, it is not necessary to the highly energy-consuming technique such as molding, heat treatment, in the granite course of processing Without high energy consumption, maximum discharge, ecological environment will not be polluted.It addition, along with the development of machinery manufacturing industry, essence Close and Ultraprecision Machining has become the important symbol weighing a national high-tech level, and granite passes through The seasoning of 1 years processes, the precision of energy stable for extended periods of time.

In the machine tool frame that this utility model provides, play carrying effect and without carrying out too much during assembling The substrate, crossbeam and the support beam that adjust are granite part, can reduce pollution, reduce energy consumption, and granite material The substrate of matter, crossbeam and support beam can keep stable precision for a long time.

Simultaneously as the impact resistance of granite is poor, and it is difficult to make complex-shaped structural member, mesh The front machine industry most ironcasting raw material sources of application is extensive, cheap, technical maturity, Ke Yishi Existing complex-shaped component, can reach frame permissible accuracy, at lathe through Wetted constructures and machining Positional precision can be adjusted by the mode of scraping during guide rails assembling.

In the machine tool frame that this utility model provides, play the pad of carrying effect, simultaneously scalable cross beam water Pingdu Foot is ironcasting, is beneficial to adjust fast and effectively the positional precision of crossbeam.

This utility model regulates needs according to stress and precision, for the use demand of different parts, adopts respectively Cylinder iron part and granite part, on the one hand can reduce ironcasting and pollute the problem that big energy consumption is high, on the other hand can Overcome the problem that granite part is difficult to regulate assembly precision.

Further, the leading flank of described crossbeam has horizontally disposed X to by face.

Further, the upper surface of described support beam has the Y-direction arranged along the longitudinal direction by face.

Further, described machine tool frame includes two described feets, and said two feet is oppositely arranged；Institute State crossbeam and include horizontally disposed horizontal part and two supporting parts downwardly extended from horizontal part two ends；Two Support part correspondence respectively is fixed in two feets.

Further, described machine tool frame also includes supporting platform；Described support platform is fixed on below substrate to prop up Support described substrate；Described support platform is granite part.

Meanwhile, this utility model additionally provides a kind of lathe, including machine tool frame, X to moving parts, Y To moving parts, Z-direction moving parts, motor and workbench；Described machine tool frame is foregoing lathe machine Frame；Described X is arranged on crossbeam to moving parts and is horizontally movable；Described Y-direction moving parts is arranged at In support beam and can seesaw；Described Z-direction moving parts is arranged at X and and can transport up and down on moving parts Dynamic；Described motor is arranged on described Z-direction moving parts and can move up and down with Z-direction moving parts；Described Workbench is arranged on described Y-direction moving parts and can seesaw with Y-direction moving parts.

Further, the leading flank of described crossbeam has horizontally disposed X to by face；Described X To by face include upper X to by face and lower X to by face；Described X to moving parts include upper X direction guiding rail, under X direction guiding rail, the first slide block and X are to movable plate；Described upper X direction guiding rail downwardly against in described upper X to leaning on On face；Described lower X direction guiding rail upwards against in described lower X to by face；Described upper X direction guiding rail and lower X Direction guiding rail is the most horizontally disposed；It is provided with described first on described upper X direction guiding rail and lower X direction guiding rail Slide block；The first slide block being positioned at X direction guiding rail can slide along upper X direction guiding rail, is positioned at the of lower X direction guiding rail One slide block can slide along lower X direction guiding rail；First slide block of the described X of being positioned at direction guiding rail and be positioned at lower guide X First slide block of rail is all connected to movable plate is fixing with described X.

Further, described Z-direction moving parts includes two Z-direction guide rails, the second slide block and Z-direction movable plate； Described two Z-direction guide rails are arranged at X the most along the vertical direction on movable plate；On described two Z-direction guide rails all Being provided with described second slide block, described second slide block can slide up and down along Z-direction guide rail；Described Z-direction movable plate It is fixedly connected with the second slide block laid respectively on two Z-direction guide rails；Described motor is fixed on described Z-direction On movable plate.

