CN214290873U - Numerical control lathe easy to clean - Google Patents

Abstract

The utility model relates to an easy numerical control lathe of clearance, including one side open-ended lathe, be used for closed lathe open-ended guard gate, set up numerical control device on the lathe, install the double-layered material device in the lathe, install turning device in the lathe and install the cooling body in the lathe, be provided with the protection machanism who prevents the piece and splash in the lathe, protection machanism includes first arc screen panel and with first arc screen panel articulated second arc screen panel, first arc screen panel both ends are fixed with the lateral wall of lathe both sides respectively, it all is located the space that first arc screen panel and second arc screen panel enclose to press from both sides material device, turning device and cooling body. In this application, first arc screen panel encloses into an annular space and surrounds the work piece with second arc screen panel jointly to this piece that produces the processing has played good interception effect, has reduced the probability that the processing piece splashes everywhere in the lathe, has reduced staff's the clearance degree of difficulty.

Description

Numerical control lathe easy to clean

Technical Field

The application relates to the technical field of lathes, in particular to a numerical control lathe easy to clean.

Background

The numerically controlled lathe is one of the widely used numerically controlled machines at present, and is mainly used for cutting and processing inner and outer cylindrical surfaces of shaft parts or disc parts, inner and outer conical surfaces with any taper angle, inner and outer curved surfaces of complex rotation, cylinders, conical threads and the like, and can perform grooving, drilling, reaming, boring and the like.

Chinese patent that prior art's bulletin number is CN205496572U discloses a numerical control lathe, which comprises a lathe, install turning device and clamp material device on the lathe, the guard gate is installed to lathe one side, install numerical control device, searchlight, siren and manometer on the lathe, just the chassis is installed to the lathe bottom, install observation window and handle on the guard gate, last numerical control operating panel and the numerical control device switch of installing of numerical control device, install garbage collection dish on the chassis, just the gyro wheel is installed to the chassis bottom.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: in the process of grinding a workpiece by using the numerically controlled lathe, some machining chips are usually generated, and the machining chips are easy to splash around the lathe, so that the cleaning difficulty of workers is increased.

SUMMERY OF THE UTILITY MODEL

In order to reduce the probability that the processing piece splashes everywhere on the lathe, reduce staff's the clearance degree of difficulty, this application provides a numerical control lathe of easily clearing up.

The application provides a numerical control lathe who easily clears up adopts following technical scheme:

the utility model provides an easily clear up numerical control lathe, includes one side open-ended lathe, is used for closed lathe open-ended guard gate, sets up numerical control device on the lathe, installs the material device that presss from both sides in the lathe, installs the turning device in the lathe and installs the cooling body in the lathe, be provided with the protection machanism who prevents the piece and splash in the lathe, protection machanism includes first arc screen panel and with first arc screen panel articulated second arc screen panel, first arc screen panel both ends are fixed with the lateral wall of lathe both sides respectively, it all is located the space that first arc screen panel and second arc screen panel enclose to press from both sides material device, turning device and cooling body.

Through adopting above-mentioned technical scheme, when carrying out lathe work to the work piece, the work piece that presss from both sides the material device and will treat processing presss from both sides tightly, and the turning device carries out lathe work to the work piece, and first arc screen panel encloses into an annular space and surrounds the work piece with second arc screen panel jointly to this has played good interception effect to the piece that processing produced, has reduced the probability that processing piece splashes everywhere in the lathe, has reduced staff's the clearance degree of difficulty.

Optionally, an articulated shaft between the first arc-shaped mesh enclosure and the second arc-shaped mesh enclosure is located at the top of the first arc-shaped mesh enclosure, an adsorption component is installed on the first arc-shaped mesh enclosure and the second arc-shaped mesh enclosure together, the adsorption component comprises a first magnetic block fixed to the bottom of the first arc-shaped mesh enclosure and a second magnetic block fixed to the bottom of the second arc-shaped mesh enclosure, and the second magnetic block and the first magnetic block are magnetically attracted.

Through adopting above-mentioned technical scheme, the top and the first arc screen panel of second arc screen panel are articulated, and the second magnetic path of second arc screen panel bottom and the first magnetic path magnetism of first arc screen panel bottom attract mutually to this has strengthened the stability of first arc screen panel and second arc screen panel in the work piece course of working. After the work piece processing was accomplished, the staff only need to the application of force to second arc screen panel to this makes second arc screen panel rotate around the articulated shaft of second arc screen panel, can clear up the piece in second arc screen panel and the first arc screen panel enclosure one-tenth space.

