CN2603731Y - Digital control lathe for ceramics - Google Patents

Abstract

The utility model relates to a digital control lathe for ceramics and relates to a machine tool for the molding cutting processing. The purpose of the utility model is to solve the problems that when a metal machine tool is used for processing a ceramic workpiece, the service life is short, the output rate is low, the environment is badly polluted, etc. The lathe comprises a lathe body (1), a lubricating oil supply system (49), a digital control operating system (3), a main shaft (7) connected with a frequency conversion electrical motor (4) in a transmission mode, and a tailstock (13) connected with a tailstock guide rail (12) in a sliding mode. A longitudinal feed mechanism (14) is provided with a longitudinal guide rail (14) which is parallel to the tailstock guide rail. A big sliding plate (18) is connected with the longitudinal guide rail in a sliding mode and is connected with a longitudinal electrical motor (17) in a transmission mode by a screw rod and nut transmission mechanism. A lateral feed mechanism (20) is provided with a middle dragging plate which is connected with a lateral guide rail (21) on the big sliding plate in a sliding mode and is connected with a lateral electrical motor (23) in a transmission mode by the screw rod and nut transmission mechanism. A tool carrier (26) is connected with the middle dragging plate. A protective cover of the longitudinal feed mechanism and a protective cover of the lateral feed mechanism are arranged. The utility model is suitable for lathing a metal workpiece, and especially, a ceramic workpiece.

Description

The digital controlled ceramic lathe

Technical field

The utility model relates to the lathe, the particularly lathe of machining ceramic workpiece of forming and cutting processing.

Background technology

The turning processing of existing ceramic workpiece, adopt the lathe of traditional metal cutting processing, as the L-1630 fine turning lathe, by lathe bed, the motor and the headstock on lathe bed left end top, gear shift that motor is connected with spindle drive in the belt transmission headstock and gear change hand lever thereof.The feed box of lathe bed left end front side and wherein gear shift and gear change hand lever.It is right-hand along being the tailstock that is slidingly matched on the guide rail of lathe bed direction to be positioned at headstock, between headstock and tailstock and with guide rail, be the big cargo chute that is slidingly matched, be positioned at the slip crate that the lathe bed front side is connected with big cargo chute, the gear that is positioned at the slip crate of lathe bed front side and left end is in transmission connection and right part is installed in polished rod and screw mandrel (screw thread drive link) on the lathe bed with support, gear drive on polished rod and the big cargo chute is in transmission connection and is controlled by action bars, screw mandrel cooperates by the clasp nut action bars with clasp nut on the big cargo chute to be controlled, the middle carriage that cross slide way on the big cargo chute slides and is equipped with, formations such as the knife rest on the middle carriage.This lathe does not have dustproof facilities in addition, needs lubricated part such as feed box, headstock, big cargo chute, middle carriage, slip crate, screw mandrel and polished rod etc. all to adopt hand oiling lubricated.During the lathe operation, handle the gear change hand lever of headstock, the gear control speed of mainshaft in headstock cooperates the gear change hand lever of handling feed box, the rotating speed of gear in feed box control polished rod or screw mandrel, thus the control big cargo chute is a feed speed along the translational speed of guide rail.Cooperate with lathe tool on middle carriage and the knife rest thereof again, realize various turning processes.Because pottery adds the smear metal in man-hour and is dust-like or graininess and hard unusually, adopt this type of machined into ceramic workpiece, guide rail, big cargo chute and transmission mechanism wherein etc. are positioned at knife rest and promptly cut the below, position, do not have dust guard in addition, adding man-hour porcelain powder flies upward over the sky, the severe contamination processing district, the porcelain powder enters guide rail and motion, quickens the wearing and tearing of lathe, increase exercise load, reduce lathe service life, reduce lathe productivity ratio, strengthen production cost.

The utility model content

In view of above-mentioned, the purpose of this utility model is to provide a kind of processing ceramic workpiece, simple in structure, protection digital controlled ceramic lathe well of being suitable for.

The utility model adopts adjustable frequency motor to simplify drive mechanism, adopts the safeguard structure of two guide rails and each motion, and the prevention smear metal realizes its purpose to the wearing and tearing of lathe.

