CN215144711U - Bearing ring machining lathe with function of detecting whether automatic feeding is in place or not - Google Patents

Abstract

The utility model provides a bearing ring processing lathe with detect automatic feeding has or not function of targetting in place, this bearing ring processing lathe with detect automatic feeding has or not function of targetting in place, through setting up correlation formula photoelectric sensor to set up photoelectric emitter and photoelectric receiver respectively in the relative both sides of main shaft mechanism. Therefore, after the manipulator feeds materials once, whether the bearing ring on the main shaft is successfully clamped or not can be judged in time according to whether the opposite light is cut off or not, the main shaft is prevented from idling for a long time and the lathe is in an idle running state, and therefore the machining efficiency can be improved. Before the next feeding of the manipulator, whether the bearing ring on the main shaft timely drops can be judged only according to whether the light rays shot in opposite directions are cut off, and the situation that the bearing ring is not discharged, the manipulator automatically feeds materials to cause workpiece touch damage and damage to the manipulator and a chuck is avoided, so that the processing quality of the bearing ring is improved, and the safety and reliability of the operation of a machine tool are guaranteed.

Description

Bearing ring machining lathe with function of detecting whether automatic feeding is in place or not

Technical Field

The utility model belongs to the technical field of bearing ring processing equipment, especially, relate to a bearing ring processing lathe with detect automatic feeding has or not function of targetting in place.

Background

In the automatic processing process of the bearing ring, when the material is automatically fed by a manipulator, the following two problems generally exist: firstly, because the workpiece is easy to generate faults due to blowing or clamping, when the chuck of the bearing ring processing lathe is opened, the workpiece is generally difficult to fall off from the main shaft mechanism in time, and the next clamping process is still automatically carried out, so that the workpiece is easy to touch and damage, and the manipulator and the chuck are damaged in serious cases; secondly, because the material clamping is easy to occur in the material loading channel, the workpiece cannot be smoothly transferred into the manipulator, and the bearing ring processing lathe generally cannot timely judge whether the workpiece is successfully clamped, so that the main shaft mechanism runs in an idle mode, the processing efficiency of the workpiece is seriously affected, and the energy waste is also caused.

SUMMERY OF THE UTILITY MODEL

An object of the embodiment of the utility model is to provide a bearing ring processing lathe with detect automatic feeding has or not target in place function to the work piece that exists among the solution prior art on the main shaft mechanism does not in time drop, causes the work piece damage, and manipulator and chuck damage to and be difficult to in time judge whether successful clamping of work piece, cause main shaft mechanism idle running, influence machining efficiency's technical problem.

In order to achieve the above object, the utility model adopts the following technical scheme: provided is a bearing ring processing lathe having a function of detecting whether automatic feeding is in place, including:

the lathe body comprises a support, an operating platform supported on the support, a spindle mechanism used for positioning a bearing ring and driving the bearing ring to rotate, a manipulator used for moving the bearing ring to the spindle mechanism, and a chuck used for clamping the bearing ring on the spindle mechanism, wherein the spindle mechanism and the manipulator are arranged on the operating platform, and the chuck is correspondingly arranged on a spindle of the spindle mechanism;

the turning assembly is used for turning the bearing ring on the main shaft mechanism and comprises a carriage mechanism arranged on an operating platform, a tool rest arranged on the carriage mechanism and a turning tool arranged on the tool rest; and

the opposite-type photoelectric sensor is used for detecting and judging whether the bearing ring is successfully clamped and/or sensing whether the bearing ring falls off from a main shaft of the main shaft mechanism, and comprises a photoelectric emitter and a photoelectric receiver which are respectively arranged on two opposite sides of the main shaft.

Further, the correlation type photoelectric sensor is a correlation type infrared sensor.

Furthermore, a first supporting arm is arranged on the operating platform along the height direction of the lathe body in an extending mode, a first strip hole used for adjusting the position of the photoelectric emitter and a first locking nut used for enabling the photoelectric emitter to be fixed on the first supporting arm in a pressing mode are arranged on the first supporting arm, the first strip hole extends along the height direction of the lathe body, the photoelectric emitter is arranged in the first strip hole in a penetrating mode, and a first external thread matched with the first locking nut in a threaded mode is arranged on the photoelectric emitter.