Further, the upper surface of described support beam has the Y-direction arranged along the longitudinal direction by face；Described Y Include that left Y-direction leans on face by face and right Y-direction to by face；Described Y-direction moving parts includes left Y-direction guide rail, the right side Y-direction guide rail and the 3rd slide block；Described left Y-direction guide rail is resisted against to the right described left Y-direction by face；The described right side Y-direction guide rail is resisted against described right Y-direction to the left by face；Described left Y-direction guide rail and right Y-direction guide rail are all along front Rear is to setting；It is provided with described 3rd slide block on described left Y-direction guide rail and right Y-direction guide rail；It is positioned at a left side The right slide block of Y-direction guide rail along left Y-direction slide, can be positioned at the 3rd slide block of right Y-direction guide rail can be along the right side Y-direction slide；Described the 3rd slide block of left Y-direction guide rail and be positioned at the 3rd slide block of right Y-direction guide rail of being positioned at All fix with described workbench and be connected.

Further, the crossbeam leading flank above described upper X direction guiding rail and below lower X direction guiding rail is all provided with It is equipped with to push away and pulls out；Pushing away pull out above described upper X direction guiding rail is pressed down against X direction guiding rail, make X direction guiding rail to Under be resisted against X to by face；Pushing away below described lower X direction guiding rail pulls out upwardly to descend X direction guiding rail, makes Lower X direction guiding rail upwards against in lower X to by face；On the left of described left Y-direction guide rail and the right Y-direction guide rail right side It is provided with to push away on the support beam upper surface of side and pulls out；Pushing away pull out on the left of described left Y-direction guide rail extrudes to the right left Y Direction guiding rail, makes left Y-direction guide rail be resisted against to the right left Y-direction by face；Pushing away on the right side of described right Y-direction guide rail is pulled out Extrude right Y-direction guide rail to the left, make right Y-direction guide rail be resisted against to the left by Y-direction by face.

Further, described workbench is ironcasting.

Accompanying drawing explanation

Fig. 1 is the axonometric chart of the lathe that this utility model preferred implementation provides；

Fig. 2 is in the machine tool frame that this utility model preferred implementation provides, the axonometric chart of crossbeam.

Reference in Figure of description is as follows:

1, platform is supported；2, substrate；3, feet；4, crossbeam；41, upper X is to by face；42, lower X to By face；51, upper X direction guiding rail；52, lower X direction guiding rail；6, the first slide block；7, X is to movable plate；8、 Z-direction guide rail；9, the second slide block；10, Z-direction movable plate；11, motor；12, support beam；121, left Y To by face；131, left Y-direction guide rail；132, right Y-direction guide rail；14, the 3rd slide block；15, workbench； 16, push away and pull out.

Detailed description of the invention

In order to make this utility model be solved the technical problem that, technical scheme and beneficial effect clearer, Below in conjunction with drawings and Examples, this utility model is further elaborated.Should be appreciated that herein Described specific embodiment, only in order to explain this utility model, is not used to limit this utility model.

In description of the present utility model, it is to be understood that term " on ", D score, "front", "rear", The orientation of the instruction such as "left", "right", " vertically ", " level ", " top ", " end ", " interior ", " outward " or position Relation of putting, for based on orientation shown in the drawings or position relationship, is for only for ease of description this utility model and letter Change and describe rather than indicate or imply that the device of indication or element must have specific orientation, with specifically Azimuth configuration and operation, therefore it is not intended that to restriction of the present utility model.In description of the present utility model In, except as otherwise noted, " multiple " are meant that two or more.

In description of the present utility model, it should be noted that unless otherwise clearly defined and limited, art Language " is installed ", " setting ", " connection " should be interpreted broadly, and connects for example, it may be fixing, it is also possible to It is to removably connect, or is integrally connected；Can be to be joined directly together, it is also possible to by the indirect phase of intermediary Even.For the ordinary skill in the art, can understand that above-mentioned term is new in this practicality with concrete condition Concrete meaning in type.