Digital controlled ceramic lathe of the present utility model (referring to accompanying drawing), comprise lathe bed (1), lubricating oil feed system (49), numerical control operating system (3), the base bearing (6) of lathe bed one end and main shaft (7) thereof, the tailstock (13) that is slidingly connected along the tailstock guide (12) of major axes orientation, the big cargo chute (18) of longitudinal feed mechanism (14), the middle carriage (23) that the cross slide way (21) with on the big cargo chute of crossfeed mechanism (20) is slidingly connected and is in transmission connection through screw-and-nut mechanism, the knife rest that is connected with middle carriage (26), variable-frequency motor on above-mentioned main shaft and the lathe bed (4) is in transmission connection, there is the longitudinal rail (15) on the lathe bed parallel with tailstock guide in above-mentioned longitudinal feed mechanism, big cargo chute and longitudinal rail are slidingly connected and the vertical motor (17) on screw-and-nut mechanism and lathe bed is in transmission connection, the cross motor (23) of above-mentioned middle carriage on screw-and-nut mechanism and big cargo chute is in transmission connection, longitudinal feed mechanism protective cover and crossfeed mechanism protective cover are arranged, above-mentioned variable-frequency motor, vertical motor, cross motor is electrically connected with the numerical control operating system.

Above-mentioned longitudinal feed mechanism protective cover can have two the inners to be connected with big cargo chute (18) two ends respectively, the outer end is connected with longitudinal screw (16) two ends of screw-and-nut mechanism respectively and covers and is buckled in the outer concertina dust cover (27) of longitudinal screw, two the inners are connected with the big cargo chute two ends respectively, the outer end is connected with longitudinal rail (15) two ends respectively and covers and is buckled in the dust cover (28) that longitudinal rail is the longitudinal rail that slipper seal connects outward, and two are connected with the longitudinal rail two ends respectively, with be that sealed sliding is dynamically connected week in the dust cover of longitudinal rail scrape bits plate (32).

Above-mentioned crossfeed mechanism protective cover can have two the inners to be connected with middle carriage (24) two ends respectively, the outer end is connected with transverse screw (22) two ends of screw-and-nut mechanism respectively and covers and is buckled in the outer concertina dust cover (35) of transverse screw, two the inners are connected with the middle carriage two ends respectively, the outer end is connected with cross slide way (21) two ends respectively and covers and is buckled in the dust cover (36) that cross slide way is the cross slide way that sealed sliding is dynamically connected outward, and two are connected with the cross slide way two ends respectively, with be scraping that slipper seal is connected week in the dust cover of cross slide way and consider plate (37) to be worth doing.

On the sealing strip of above-mentioned dust cover (28,36) with on the sealing strip of scraping bits plates (32,37) sealing strip (31,34,39) can be arranged.

Can there be gantry sealing plate (45) at the two ends of above-mentioned longitudinal feed mechanism (14), and sealing plate lower end, gantry can connect with longitudinal feed mechanism is that slipper seal is connected scrapes the bits plate, and scraping on the sealing strip of bits plate to have sealing strip (47).

This lathe can have cover to be buckled in the outer lathe piece cover (40) of lathe, and the extractor fan that is communicated with the lathe piece cover can be arranged.

Above-mentioned lubricating oil feed system (49) is communicated with separator (51), and separator can be respectively through taking over and being communicated with near longitudinal rail (15), longitudinal screw (16), cross slide way (21), the longitudinal rail oil nozzle (52) of transverse screw (22), longitudinal screw oil nozzle (53), cross slide way oil nozzle (54), transverse screw oil nozzle (55).

Above-mentioned variable-frequency motor (4) can be in transmission connection through belt gear and main shaft (7), and the tachogenerator (10) that is connected and is electrically connected with numerical control operating system (3) with spindle drive can be arranged.

Above-mentioned knife rest (26) can be the not cutter lifting formula electric driving tool post that is electrically connected with numerical control operating system (3).

Smear metal hopper (56) can be arranged at above-mentioned lathe bed (1) bottom, and the car that connects material (57) that cooperates with the smear metal hopper can be arranged.

Use the utility model, by the closed automatic operation in protector of numerical control operating system control lathe, during the lathe operation, Frequency Converter Control variable-frequency motor rotating speed, the workpiece rotation of transmission main shaft, workpiece chuck and clamping thereof; Control vertical motor, cross motor simultaneously and drive longitudinal feed mechanism and the operation of crossfeed mechanism, so drive knife rest together with cutting knife along coordinate in length and breadth with in length and breadth to coordinate feeding smear metal, realize that turning moves.Lathe lubricating oil feed system in service is automatically to each the motion supplying lubricating oil in protective cover.

The utility model has following advantage and effect compared with prior art.