Furthermore, the outline of the photoelectric emitter is cylindrically arranged, a first jacket used for abutting against the first supporting arm is sleeved at the middle position of the photoelectric emitter, and the first external thread is arranged at one end of the photoelectric emitter.

Further, a first gasket is arranged between the first jacket and the first support arm.

Furthermore, a second support arm is arranged on the operating platform in an extending mode along the height direction of the lathe body, a second long-strip-shaped hole used for adjusting the position of the photoelectric receiver and a second locking nut used for enabling the photoelectric receiver to be fixed on the second support arm in a pressing mode are arranged on the second support arm, the second long-strip-shaped hole extends along the height direction of the lathe body, the photoelectric receiver penetrates through the second long-strip-shaped hole, and a second external thread in threaded fit with the second locking nut is arranged on the photoelectric emitter.

Furthermore, the outline of the photoelectric receiver is cylindrically arranged, a second jacket for abutting against the second support arm is sleeved at the middle position of the photoelectric receiver, and the second external thread is arranged at one end of the photoelectric receiver.

Further, a second gasket is arranged between the second jacket and the second support arm.

Further, the bearing ring processing lathe with the function of detecting whether the automatic feeding is in place further comprises an alarm for sending warning information when the correlation photoelectric sensor detects that the bearing ring is not in place for clamping and/or the induction bearing ring does not fall off the main shaft mechanism, and a controller for controlling the alarm to work according to a signal detected by the correlation photoelectric sensor, wherein the controller is respectively connected with the correlation photoelectric sensor and the alarm.

Further, the carriage mechanism comprises a first carriage which can be arranged on the operating platform in a sliding manner along a first direction, a first driving mechanism which drives the first carriage to move, a second carriage which can be arranged on the first carriage in a sliding manner along a second direction, and a second driving mechanism which drives the second carriage to move, wherein the first driving mechanism is arranged on the operating platform, the second driving mechanism is arranged on the carriage, and the tool rest is arranged on the second carriage.

The embodiment of the utility model provides an in above-mentioned one or more technical scheme, compare with prior art, have one of following beneficial effect at least:

the embodiment of the utility model provides an in bearing ring processing lathe that has detection automatic feeding function of targetting in place has or not through setting up correlation formula photoelectric sensor to set up correlation formula photoelectric sensor's photoelectric emitter and photoelectric receiver respectively in the relative both sides of main shaft mechanism. Therefore, after the manipulator feeds materials once, the manipulator can cut off the shot light rays so as to judge whether the bearing ring on the main shaft is successfully clamped or in place in time, avoid the main shaft from idling for a long time and avoid the lathe being in an idle running state, and further improve the processing efficiency. Before the next feeding of the manipulator, whether the bearing ring turned on the main shaft timely drops can be judged only according to whether the light rays shot by the manipulator are cut off, and the situation that the bearing ring is not dropped, the manipulator is prevented from being automatically fed to cause workpiece touch damage and damage to the manipulator and a chuck is avoided, so that the processing quality of the bearing ring is improved, and the safety and the reliability of the operation of a machine tool are guaranteed.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive labor.

Fig. 1 is a schematic structural view of a bearing ring processing lathe having a function of detecting whether automatic feeding is in place or not according to an embodiment of the present invention;

FIG. 2 is a partially enlarged schematic view of FIG. 1;

fig. 3 is a schematic perspective view of a carriage mechanism according to an embodiment of the present invention.

Wherein, in the figures, the respective reference numerals:

1-a lathe body; 11-a scaffold; 12-an operation table; 13-a spindle mechanism; 131-a main shaft; 132-a receiving groove;

2-turning the assembly; 21-a carriage mechanism; 211-a first carriage; 212-a first drive mechanism; 213-a second carriage; 214-a second drive mechanism; 22-a tool holder; 23-turning tool;

3-correlation type photoelectric sensor; 31-a photoemitter; 32-a photoelectric receiver;

4-a first support arm; 41-a first elongated hole;

5-a first locking nut; 6-first jacket; 7-a first gasket;

8-a second support arm; 81-a second elongated hole;

9-a second lock nut; 10-second jacket.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects to be solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that when an element is referred to as being "connected" or "disposed" to another element, it can be directly on the other element or be indirectly connected to the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise. The meaning of "a number" is one or more unless specifically limited otherwise.