Fig. 1 shows the axonometric chart of the lathe that this utility model preferred implementation provides.

Concrete, this lathe includes that machine tool frame, X are to moving parts, Y-direction moving parts, Z-direction exercise group Part, motor 11 and workbench 15.

Wherein, machine tool frame includes supporting platform 1,2, two feets 3 of substrate, crossbeam 4 and support beam 12.

Support platform 1 and be positioned at machine tool frame lowermost end, play the effect supporting whole machine tool frame.Support platform 1 Need the dimensional stability with excellence, to ensure stablizing of whole machine tool frame.In present embodiment, Support platform 1 is granite part.The concrete shape supporting platform 1 can be conventional, and such as supporting platform 1 can wrap Include the supporter of two cuboid strips.

Substrate 2 is fixed on support platform 1, is used for carrying and install feet 3, support beam 12 etc..With support Platform 1 is similar to, and substrate 2 need to have the dimensional stability of excellence.In present embodiment, substrate 2 is flower hilllock Rock part.Substrate 2 concrete shape can use cuboid tabular.

Feet 3 is fixed on substrate 2, is used for carrying and install crossbeam 4.Owing to crossbeam 4 is used for installing X To moving parts and Z-direction moving parts, therefore, crossbeam 4 needs to debug its precision in installation process.To this, Feet 3 uses ironcasting, in order to adjust the installation accuracy of crossbeam 4.For saving feet 3 institute on a substrate 2 The space taken, according to the structure of crossbeam 4, feet 3 has two, lays respectively at cuboid plate-like substrate 2 Two corners of the same side.The shape of feet 3 preferably employs " convex " type, it is possible to understand that, feet 3 Other analogous shapes can also be used, only need to realize its function.

As in figure 2 it is shown, present embodiment middle cross beam 4 is substantially in " П " type structure, specifically includes and be horizontally disposed with Horizontal part and two supporting parts downwardly extending from horizontal part two ends；Two supporting part correspondences respectively are fixed on In two feets 3.

There is horizontally disposed X to by face on the leading flank of crossbeam 4.Described X includes to by face X to by face 41 and lower X to by face 42.

After crossbeam 4 is assemblied in feet 3, in use, excellent dimensional stability need to be kept, To this, in present embodiment, crossbeam 4 uses granite part.

X is arranged on crossbeam 4 to moving parts and is horizontally movable.Concrete, X includes to moving parts Upper X direction guiding rail 51, lower X direction guiding rail the 52, first slide block 6 and X are to movable plate 7.

As in figure 2 it is shown, upper X direction guiding rail 51 downwardly against in described upper X to by face 41, lower guide X Rail 52 upwards against in described lower X to by face 42.Upper X direction guiding rail 51 and the lower equal edge of X direction guiding rail 52 Horizontally arranged, could be aware that, now, upper X direction guiding rail 51 is parallel to each other with lower X direction guiding rail 52.

Upper X direction guiding rail 51 downwardly against in described upper X to by face 41 and lower X direction guiding rail 52 upwards Be resisted against described lower X existing various to using by the mode on face 42, for ensure Assembly stability and Precision, under preferable case, in present embodiment, above upper X direction guiding rail 51 and lower X direction guiding rail 52 times It is provided with to push away on crossbeam 4 leading flank of side and pulls out 16.Pushing away above upper X direction guiding rail 51 is pulled out 16 and is pressed down against Upper X direction guiding rail 51, make X direction guiding rail 51 downwardly against in upper X to by face 41.Lower X direction guiding rail Pushing away below 52 is pulled out 16 and is upwardly descended X direction guiding rail 52, makes lower X direction guiding rail 52 upwards against in lower X To by face 42.