One, the structure of variable-frequency motor of the present utility model, vertical motor, cross motor difference drive shaft, longitudinal feed mechanism, crossfeed mechanism, simplified lathe structure greatly, the headstock of traditional lathe and all gear, slip crate, feed change unit, gearbox, Pulley mechanism, drive link, leading screw, polished rod, action bars etc. have been cancelled, make this lathe become the gearless driving lathe, lathe noiseless in service, can reduce manufacturing cost significantly, reduce maintenance cost significantly, prolonged the service life of lathe.

Two, tailstock guide of the present utility model, longitudinal rail structure, the motion of workpiece motion s mechanism, clamping mechanism and cutter is separated, mutually noninterfere, be independent of each other, be convenient to the protection of each motion and lubricated, the lathe grinding district is the cavity that the knife rest lower zone can be designed to straight-through smear metal hopper in addition, and smear metal falls can directly enter the smear metal hopper.Thereby help keeping the machining accuracy of lathe, prolong the service life of lathe.

Three, screw rod concertina dust cover, the guide rail and the dust cover of longitudinal feed mechanism's protective cover of the present utility model and crossfeed mechanism protective cover and scrape bits plate, gasket structure, especially screw rod is carried out the bilayer protection, can prevent that the smear metal dust from entering in length and breadth to feed mechanism, can avoid smear metal dust soil to sneak into lubricating oil, thereby the machining accuracy that can keep lathe, the service life of prolongation lathe.Gantry of the present utility model sealing plate and scrape bits plate, gasket structure prevents that the smear metal dust from releasing cutting region.Lathe piece cover structure of the present utility model can prevent that the smear metal dust from leaking into the outer non-processing space of lathe.Extractor fan detaches lathe and factory building with the smear metal dust.Thereby the formation multilayer proofing, with the smear metal dust to each kinematic pair infringement reduce to minimumly, keep the machining accuracy of lathe to greatest extent, prolong the service life of lathe, reduce the pollution of noise and smear metal dust to surrounding environment.

Four, the oil nozzle structure in lubricating oil feed system of the present utility model, separator, the protective cover; can be under the protection of protective cover automatically, fixed point, lubricated each motion of supplying lubricating oil regularly; help keeping the machining accuracy of lathe, prolong the service life of lathe.

Five, smear metal hopper of the present utility model, bassinet structure connects material, make the ceramic smear metal of cutting generation and unnecessary blank fall to entering in the car that connects material automatically through the smear metal hopper, the car that connects material can keep clean environment easily in a turnover that connects material, convenient ceramic blank of recovery and utilization again thereof.

The utility model is applicable to turning processing metal workpiece, is specially adapted to turning processing ceramic workpiece.

Below, the utility model is further described to use embodiment and accompanying drawing thereof again.

Description of drawings

Fig. 1 is the structural representation of a kind of digital controlled ceramic lathe of the present utility model.Show the contour structures of whole dust cover.

Fig. 2 be Fig. 1 removal lathe piece cover in the middle of structural representation after partly.

Fig. 3 is the schematic diagram after the removal lathe piece cover of Fig. 1.

Fig. 4 is the vertical view after the removal lathe piece cover of Fig. 1.

Fig. 5 is overlooking and partial sectional view behind the removal lathe piece cover end face of Fig. 1.

Fig. 6 is the enlarged drawing that the A portion among Fig. 5 analyses and observe.

Fig. 7 is that the left side after the removal lathe piece cover of Fig. 1 is looked.

Fig. 8 is the longitudinal feed mechanism protective cover of Fig. 1 and the structural representation of crossfeed mechanism protective cover.

Fig. 9 is knife rest, the longitudinal feed mechanism of Fig. 1, the structural representation of crossfeed mechanism.

Figure 10 is the left view of Fig. 9.

Figure 11 is the C portion enlarged drawing of Fig. 9.

Figure 12 is the D portion enlarged drawing of Figure 10.

Figure 13 is the B portion enlarged drawing of Fig. 9.

The specific embodiment

Embodiment 1

A kind of digital controlled ceramic lathe of the present utility model, as shown in drawings.Constitute by lathe bed, numerical control operating system, variable-frequency motor, main shaft, tailstock guide, tailstock, longitudinal feed mechanism, crossfeed mechanism, knife rest, protective cover, extractor fan, lubricating oil feed system, smear metal hopper, the car that connects material etc.