Reference throughout this specification to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one embodiment of the present application. Thus, the appearances of the phrases "in one embodiment" or "in some embodiments" in various places throughout this specification are not necessarily all referring to the same embodiment. Furthermore, the particular features, structures, or characteristics may be combined in any suitable manner in one or more embodiments.

Referring to fig. 1 to fig. 3, a bearing ring machining lathe having a function of detecting whether an automatic feeding operation is in place according to an embodiment of the present invention will now be described. The embodiment of the utility model provides a bearing ring processing lathe with detect automatic feeding has or not to target in place function, including lathe body 1, turning subassembly 2 and correlation formula photoelectric sensor 3, lathe body 1 includes support 11, support operation panel 12 on support 11, a main shaft mechanism 13 for fixing a position the bearing ring and drive this bearing ring rotation, a manipulator (not shown) for moving the bearing ring to main shaft mechanism 13, and be used for clamping the chuck (not shown) of bearing ring dress clamp on main shaft mechanism 13, main shaft mechanism 13 and manipulator set up on operation panel 12, the chuck correspondence sets up on main shaft 131 of main shaft mechanism 13. The turning assembly 2 is used for turning a bearing ring on the spindle mechanism 13, and the turning assembly 2 includes a carriage mechanism 21 arranged on the operating table 12, a tool rest 22 arranged on the carriage mechanism 21, and a turning tool 23 mounted on the tool rest 22. The correlation photoelectric sensor 3 is used for detecting and determining whether the bearing ring is successfully clamped and/or sensing whether the bearing ring falls off from the main shaft 131 of the main shaft mechanism 13, and the correlation photoelectric sensor 3 includes a photoelectric emitter 31 and a photoelectric receiver 32 respectively arranged on two opposite sides of the main shaft 131. It can be understood that, when the bearing ring is turned, since the end of the main shaft 131 of the main shaft mechanism 13 is provided with the accommodating groove 132 for positioning the bearing ring, the bearing ring only needs to be moved into the accommodating groove 132 by the manipulator, one axial portion of the bearing ring is accommodated in the accommodating groove 132, the other axial portion of the bearing ring protrudes out of the accommodating groove 132, and then the bearing ring is clamped in the accommodating groove 132 of the main shaft 131 by the chuck, so that the light rays emitted between the photoelectric emitter 31 and the photoelectric receiver 32 pass through the center of the bearing ring on the main shaft 131. Thus, after the manipulator is fed once, if the opposite rays are cut off, the bearing ring on the main shaft 131 can be detected and judged to be successfully clamped, and the bearing ring on the main shaft 131 can be turned; if the opposite light is not cut off, the bearing ring on the main shaft 131 can be detected and judged to be not successfully clamped, an operator can timely know that the bearing ring is not successfully clamped according to a detection signal and can perform corresponding processing, and the main shaft 131 is prevented from idling and the lathe is prevented from idling, so that the machining efficiency is prevented from being influenced. Before the next feeding of the manipulator, if the light rays emitted from the manipulator are still blocked, detecting and judging that the bearing ring machined on the main shaft 131 does not fall off in time, and timely processing the bearing ring through manual operation to avoid workpiece touch damage and manipulator and chuck damage; if the opposite light is not cut off, the bearing ring after turning on the main shaft 131 is detected and judged to drop in time, and the manipulator carries out the next feeding action, so that the efficient processing of the workpiece is realized.