Optionally, still install jointly on first arc screen panel and the second arc screen panel and consolidate the subassembly, consolidate the subassembly and include the pole of buckling fixed bottom the first arc screen panel, with the tourus of buckling the pole end part fixed, with the connecting rod of second arc screen panel bottom fixed, with the fixed sleeve pipe of connecting rod lower extreme and run through the bolt that sets up on the tourus and with sleeve pipe threaded connection, the circumscribed circle area of bolt head is greater than the internal diameter of tourus.

Through adopting above-mentioned technical scheme, for the stability of being connected between first arc screen panel of reinforcing and the second arc screen panel, the staff only need run through the tourus with the bolt after, with bolt and sleeve pipe threaded connection can.

Optionally, a string for connecting the bolt is fixed at the bottom of the second arc mesh enclosure.

Through adopting above-mentioned technical scheme, connect through the string between bolt and the second arc screen panel bottom to this has reduced the probability that the bolt is lost.

Optionally, install the mechanism of lifting by crane in the lathe, the mechanism of lifting by crane includes coupling assembling and drive assembly, coupling assembling is including rotating the lifting rope who installs in the axis of rotation at lathe top and connecting axis of rotation and second arc screen panel, the axis of rotation is parallel with the axis of second arc screen panel articulated shaft, drive assembly can order about the axis of rotation and rotate.

Through adopting above-mentioned technical scheme, when needing to open second arc screen panel, the staff only needs order about the axis of rotation through drive assembly and rotate to this makes the lifting rope upwards stimulate second arc screen panel, and makes second arc screen panel rotate around its articulated shaft, thereby the second arc screen panel of being convenient for is opened, so that the staff clears up the piece of second arc screen panel and first arc screen panel interception.

Optionally, the driving assembly includes a motor fixed on the top of the lathe, a driving gear fixedly sleeved on an output shaft of the motor, and a driven gear fixedly sleeved on the rotating shaft and engaged with the driving gear.

Through adopting above-mentioned technical scheme, when needing to use drive assembly to order about the axis of rotation and rotate, the staff only need open the motor, and the motor drives the driving gear after the work and rotates to this makes driven gear with driving gear meshing and all rotates with the fixed axis of rotation of driven gear, thereby is convenient for play the lifting rope and winds tightly in the axis of rotation, so that play the lifting rope and pull open second arc screen panel.

Optionally, a plurality of limiting rings are fixed at the edge of the second arc-shaped mesh enclosure, and the lifting rope sequentially penetrates through the limiting rings.

Through adopting above-mentioned technical scheme, the stop ring has played good limiting displacement to the lifting rope, has reduced the probability that the lifting rope takes place to rock at the in-process that pulls open the second arc screen panel.

Optionally, install piece collection mechanism in the lathe, piece collection mechanism includes the direction otter board fixed with the lathe inner wall, the annular plate body fixed with the lathe inner wall and installs the receiver on the annular plate body, the height of direction otter board upper surface is steadilyd decrease to both sides from the middle part, annular plate body and receiver all are equipped with two and set up about direction otter board symmetry, the one end parallel and level at direction otter board middle part is kept away from to the upper end opening of receiver and direction otter board, a plurality of infiltration holes have all been seted up on the lateral wall and the diapire of receiver.

Through adopting above-mentioned technical scheme, carrying out the abrasive machining in-process to the work piece, need adopt cooling structure to cool down, the coolant liquid is dripped by the mesh on first arc screen panel and the second arc screen panel, later by the mesh on the direction otter board on dripping to the interior diapire of lathe, second arc screen panel opens the back, and the piece rolls to collecting in the box along the inclined plane at direction otter board top to this is convenient for the staff to the piece clearance of concentrating.

In summary, the present application includes at least one of the following beneficial technical effects:

in the application, the first arc-shaped mesh enclosure and the second arc-shaped mesh enclosure jointly enclose an annular space and enclose a workpiece, so that good interception effect on chips generated by machining is achieved, the probability of splashing of the machined chips in the lathe is reduced, and the cleaning difficulty of workers is reduced;

in the application, after the worker penetrates the bolt through the annular body and connects the bolt with the sleeve through the thread, the head of the bolt has a good limiting effect on the annular body, and the connection stability between the first arc-shaped net cover and the second arc-shaped net cover is enhanced;

in this application, the coolant liquid in the course of working is dripped by the mesh on first arc screen panel and the second arc screen panel, on the interior diapire of lathe is dripped by the mesh on the direction otter board afterwards, and the back is opened to second arc screen panel, and the piece rolls along the inclined plane at direction otter board top and falls to collecting in the box to the staff concentrates the clearance.