Above-mentioned lathe bed 1 referring to Fig. 3,4,5,7, is the lathe bed structure of common lathe, and the rear side of lathe bed fixedly mounts the electrical control cubicles 2 of common structure, the common numerical control operating system 3 of suitable position fixed installation above lathe bed.Lathe bed left end bottom fixed installation variable-frequency motor 4.The left end of lathe bed table top front portion is installed main spindle box 5 with bolting.The two ends of main spindle box have base bearing 6 respectively, and base bearing adopts common angular contact ball bearing and uses grease lubrication.Rely on base bearing that main shaft 7 is installed.Main spindle box is stretched out at the two ends of main shaft, and right-hand member is installed common workpiece chuck, and the belt pulley 8 of left end is in transmission connection with V belt 9 with the belt pulley on the variable-frequency motor axle.Common tachogenerator 10 is housed on the left surface of main spindle box, is in transmission connection with common synchronizing jugged belt 11 and main shaft 7.Tachogenerator is electrically connected with numerical control operating system 3.With bolting tailstock guide 12 along major axes orientation is installed in the rearward end of the front portion of lathe bed table top, tailstock guide adopts common lathe guide rail structure, is the common tailstock 13 of installation that is slidingly matched on it.

Above-mentioned longitudinal feed mechanism 14, referring to Fig. 4,9,11, useful bolting is installed in lathe bed table top rear portion, the longitudinal rail 15 parallel with tailstock guide, longitudinal rail is made of the triangle muscle guide rail and the level gauge that are parallel to each other.The longitudinal screw 16 that parallels is arranged between triangle muscle guide rail and level gauge, and the left end of longitudinal screw is connected with vertical motor 17 on being fixedly mounted on lathe bed, and right-hand member is installed on the lathe bed with bearing.Longitudinal screw adopts the ball screw structure.Vertically motor adopts common servomotor.The big cargo chute 18 that is the common structure of installation that is slidingly matched on longitudinal rail, the hard-wired nut 19 on the big cargo chute is the screw thread transmission with longitudinal screw and cooperates.Above-mentioned longitudinal screw and nut constitute screw-and-nut mechanism.

Above-mentioned crossfeed mechanism 20, referring to Fig. 4,5,6,9, have and be fixedly mounted on the big cargo chute 18 cross slide way that be dovetail type structure 21 perpendicular with longitudinal rail 15, be installed in the transverse screw 22 of big cargo chute upper edge cross slide way with common structure, the rear end of transverse screw is connected with hard-wired cross motor 23 on the big cargo chute 18, and transverse screw adopts the ball screw structure.Cross motor adopts common servomotor.The middle carriage 24 that is the common structure of installation that is slidingly matched on cross slide way, the nut 25 on the middle carriage is the screw thread transmission with transverse screw 22 and cooperates.Above-mentioned transverse screw and nut constitute screw-and-nut mechanism.

Above-mentioned knife rest 26 referring to Fig. 3,4, adopts common not cutter lifting formula electric driving tool post.

Above-mentioned protective cover has longitudinal feed mechanism protective cover, crossfeed mechanism protective cover, gantry sealing plate, lathe piece cover etc.

Above-mentioned longitudinal feed mechanism protective cover referring to Fig. 4,8,9,10,12, has the dust cover of the concertina dust cover of two longitudinal screws, two longitudinal rails and scrapes the bits plate.Two concertina dust covers 27 are all cylindrical, are installed in the longitudinal screw 16 that is positioned at two ends, big cargo chute 18 left and right sides respectively.The inner of two concertina dust covers is connected with the big cargo chute two ends respectively, the outer end is connected with the longitudinal screw two ends respectively.The dust cover 28 of two longitudinal rails is the bar shaped of under shed, and its cross section is the ∏ shape of contracting in the both sides, bottom, covers the longitudinal rail 15 of button bit in two ends, big cargo chute 18 left and right sides respectively.The inner of two dust covers is connected with the big cargo chute two ends respectively, the outer end is connected with the two ends of longitudinal rail respectively, and the sealing strip 31 that the sealing strip 29 usefulness screws 30 of both sides connect is sealed with the both sides of longitudinal rail 15 and is slidingly matched.Plate 32 is considered in scraping of two longitudinal rails to be worth doing, the transverse shape that is above-mentioned dust cover inner chamber, be positioned at the two ends of longitudinal rail and use screw 33 to fixedly connected with longitudinal rail 15 two ends respectively, scrape the dual-side of bits plate and the inwall kissing of top and above-mentioned dust cover 28 and be combined into sealing strip, sealing strip 34 is installed on sealing strip is sealed sliding movingly with the dust cover inwall.The bottom of scraping the bits plate also is equipped with sealing strip 34.Two sealing strips 34 are into a single integrated structure.