The embodiment of the utility model provides a bearing ring processing lathe with detect automatic feeding has or not function of targetting in place compares with prior art, through setting up correlation formula photoelectric sensor 3 to set up correlation formula photoelectric sensor 3's photoelectric emitter 31 and photoelectric receiver 32 respectively in the relative both sides of main shaft 131 of main shaft mechanism 13. Therefore, after the manipulator feeds materials once, the machining efficiency can be improved according to whether the opposite light rays are cut off or not, so that whether the bearing ring on the main shaft 131 is successfully clamped or clamped in place or not can be judged in time, and the main shaft 131 is prevented from idling for a long time and the lathe is in an idle running state. Before the next feeding of the manipulator, whether the bearing ring turned on the main shaft 131 timely drops can be judged only according to whether the light rays shot by the manipulator are cut off, so that the situation that the bearing ring is not dropped, the manipulator is automatically fed to cause the workpiece touch damage and the manipulator and the chuck damage is avoided, and the processing quality of the bearing ring is improved and the safety and reliability of the operation of the machine tool are ensured.

In some of the embodiments, the correlation photoelectric sensor 3 is a correlation infrared sensor. In other embodiments, the correlation photosensor 3 may also be a photosensor that emits red light or laser light to achieve correlation detection.

Referring to fig. 2, in some embodiments, a first support arm 4 is disposed on the operating table 12 and extends along a height direction of the lathe body 1, a first elongated hole 41 for adjusting a position of the photo-emitter 31 and a first locking nut 5 for pressing and fixing the photo-emitter 31 on the first support arm 4 are disposed on the first support arm 4, the first elongated hole 41 extends along the height direction of the lathe body 1, the photo-emitter 31 is disposed in the first elongated hole 41, and a first external thread (not shown) in threaded engagement with the first locking nut 5 is disposed on the photo-emitter 31. In this embodiment, the first support arm 4 is provided with the first elongated hole 41 extending along the height direction of the lathe body 1, and only the photoelectric emitter 31 needs to be inserted into the first elongated hole 41, and the first lock nut 5 is screwed on the photoelectric emitter 31, so that the photoelectric emitter 31 can be pressed and fixed on the first support arm 4 through the first lock nut 5, and the installation is simple. When the mounting position of the photoelectric emitter 31 needs to be adjusted, the first locking nut 5 only needs to be unscrewed, the photoelectric emitter 31 is adjusted to a corresponding position, then the first locking nut 5 is screwed on the photoelectric emitter 31, and the photoelectric emitter can be adjusted, pressed and fixed at the mounting position needing to be adjusted, so that the detection of bearing rings with different working conditions or different diameters is facilitated, and the universality is enhanced.

Referring to fig. 2, in some embodiments, the outline of the photo-emitter 31 is disposed in a cylindrical shape, the first jacket 6 for abutting against the first supporting arm 4 is sleeved at the middle position of the photo-emitter 31, and a first external thread is disposed at one end of the photo-emitter 31. In this embodiment, the outline of the photoelectric emitter 31 is cylindrically arranged, the first jacket 6 for abutting against the first support arm 4 is sleeved at the middle position of the photoelectric emitter 31, the first external thread is arranged at one end of the photoelectric emitter 31, the first locking nut 5 is screwed at one end of the photoelectric emitter 31, and the photoelectric emitter 31 abuts against and is fixed on the first support arm 4, so that the installation is convenient and simple, and the installation stability is enhanced.

Referring to fig. 2, in some embodiments, a first gasket 7 is disposed between the first jacket 6 and the first support arm 4 to enhance the stability of the installation of the photo-emitter 31.