Drawings

FIG. 1 is a schematic structural diagram of a numerically controlled lathe easy to clean according to an embodiment of the present application.

FIG. 2 is a cross-sectional view of an easy-to-clean numerically controlled lathe of an embodiment of the present application.

Fig. 3 is a partially enlarged schematic view of a portion a in fig. 2.

Description of reference numerals: 1. turning a lathe; 11. a protective door; 12. a fixing plate; 13. a liquid discharge pipe; 2. a numerical control device; 3. a material clamping device; 4. turning a device; 5. a cooling mechanism; 6. a protection mechanism; 61. a first arc net cover; 62. a second arc net cover; 621. a string; 622. a limiting ring; 7. a hoisting mechanism; 71. a connecting assembly; 711. a rotating shaft; 712. lifting a lifting rope; 72. a drive assembly; 721. a motor; 722. a driving gear; 723. a driven gear; 8. a debris collection mechanism; 81. guiding the screen plate; 82. an annular plate body; 83. a storage box; 831. a water seepage hole; 9. an adsorption component; 91. a first magnetic block; 92. a second magnetic block; 10. a reinforcement assembly; 101. a bending rod; 102. a torus; 103. a connecting rod; 104. a sleeve; 105. and (4) bolts.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses numerical control lathe who easily clears up. Referring to fig. 1, an easy-to-clean numerically controlled lathe 1 includes a lathe 1, a protective door 11, a numerically controlled device 2, a material clamping device 3, a turning device 4, a cooling mechanism 5, a protective mechanism 6, a hoisting mechanism 7, and a debris collecting mechanism 8. An opening is arranged on one side of the lathe 1, and a protective door 11 is arranged on the lathe 1 and used for closing the opening of the lathe 1. The numerical control device 2 is arranged on the lathe 1, the clamping device 3 is fixed on the inner wall of one side of the lathe 1, and the clamping device 3 can clamp a workpiece to be processed. The turning device 4 and the cooling mechanism 5 are both fixed on the inner wall of the other side of the lathe 1, the turning device 4 processes the clamped workpiece to be processed, and the cooling mechanism 5 generates a good cooling effect on the processed workpiece.

Referring to fig. 1, the guard mechanism 6 is installed in the lathe 1 for preventing the splash of the chips, and the guard mechanism 6 includes a first arc net cover 61 and a second arc net cover 62. The first arc-shaped mesh enclosure 61 is a mesh structure with a semicircular cross section, the axial direction of the mesh structure is parallel to the length direction of the lathe 1, and two ends of the first arc-shaped mesh enclosure 61 are respectively fixed with the inner walls of two sides of the lathe 1. The second arc-shaped mesh enclosure 62 is also of a mesh structure with a semicircular cross section, the axis of the second arc-shaped mesh enclosure is parallel to the axis of the first arc-shaped mesh enclosure 61, the top of the second arc-shaped mesh enclosure 62 is hinged to the top of the first arc-shaped mesh enclosure 61, the bottom of the second arc-shaped mesh enclosure 62 is abutted to the first arc-shaped mesh enclosure 61, the second arc-shaped mesh enclosure 62 and the first arc-shaped mesh enclosure 61 jointly enclose a hollow cylindrical space, and the clamping device 3, the turning device 4 and the cooling mechanism 5 are all located in the space. Second arc screen panel 62 and first arc screen panel 61 mating reaction to this piece to the processing production has played good interception effect, has reduced the probability that the piece splashes everywhere in lathe 1, is favorable to the staff to the piece to concentrate the clearance.