Above-mentioned crossfeed mechanism protective cover, referring to Fig. 4,6,8,13, structure is identical with longitudinal feed mechanism protective cover.The dust cover of the concertina dust cover of two transverse screws, two cross slide waies is arranged and scrape the bits plate.Two concertina dust covers 35 are all cylindrical, are installed in the transverse screw 22 that is positioned at the middle carriage two ends respectively.The inner of two concertina dust covers is connected with middle carriage 24 two ends respectively, the outer end is connected with the transverse screw two ends respectively.The dust cover 36 of two cross slide waies 21 is the bar shaped of under shed, and its cross section is the ∏ shape of contracting in the both sides, bottom, covers the cross slide way of button bit in the middle carriage two ends respectively.The inner of two dust covers is connected with the middle carriage two ends respectively, the outer end is connected with the two ends of cross slide way respectively, and the sealing strip of both sides is the sealed (not shown) that is slidingly matched with the sealing strip of screw connection and the both sides of cross slide way.Plate 37 is considered in scraping of two cross slide waies to be worth doing, the transverse shape that is above-mentioned dust cover inner chamber, be positioned at the two ends of cross slide way and use screw 38 to fixedly connected with cross slide way 21 two ends respectively, scrape the dual-side of bits plate and the inwall kissing of top and above-mentioned dust cover and be combined into sealing strip, sealing strip 39 is installed on sealing strip is sealed sliding movingly with the dust cover inwall.The bottom of scraping the bits plate also is equipped with sealing strip 39.Two sealing strips 39 are into a single integrated structure

Above-mentioned lathe piece cover 40 referring to Fig. 1,2,5, is made up of preceding dust cover 41 and back dust cover 42, and integrally cover is buckled in outside the lathe, and shape and lathe peripheral shape match.There is moving door 43 at the middle part on the front side of preceding dust cover, and the top configurable number control operation system 3 of right part, bottom are dodge gate 44.The extractor fan (not shown) that is communicated with the lathe piece cover is arranged in addition, and extractor fan is made of common airduct and air exhauster etc.

Above-mentioned gantry sealing plate 45 referring to Fig. 2,5, has two, is to erect the two ends, the left and right sides that shape lays respectively at longitudinal feed mechanism, fixedlys connected with the lathe piece cover.The lower end of gantry sealing plate is connected with screw and scrapes the bits plate, scrapes the sealing strip 47 installed with screw 46 on the sealing strip of lower end of bits plate and the dust cover 28 of plate longitudinal rail and is sealed sliding movingly.Gantry sealing plate on right side right-hand also has one to fixedly connected, be the right side of erectting shape with the lathe piece cover and scrape bits plate 48, and it is identical with the structure of gantry sealing plate that the structure of considering plate to be worth doing is scraped on the right side, and its lower end is connected with sealing strip with screw.

Above-mentioned lubricating oil feed system 49, referring to Fig. 5, adopt common structure, be installed in the rear lateral portion of lathe bed, and with taking over the separator 51 that 50 connections are installed in the common structure at lathe bed rear side middle part, separator is respectively again through taking over and being communicated with near longitudinal rail 15, longitudinal screw 16, cross slide way 21, the longitudinal rail oil nozzle 52 of transverse screw 22, longitudinal screw oil nozzle 53, cross slide way oil nozzle 54, transverse screw oil nozzle 55.

Above-mentioned variable-frequency motor 4, vertical motor 17, cross motor 23, knife rest 26, lubricating oil feed system 49 and separator 51 thereof are electrically connected with electrical control cubicles 2 and numerical control operating system 3.

Referring to Fig. 2, above-mentioned smear metal hopper 56 is positioned at the middle and lower part of lathe bed, is infundibulate, and the table top of the suitable for reading and lathe bed of funnel joins, and is positioned at below, lathe grinding district.Below the smear metal hopper, dispose the common hand propelled car 57 that connects material, be used to collect ceramic smear metal, utilize again.

As above constitute this numerical control pottery lathe.

Present embodiment is specially adapted to turning processing ceramic workpiece.