Owing to above-mentioned upper X direction guiding rail 51 and lower X direction guiding rail 52 are strip, install for finer regulation Precision, preferably goes up and is all provided with on crossbeam 4 leading flank above X direction guiding rail 51 and below lower X direction guiding rail 52 Be equipped with multiple set gradually in the horizontal direction push away and pull out 16.Multiple pushing away pulls out 16 at upper X direction guiding rail 51 and lower X Direction guiding rail 52 diverse location applies active force to it.

Meanwhile, upper X direction guiding rail 51 and lower X direction guiding rail 52 are provided with above-mentioned first slide block 6.It is positioned at First slide block 6 of upper X direction guiding rail 51 can slide along upper X direction guiding rail 51, is positioned at lower X direction guiding rail 52 First slide block 6 can slide along lower X direction guiding rail 52.On upper X direction guiding rail 51 and lower X direction guiding rail 52 One slide block 6 quantity can be all one or more, under preferable case, and upper X direction guiding rail 51 and lower guide X The first slide block 6 quantity on rail 52 is identical.In present embodiment, upper X direction guiding rail 51 and lower X direction guiding rail The first slide block 6 quantity on 52 is two.

See you later Fig. 1, X to movable plate 7 simultaneously with two first slide blocks 6 and the positions being positioned at upper X direction guiding rail 51 Two the first fixing connections of slide blocks 6 in lower X direction guiding rail 52.

Now, X can be with four the first slide blocks 6 along upper X direction guiding rail 51 and lower X direction guiding rail to movable plate 7 52 levels are slided.

Above-mentioned Z-direction moving parts includes two Z-direction guide rails the 8, second slide block 9 and Z-direction movable plate 10.

Article two, Z-direction guide rail 8 is arranged at X the most along the vertical direction on movable plate 7.Meanwhile, two Z-directions are led Being provided with described second slide block 9 on rail 8, the second slide block 9 can slide up and down along Z-direction guide rail 8.Z-direction is moved Dynamic plate 10 is fixedly connected with the second slide block 9 laid respectively on two Z-direction guide rails 8.

Now, Z-direction movable plate 10 can move up and down along Z-direction guide rail 8 with the second slide block 9.

Described motor 11 is fixed on described Z-direction movable plate 10.

Under such configuration, motor 11 can move to differing heights along the vertical direction with Z-direction movable plate 10, and Can move in the horizontal direction to movable plate 7 with Z-direction movable plate the 10, second slide block 9, Z-direction guide rail 8 and X To horizontal direction diverse location, therefore, motor 11 motion of diverse location in perpendicular can be realized.

Support beam 12 is fixed on substrate 2.In present embodiment, support beam 12 is used for carrying Y-direction motion Assembly and workbench 15, same, support beam 12 need to have the dimensional stability of excellence, therefore, this enforcement In mode, support beam 12 uses granite part.

Support beam 12 extends between two feets 3.

The upper surface of support beam 12 has the Y-direction arranged along the longitudinal direction by face.Y-direction includes left Y by face Face is leaned on to by face 121 and right Y-direction.

Above-mentioned Y-direction moving parts is arranged in this support beam 12, and concrete, Y-direction moving parts includes left Y Direction guiding rail 131, right Y-direction guide rail 132 and the 3rd slide block 14.Left Y-direction guide rail 131 is resisted against to the right described Left Y-direction is by face 121.Right Y-direction guide rail 132 is resisted against described right Y-direction to the left by face.Described left Y Direction guiding rail 131 is arranged the most along the longitudinal direction with right Y-direction guide rail 132.It should be understood that left Y-direction guide rail 131 It is parallel to each other with right Y-direction guide rail 132.

Similar to moving parts with X, left Y-direction guide rail 131 is resisted against to the right described left Y-direction by face 121 And right Y-direction guide rail 132 is resisted against described right Y-direction to the left and can use existing various by the mode on face, For ensureing Assembly stability and precision, under preferable case, in present embodiment, on the left of left Y-direction guide rail 131 And be provided with to push away on support beam 12 upper surface on the right side of right Y-direction guide rail 132 and pull out 16.Described left Y-direction Pushing away on the left of guide rail 131 is pulled out 16 and is extruded to the right left Y-direction guide rail 131, make left Y-direction guide rail 131 to the right against Lean on face 121 in left Y-direction.Pushing away on the right side of described right Y-direction guide rail 132 is pulled out 16 and is extruded right Y-direction to the left and lead Rail 132, makes right Y-direction guide rail 132 be resisted against to the left by Y-direction by face.