Referring to fig. 2, in order to enhance the stability of the connection between the second arc mesh enclosure 62 and the first arc mesh enclosure 61, the first arc mesh enclosure 61 and the second arc mesh enclosure 62 are commonly provided with the adsorption assembly 9, and the adsorption assembly 9 includes a first magnetic block 91 and a second magnetic block 92. The first magnetic block 91 and the second magnetic block 92 are both rectangular magnetic blocks, the first magnetic block 91 is fixed to the bottom of the first arc-shaped mesh enclosure 61, the second magnetic block 92 is fixed to the bottom of the second arc-shaped mesh enclosure 62, and the second magnetic block 92 and the first magnetic block 91 are magnetically attracted to each other, so that the stability of connection between the bottom of the second arc-shaped mesh enclosure 62 and the bottom of the first arc-shaped mesh enclosure 61 is enhanced, and the probability that the second arc-shaped mesh enclosure 62 is automatically opened in the using process is reduced.

Referring to fig. 2 and 3, in order to further enhance the connection stability between the second arc mesh enclosure 62 and the first arc mesh enclosure 61, the reinforcing component 10 is further mounted on the first arc mesh enclosure 61 and the second arc mesh enclosure 62 together, and the reinforcing component 10 includes a bending rod 101, a circular ring 102, a connecting rod 103, a sleeve 104 and a bolt 105. The bending rod 101 is an L-shaped rod structure, the upper end of the vertical portion of the bending rod is fixed to the bottom of the first arc-shaped mesh enclosure 61, and the horizontal portion of the bending rod 101 extends toward one side close to the bottom of the second arc-shaped mesh enclosure 62. The circular ring body 102 is of a circular ring-shaped structure, the axis of the circular ring body is parallel to the axis of the first arc-shaped mesh enclosure 61, and the outer wall of the circular ring body 102 is fixed with the end part of the horizontal part of the bending rod 101. The connecting rod 103 is also an L-shaped rod structure, the upper end of the vertical portion thereof is fixed to the bottom of the second arc-shaped mesh enclosure 62, and the horizontal portion of the connecting rod 103 extends toward the side close to the first arc-shaped mesh enclosure 61. The sleeve 104 is a circular tubular structure, the axis of the sleeve is coincident with the axis of the circular ring body 102, and the outer wall of the sleeve 104 is fixed with the horizontal part end of the connecting rod 103. The axis of bolt 105 and the coincidence of the axis of tourus 102, bolt 105 run through set up on tourus 102 and with tourus 102 clearance fit, and the circumscribed circle area of bolt 105 head is greater than the internal diameter of tourus 102. In the process of turning a workpiece, the bolt 105 penetrates through the annular body 102 and is in threaded connection with the sleeve 104, so that the connection effect between the first arc-shaped mesh enclosure 61 and the second arc-shaped mesh enclosure 62 is enhanced, and the probability of chip falling caused by the self-opening of the second arc-shaped mesh enclosure 62 is reduced.

Referring to fig. 3, in order to reduce the probability of losing the bolt 105 after being screwed off, a string 621 is fixed at the bottom of the second arc net cover 62, one end of the string 621 away from the second arc net cover 62 is fixed with the head of the bolt 105, and when the bolt 105 is screwed off, the string 621 at the bottom of the second arc net cover 62 lifts the bolt 105, so that the probability of losing the bolt 105 is reduced.

Referring to fig. 1, the hoisting mechanism 7 is installed in the lathe 1, and the hoisting mechanism 7 includes a connection assembly 71 and a drive assembly 72. The coupling assembly 71 includes a rotating shaft 711 and a lifting rope 712. The top of the lathe 1 is fixed with two fixed plates 12, and the two fixed plates 12 are respectively and symmetrically distributed on two sides of the opening of the lathe 1. The rotating shaft 711 is a round bar structure, the axis of the rotating shaft 711 is parallel to the axis of the first arc mesh enclosure 61, and two ends of the rotating shaft 711 penetrate through the two fixing plates 12 respectively and are rotatably connected with the fixing plates 12. One end of the lifting rope 712 is fixed to the side wall of the second arc mesh enclosure 62 far away from the first arc mesh enclosure 61, the other end of the lifting rope 712 is wound around the rotating shaft 711 and is fixed to the rotating shaft 711, and the two lifting ropes 712 are symmetrical in position.