Referring to fig. 2, the operating table 12 is provided with a second supporting arm 8 extending along the height direction of the lathe body 1, the second supporting arm 8 is provided with a second elongated hole 81 for adjusting the position of the photoelectric receiver 32 and a second lock nut for fixing the photoelectric receiver 32 on the second supporting arm 8 in a pressing manner, the second elongated hole 81 extends along the height direction of the lathe body 1, the photoelectric receiver 32 is inserted into the second elongated hole 81, and the photoelectric emitter 31 is provided with a second external thread in threaded engagement with the second lock nut 9. In this embodiment, the second support arm 8 is provided with a second elongated hole 81 extending in the height direction of the lathe body 1, and only the photoelectric receiver 32 needs to be inserted into the second elongated hole 81, and the second lock nut is screwed on the photoelectric receiver 32, so that the photoelectric receiver 32 can be pressed and fixed on the second support arm 8 by the second lock nut, and the installation is convenient and simple. When the mounting position of the photoelectric receiver 32 needs to be adjusted, the second locking nut is only required to be unscrewed, the photoelectric receiver 32 is adjusted to the corresponding position, then the second locking nut is screwed on the photoelectric receiver 32, the electric receiver can be adjusted, pressed and fixed at the mounting position needing to be adjusted, so that the detection of bearing rings in different working conditions or different diameters is facilitated, and the universality is enhanced

Referring to fig. 2, in some embodiments, the outline of the photoelectric receiver 32 is disposed in a cylindrical shape, the second jacket 10 for abutting against the second support arm 8 is sleeved at the middle position of the photoelectric receiver 32, and a second external thread is disposed at one end of the photoelectric receiver 32. In this embodiment, the outline of the photoelectric receiver 32 is set in a cylindrical shape, the second jacket 10 for abutting against the second support arm 8 is sleeved at the middle position of the photoelectric receiver 32, the second external thread (not shown) is arranged at one end of the photoelectric receiver 32, and the photoelectric receiver 32 can be abutted against and fixed on the second support arm 8 only by screwing the second lock nut at one end of the photoelectric receiver 32, so that the installation is convenient and simple, and the installation stability is enhanced.

Referring to fig. 2, in some embodiments, a second gasket (not shown) is disposed between the second jacket 10 and the second support arm 8 to enhance the stability of the installation of the photoemitter 31.

In some embodiments, the bearing ring processing lathe with the function of detecting whether the automatic feeding is in place further comprises an alarm (not shown) for sending out warning information when the correlation photoelectric sensor 3 detects that the bearing ring is not in place and/or the sensing bearing ring is not dropped from the spindle mechanism 13, and a controller (not shown) for controlling the alarm to work according to the signal detected by the correlation photoelectric sensor 3, wherein the controller is respectively connected with the correlation photoelectric sensor 3 and the alarm. In this embodiment, when the correlation photoelectric sensor 3 detects that the bearing ring is not clamped in place, the controller controls the alarm to alarm according to a signal detected by the correlation photoelectric sensor 3, so that a worker can timely know that the bearing ring is not clamped in place or the clamping is not successful, timely perform corresponding processing, avoid the main shaft 131 from idling for a long time and the lathe from being in an idle running state, and improve the processing efficiency. And when correlation formula photoelectric sensor 3 detects that the bearing ring does not drop from spindle mechanism 13, the controller reports to the police according to the signal control alarm that correlation formula photoelectric sensor 3 detected, so that the staff in time knows the bearing ring and in time the blanking, and in time make corresponding processing, avoid under the condition that the bearing ring does not blank, manipulator automatic feeding causes the work piece to touch the damage and cause manipulator and chuck to damage, thereby improve the processingquality of bearing ring and the fail safe nature of assurance lathe operation.

Referring to fig. 1 and fig. 2, in some embodiments, the carriage mechanism 21 includes a first carriage 211 slidably disposed on the console 12 along a first direction, a first driving mechanism 212 for driving the first carriage 211 to move, a second carriage 213 slidably disposed on the first carriage 211 along a second direction, and a second driving mechanism 214 for driving the second carriage 213 to move, wherein the first driving mechanism 212 is disposed on the console 12, the second driving mechanism 214 is disposed on the first carriage 211, and the tool post 22 is disposed on the first driving mechanism 213. It is understood that the first carriage 211 can be, but is not limited to be, slidably mounted on the console 12 through a sliding structure of a sliding chute and a sliding rail, and the second carriage 213 can be, but is not limited to be, slidably mounted on the first carriage 211 through a sliding structure of a sliding chute and a sliding rail.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides a bearing ring processing lathe with detect automatic feeding has or not to target in place function which characterized in that includes:

the lathe body comprises a support, an operating platform supported on the support, a spindle mechanism used for positioning a bearing ring and driving the bearing ring to rotate, a manipulator used for moving the bearing ring to the spindle mechanism, and a chuck used for clamping the bearing ring on the spindle mechanism, wherein the spindle mechanism and the manipulator are arranged on the operating platform, and the chuck is correspondingly arranged on a spindle of the spindle mechanism;

the turning assembly is used for turning the bearing ring on the main shaft mechanism and comprises a carriage mechanism arranged on an operating platform, a tool rest arranged on the carriage mechanism and a turning tool arranged on the tool rest; and

the correlation type photoelectric sensor is used for detecting and judging whether a bearing ring is successfully clamped and/or sensing whether the bearing ring falls off from a main shaft of the main shaft mechanism, and comprises a photoelectric emitter and a photoelectric receiver which are respectively arranged on two opposite sides of the main shaft.

2. The bearing ring processing lathe with the function of detecting the presence or absence of the automatic feeding as claimed in claim 1, wherein the correlation photoelectric sensor is a correlation infrared sensor.

3. The bearing ring processing lathe with the function of detecting whether the automatic feeding is in place or not according to claim 1, wherein a first support arm is arranged on the operating table in an extending manner along the height direction of the lathe body, a first long hole for adjusting the position of the photoelectric emitter and a first locking nut for pressing and fixing the photoelectric emitter on the first support arm are arranged on the first support arm, the first long hole extends along the height direction of the lathe body, the photoelectric emitter is arranged in the first long hole in a penetrating manner, and a first external thread which is in threaded fit with the first locking nut is arranged on the photoelectric emitter.

4. The bearing ring processing lathe with the function of detecting whether the automatic feeding is in place or not according to claim 3, wherein the outline of the photoelectric emitter is arranged in a cylindrical shape, a first jacket for abutting against the first supporting arm is sleeved at the middle position of the photoelectric emitter, and one end of the photoelectric emitter is provided with the first external thread.

5. The bearing ring processing lathe with the function of detecting whether the automatic feeding is in place or not according to claim 4, wherein a first gasket is arranged between the first jacket and the first support arm.

6. The bearing ring processing lathe with the function of detecting whether the automatic feeding is in place or not according to claim 1, wherein a second support arm is arranged on the operating platform in an extending manner along the height direction of the lathe body, a second long hole for adjusting the position of the photoelectric receiver and a second locking nut for pressing and fixing the photoelectric receiver on the second support arm are arranged on the second support arm, the second long hole extends along the height direction of the lathe body, the photoelectric receiver is arranged in the second long hole in a penetrating manner, and a second external thread which is in threaded fit with the second locking nut is arranged on the photoelectric emitter.

7. The bearing ring processing lathe with the function of detecting whether the automatic feeding is in place or not according to claim 6, wherein the photoelectric receiver is arranged in a cylindrical shape, a second jacket for abutting against the second supporting arm is sleeved at the middle position of the photoelectric receiver, and the second external thread is arranged at one end of the photoelectric receiver.

8. The bearing ring processing lathe with the function of detecting the presence or absence of the automatic feeding as claimed in claim 7, wherein a second gasket is provided between the second jacket and the second support arm.

9. The bearing ring processing lathe with the function of detecting whether the automatic feeding is in place or not according to any one of claims 1 to 8, further comprising an alarm for sending out alarm information when the correlation photoelectric sensor detects that the bearing ring is not clamped in place and/or the sensing bearing ring is not dropped from the spindle mechanism, and a controller for controlling the alarm to work according to signals detected by the correlation photoelectric sensor, wherein the controller is respectively connected with the correlation photoelectric sensor and the alarm.

10. The lathe for machining a bearing ring according to any one of claims 1 to 8, wherein the carriage mechanism includes a first carriage slidably disposed on the table in a first direction, a first driving mechanism for driving the first carriage to move, a second carriage slidably disposed on the first carriage in a second direction, and a second driving mechanism for driving the second carriage to move, the first driving mechanism is disposed on the table, the second driving mechanism is disposed on the carriage, and the tool rest is disposed on the second carriage.

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