Owing to above-mentioned left Y-direction guide rail 131 and right Y-direction guide rail 132 are strip, for finer regulation peace Dress precision, support beam 12 surface on the left of the most left Y-direction guide rail 131 and on the right side of right Y-direction guide rail 132 On be provided with multiple set gradually along the longitudinal direction push away and pull out 16.Multiple pushing away pulls out 16 at left Y-direction guide rail 131 With right Y-direction guide rail 132 diverse location, it is applied active force.

Above-mentioned left Y-direction guide rail 131, right Y-direction guide rail 132 extend to the most along the longitudinal direction two feets 3 it Between.

It is provided with described 3rd slide block 14 on described left Y-direction guide rail 131 and right Y-direction guide rail 132；It is positioned at The right slide block of left Y-direction guide rail 131 can slide along left Y-direction guide rail 131, is positioned at right Y-direction guide rail 132 3rd slide block 14 can slide along right Y-direction guide rail 132；Described the 3rd slide block being positioned at left Y-direction guide rail 131 14 and be positioned at the 3rd slide block 14 of right Y-direction guide rail 132 and all fix with described workbench 15 and be connected.

Now, workbench 15 can seesaw between two feets 3 with the 3rd slide block 14.

Workbench 15 is used for carrying and fixing workpiece to be added, and can be moved to not along the longitudinal direction by workpiece to be added Co-located.Damage for avoiding workbench 15 in the course of processing constantly to be impacted, under preferable case, In present embodiment, workbench 15 is granite part.

Electricity can be realized to the cooperation of moving parts, Y-direction moving parts and Z-direction moving parts by above-mentioned X Machine 11 and the workpiece to be added being fixed on workbench 15 relative motion in three dimensions.

Above-mentioned upper X direction guiding rail 51, lower X direction guiding rail the 52, first slide block 6, X lead to movable plate 7, Z-direction Rail the 8, second slide block 9, Z-direction movable plate 10, left Y-direction guide rail 131, right Y-direction guide rail the 132, the 3rd are sliding Block 14, Y-direction movable plate all can use material and the structure, the most usually ironcasting of routine, in order to letter Change processing technique.

The foregoing is only preferred embodiment of the present utility model, not in order to limit this utility model, All any amendment, equivalent and improvement etc. made within spirit of the present utility model and principle, all should Within being included in protection domain of the present utility model.

Claims (10)

1. a machine tool frame, it is characterised in that include substrate (2), feet (3), crossbeam (4) and support beam (12)；

Described feet (3) is fixed on substrate (2)；

Described crossbeam (4) is fixed in described feet (3), for installing the X of lathe to moving parts；

Described support beam (12) is fixed on described substrate (2), and support beam (12) is positioned at described crossbeam (4) lower section, for installing the Y-direction moving parts of lathe；

Described substrate (2), crossbeam (4) and support beam (12) are granite part；Described feet (3) is ironcasting.

Machine tool frame the most according to claim 1, it is characterised in that there is horizontally disposed X to by face on the leading flank of described crossbeam (4).

Machine tool frame the most according to claim 1, it is characterised in that the upper surface of described support beam (12) has the Y-direction arranged along the longitudinal direction by face.

4., according to the machine tool frame described in any one in claim 1-3, it is characterised in that described machine tool frame includes two described feets (3), said two feet (3) is oppositely arranged；

Described crossbeam (4) includes horizontally disposed horizontal part and two supporting parts downwardly extended from horizontal part two ends；Two supporting part correspondences respectively are fixed on two feets (3).