Referring to fig. 1, the driving assembly 72 drives the rotating shaft 711 to rotate, and the driving assembly 72 includes a motor 721, a driving gear 722 and a driven gear 723. The motor 721 is fixed to the top of the lathe 1, and the axis of the output shaft of the motor 721 is parallel to the axis of the rotating shaft 711. The axis of the driving gear 722 coincides with the axis of the output shaft of the motor 721, and the driving gear 722 is sleeved on the output shaft of the motor 721 and fixed with the output shaft of the motor 721. The axis of the driven gear 723 coincides with the axis of the rotating shaft 711, the driven gear 723 is sleeved on the rotating shaft 711 and fixed with the rotating shaft 711, and the driven gear 723 is meshed with the driving gear 722. When the second arc net cover 62 needs to be opened and the processing chips in the second arc net cover 62 and the first arc net cover 61 need to be cleaned, the worker only needs to unscrew the bolt 105 and turn on the motor 721, and the motor 721 drives the driving gear 722 to rotate after working, so that the driven gear 723 engaged with the driving gear 722 and the rotating shaft 711 fixed with the driven gear 723 rotate, and the lifting rope 712 is gradually tightened on the rotating shaft 711, so that the second arc net cover 62 is pulled open and the processing chips are cleaned.

Referring to fig. 2, in order to reduce the probability that the lifting rope 712 shakes in the process of pulling the second arc net cover 62, the edge of the second arc net cover 62 is fixed with a plurality of limiting rings 622, the limiting rings 622 are uniformly distributed on the one-fourth circumference of the top of the second arc net cover 62, and the lifting rope 712 sequentially passes through the limiting rings 622, so that the lifting rope 712 is well limited, and the probability that the lifting rope 712 shakes in the process of lifting the second arc net cover 62 is reduced.

Referring to fig. 2, the debris collection mechanism 8 is installed in the lathe 1, and the debris collection mechanism 8 includes a guide mesh plate 81, an annular plate body 82, and a storage case 83. The cross section of the guide screen plate 81 is in an inverted V shape, the height of the upper surface of the guide screen plate 81 decreases from the middle to both sides, both ends of the guide screen plate 81 are respectively fixed with the inner walls of both sides of the lathe 1, and a plurality of meshes (not shown in the figure) are uniformly arranged on the guide screen plate 81. The annular plate 82 is a square ring structure, the outer wall of the annular plate is fixed with the inner wall of the lathe 1, and two annular plates 82 are arranged and are symmetrically arranged relative to the guide net plate 81. Storage box 83 is cuboid box-shaped structure, and it is installed in annular plate body 82, and the one end parallel and level at guide net plate 81 middle part is kept away from to storage box 83's upper end opening and guide net plate 81, and storage box 83's edge and the laminating of annular plate body 82 upper surface all have seted up a plurality of infiltration holes 831 on storage box 83's lateral wall and the diapire, and storage box 83 is equipped with two and sets up about guide net plate 81 symmetry. After the staff opened second arc screen panel 62, the piece dropped to direction otter board 81 on, rolled to collecting in receiver 83 afterwards to this is convenient for the staff and concentrates the clearance.

Referring to fig. 1, in order to facilitate the discharge of the coolant on the bottom wall of the lathe 1, a drain pipe 13 penetrates through the side wall of the lathe 1, the drain pipe 13 is of a circular pipe-shaped structure, and the drain pipe 13 is communicated with the inside of the lathe 1, so that the coolant added in the machining process can be discharged.

The implementation principle of the numerical control lathe 1 easy to clean is as follows: when turning the workpiece, the clamping device 3 clamps the workpiece to be machined, the turning device 4 turns the workpiece, the first arc-shaped mesh enclosure 61 and the second arc-shaped mesh enclosure 62 jointly enclose an annular space and surround the workpiece, so that chips generated by machining are well intercepted, the probability of splashing of the machined chips in the lathe 1 is reduced, and the difficulty in cleaning the workpiece is reduced. The second magnetic block 92 at the bottom of the second arc net cover 62 is magnetically attracted to the first magnetic block 91 at the bottom of the first arc net cover 61, so that the stability of the first arc net cover 61 and the second arc net cover 62 in the workpiece machining process is enhanced. When needing to clear up the processing piece in first arc screen panel 61 and the second arc screen panel 62, the staff only needs to unscrew bolt 105 and open motor 721, motor 721 drives driving gear 722 after the work and rotates, make driven gear 723 and axis of rotation 711 all rotate with this, thereby make lifting rope 712 tighten up on axis of rotation 711 gradually, so that pull open second arc screen panel 62, the piece drops to direction otter board 81 on, roll and collect in falling to receiver 83 afterwards, make things convenient for the staff to concentrate the clearance. In the process of grinding a workpiece, a cooling structure is required to be adopted for cooling, and cooling liquid is dripped from meshes on the first arc-shaped mesh enclosure 61 and the second arc-shaped mesh enclosure 62, and then dripped onto the inner bottom wall of the lathe 1 from meshes on the guide mesh plate 81 and is discharged from a liquid discharge pipe 13 on the lathe 1.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an easy numerical control lathe of clearance, includes one side open-ended lathe (1), is used for closed lathe (1) open-ended guard gate (11), sets up numerical control device (2) on lathe (1), installs clamping device (3) in lathe (1), installs turning device (4) in lathe (1) and installs cooling body (5) in lathe (1), its characterized in that: be provided with in lathe (1) and prevent protection machanism (6) that the piece splashes, protection machanism (6) include first arc screen panel (61) and with first arc screen panel (61) articulated second arc screen panel (62), first arc screen panel (61) both ends are fixed with the lateral wall of lathe (1) both sides respectively, press from both sides material device (3), turning device (4) and cooling body (5) and all be located the space that first arc screen panel (61) and second arc screen panel (62) enclose.