Claims (10)

1, a kind of digital controlled ceramic lathe, comprise lathe bed (1), lubricating oil feed system (49), numerical control operating system (3), the base bearing (6) of lathe bed one end and main shaft (7) thereof, the tailstock (13) that is slidingly connected along the tailstock guide (12) of major axes orientation, the big cargo chute (18) of longitudinal feed mechanism (14), the middle carriage (23) that the cross slide way (21) with on the big cargo chute of crossfeed mechanism (20) is slidingly connected and is in transmission connection through screw-and-nut mechanism, the knife rest that is connected with middle carriage (26), it is characterized in that the variable-frequency motor (4) on above-mentioned main shaft and the lathe bed is in transmission connection, there is the longitudinal rail (15) on the lathe bed parallel with tailstock guide in above-mentioned longitudinal feed mechanism, big cargo chute and longitudinal rail are slidingly connected and the vertical motor (17) on screw-and-nut mechanism and lathe bed is in transmission connection, the cross motor (23) of above-mentioned middle carriage on screw-and-nut mechanism and big cargo chute is in transmission connection, longitudinal feed mechanism protective cover and crossfeed mechanism protective cover are arranged, above-mentioned variable-frequency motor, vertical motor, cross motor is electrically connected with the numerical control operating system.

2, digital controlled ceramic lathe according to claim 1, it is characterized in that the protection of said longitudinal feed mechanism is covered with two the inners and is connected with big cargo chute (18) two ends respectively, the outer end is connected with longitudinal screw (16) two ends of screw-and-nut mechanism respectively and covers and is buckled in the outer concertina dust cover (27) of longitudinal screw, two the inners are connected with the big cargo chute two ends respectively, the outer end is connected with longitudinal rail (15) two ends respectively and covers and is buckled in the dust cover (28) that longitudinal rail is the longitudinal rail that slipper seal connects outward, and two are connected with the longitudinal rail two ends respectively, with be that sealed sliding is dynamically connected week in the dust cover of longitudinal rail scrape bits plate (32).

3, digital controlled ceramic lathe according to claim 1, it is characterized in that the protection of said crossfeed mechanism is covered with two the inners and is connected with middle carriage (24) two ends respectively, the outer end is connected with transverse screw (22) two ends of screw-and-nut mechanism respectively and covers and is buckled in the outer concertina dust cover (35) of transverse screw, two the inners are connected with the middle carriage two ends respectively, the outer end is connected with cross slide way (21) two ends respectively and covers and is buckled in the dust cover (36) that cross slide way is the cross slide way that sealed sliding is dynamically connected outward, and two are connected with the cross slide way two ends respectively, with be scraping that slipper seal is connected week in the dust cover of cross slide way and consider plate (37) to be worth doing.

4,, it is characterized in that on the sealing strip of said dust cover (28,36) and scrape on the sealing strip of bits plates (32,37) that sealing strip (31,34,39) is arranged according to claim 2 or 3 described digital controlled ceramic lathes.

5, according to claim 1,2 or 3 described digital controlled ceramic lathes, there is gantry sealing plate (45) at the two ends that it is characterized in that said longitudinal feed mechanism (14), sealing plate lower end, gantry connects with longitudinal feed mechanism is that slipper seal is connected scrapes the bits plate, and scraping on the sealing strip of considering plate to be worth doing has sealing strip (47).

6, digital controlled ceramic lathe according to claim 1 is characterized in that having cover to be buckled in the outer lathe piece cover (40) of lathe, and the extractor fan that is communicated with the lathe piece cover is arranged.

7, digital controlled ceramic lathe according to claim 1, it is characterized in that said lubricating oil feed system (49) is communicated with separator (51), separator is respectively through taking over and being communicated with near longitudinal rail (15), longitudinal screw (16), cross slide way (21), the longitudinal rail oil nozzle (52) of transverse screw (22), longitudinal screw oil nozzle (53), cross slide way oil nozzle (54), transverse screw oil nozzle (55).

8, digital controlled ceramic lathe according to claim 1 is characterized in that said variable-frequency motor (4) is in transmission connection through belt gear and main shaft (7), has the tachogenerator (10) that is connected and is electrically connected with numerical control operating system (3) with spindle drive.

9, digital controlled ceramic lathe according to claim 1 is characterized in that said knife rest (26) is the not cutter lifting formula electric driving tool post that is electrically connected with numerical control operating system (3).

10, digital controlled ceramic lathe according to claim 1 is characterized in that smear metal hopper (56) is arranged at said lathe bed (1) bottom, has the car that connects material (57) that cooperates with the smear metal hopper.

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