5. according to the machine tool frame described in any one in claim 1-3, it is characterised in that described machine tool frame also includes supporting platform (1)；

Described support platform (1) is fixed on substrate (2) lower section to support described substrate (2)；Described support platform (1) is granite part.

6. a lathe, it is characterised in that include that machine tool frame, X are to moving parts, Y-direction moving parts, Z-direction moving parts, motor (11) and workbench (15)；

Described machine tool frame is the machine tool frame as described in any one in claim 1-5；

Described X is arranged at crossbeam (4) to moving parts and above and is horizontally movable；

Described Y-direction moving parts is arranged at support beam (12) and above and can seesaw；

Described Z-direction moving parts is arranged at X and and can move up and down on moving parts；

Described motor (11) is arranged on described Z-direction moving parts and can move up and down with Z-direction moving parts；

Described workbench (15) is arranged on described Y-direction moving parts and can seesaw with Y-direction moving parts.

Lathe the most according to claim 6, it is characterised in that there is horizontally disposed X to by face on the leading flank of described crossbeam (4)；Described X to by face include upper X to by face (41) and lower X to by face (42)；

To moving parts, described X includes that upper X direction guiding rail (51), lower X direction guiding rail (52), the first slide block (6) and X are to movable plate (7)；

Described upper X direction guiding rail (51) downwardly against in described upper X to by face (41)；Described lower X direction guiding rail (52) upwards against in described lower X to by face (42)；Described upper X direction guiding rail (51) is the most horizontally disposed with lower X direction guiding rail (52)；

It is provided with described first slide block (6) on described upper X direction guiding rail (51) and lower X direction guiding rail (52)；The first slide block (6) being positioned at X direction guiding rail (51) can slide along upper X direction guiding rail (51), and the first slide block (6) being positioned at lower X direction guiding rail (52) can slide along lower X direction guiding rail (52)；

First slide block (6) of the described X of being positioned at direction guiding rail (51) and be positioned at first slide block (6) of lower X direction guiding rail (52) and be all connected to movable plate (7) is fixing with described X.

Lathe the most according to claim 7, it is characterised in that described Z-direction moving parts includes two Z-direction guide rails (8), the second slide block (9) and Z-direction movable plate (10)；

Described two Z-direction guide rails (8) are arranged at X the most along the vertical direction on movable plate (7)；

Being provided with described second slide block (9) on described two Z-direction guide rails (8), described second slide block (9) can slide up and down along Z-direction guide rail (8)；

Described Z-direction movable plate (10) is fixedly connected with the second slide block (9) laid respectively on two Z-direction guide rails (8)；

Described motor (11) is fixed on described Z-direction movable plate (10).

Lathe the most according to claim 6, it is characterised in that the upper surface of described support beam (12) has the Y-direction arranged along the longitudinal direction by face；By face, described Y-direction includes that left Y-direction leans on face by face (121) and right Y-direction；

Described Y-direction moving parts includes left Y-direction guide rail (131), right Y-direction guide rail (132) and the 3rd slide block (14)；

Described left Y-direction guide rail (131) is resisted against to the right described left Y-direction by face (121)；Described right Y-direction guide rail (132) is resisted against described right Y-direction to the left by face；Described left Y-direction guide rail (131) is arranged the most along the longitudinal direction with right Y-direction guide rail (132)；

It is provided with described 3rd slide block (14) on described left Y-direction guide rail (131) and right Y-direction guide rail (132)；The right slide block being positioned at left Y-direction guide rail (131) can slide along left Y-direction guide rail (131), and the 3rd slide block (14) being positioned at right Y-direction guide rail (132) can slide along right Y-direction guide rail (132)；

Described the 3rd slide block (14) being positioned at left Y-direction guide rail (131) and be positioned at that the 3rd slide block (14) of right Y-direction guide rail (132) is all fixing with described workbench (15) to be connected.

10. according to the lathe described in any one in claim 6-9, it is characterised in that described workbench (15) is ironcasting.