2. An easy to clean numerically controlled lathe as claimed in claim 1, wherein: articulated shaft between first arc screen panel (61) and second arc screen panel (62) is located first arc screen panel (61) top, install adsorption component (9) jointly on first arc screen panel (61) and second arc screen panel (62), adsorption component (9) include with first arc screen panel (61) bottom fixed first magnetic block (91) and with second arc screen panel (62) bottom fixed second magnetic block (92), just second magnetic block (92) and first magnetic block (91) magnetism attract mutually.

3. An easy-to-clean numerically controlled lathe as claimed in claim 2, wherein: still install jointly on first arc screen panel (61) and second arc screen panel (62) and consolidate subassembly (10), consolidate subassembly (10) including with first arc screen panel (61) bottom fixed pole of buckling (101), with buckle pole (101) end fixing's torus (102), with second arc screen panel (62) bottom fixed connecting rod (103), with connecting rod (103) lower extreme fixed sleeve pipe (104) and run through set up on torus (102) and with sleeve pipe (104) threaded connection's bolt (105), the external circle area of bolt (105) head is greater than the internal diameter of torus (102).

4. An easy to clean numerically controlled lathe as claimed in claim 3, wherein: and a string (621) for connecting a bolt (105) is fixed at the bottom of the second arc mesh enclosure (62).

5. An easy to clean numerically controlled lathe as claimed in claim 1, wherein: the lathe is characterized in that a hoisting mechanism (7) is installed in the lathe (1), the hoisting mechanism (7) comprises a connecting assembly (71) and a driving assembly (72), the connecting assembly (71) comprises a rotating shaft (711) rotatably installed at the top of the lathe (1) and a hoisting rope (712) connecting the rotating shaft (711) and the second arc-shaped mesh enclosure (62), the axis of the rotating shaft (711) is parallel to the axis of a hinged shaft of the second arc-shaped mesh enclosure (62), and the driving assembly (72) can drive the rotating shaft (711) to rotate.

6. An easy-to-clean numerically controlled lathe as claimed in claim 5, wherein: the driving assembly (72) comprises a motor (721) fixed at the top of the lathe (1), a driving gear (722) fixedly sleeved on an output shaft of the motor (721) and a driven gear (723) fixedly sleeved on a rotating shaft (711) and meshed with the driving gear (722).

7. An easy-to-clean numerically controlled lathe as claimed in claim 5, wherein: the edge of the second arc-shaped mesh enclosure (62) is fixed with a plurality of limiting rings (622), and the lifting rope (712) sequentially penetrates through the limiting rings (622).

8. An easy to clean numerically controlled lathe as claimed in claim 1, wherein: install piece collection mechanism (8) in lathe (1), piece collection mechanism (8) include with fixed direction otter board (81) of lathe (1) inner wall, with fixed annular plate body (82) of lathe (1) inner wall and install receiver (83) on annular plate body (82), the height of direction otter board (81) upper surface is steadilyd decrease to both sides from the middle part, annular plate body (82) and receiver (83) all are equipped with two and set up about direction otter board (81) symmetry, the one end parallel and level at direction otter board (81) middle part is kept away from with direction otter board (81) to the upper end opening of receiver (83), a plurality of infiltration holes (831) have all been seted up on the lateral wall and the diapire of receiver (83).

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