CN208006563U - The sleeping cold carving machine of mill of numerical control - Google Patents

Abstract

The utility model discloses a kind of sleeping cold carving machine of mill of numerical control, including lathe bed, be fixedly installed in lathe bed column, be fixedly installed in crossbeam and sharpening component of the column far from lathe bed one end, X-axis slide assemblies, Z axis slide assemblies and Y-axis slide assemblies；Wherein, X-axis slide assemblies are slidably mounted on crossbeam, for realizing the movement in sharpening component X-direction；Z axis slide assemblies are slidably mounted on X-axis slide assemblies, for realizing the movement in sharpening component Z-direction；Sharpening component is fixedly installed in Z axis slide assemblies, for realizing the grinding to workpiece to be processed；Y-axis slide assemblies are slidably mounted on lathe bed, for installing the bearing assembly for carrying workpiece to be processed, and realize the movement in workpiece to be processed Y direction.The technical solution of the utility model, three axis that the sharpening component of the sleeping cold carving machine of mill of numerical control is realized by simple structure move, effectively improve the working efficiency of the sleeping cold carving machine of mill of numerical control, reduce production cost.

Description

The sleeping cold carving machine of mill of numerical control

Technical field

The utility model is related to technical field of mechanical processing, more particularly to the sleeping cold carving machine of mill of a kind of numerical control.

Background technology

Existing sheet machining apparatus has hot-bending machine, carving machine etc., these equipment are all one products of a tool sharpening , it is inefficient.But as Numeric Control Technology is more and more ripe, it is not content with the pursuit only to machining accuracy, while pursuing height Processing efficiency.

In the plate processing technologies such as glass, ceramics and sapphire, curved surface is usually carried out to it using numerical control carving machine and is added Work industry.The carving machine of single main shaft can only process a product every time, and such processing efficiency is low, cannot make full use of resource, Although and the carving machine of more main shafts can process more than one piece product simultaneously, can greatly increase the production cost of carving machine.Existing In improved technology, carries out while the mode for processing multi-sheets is：Conventional vertical processing is become into horizontal processing, will be installed Universal cutter on main shaft is changed to wheel cutter, and the left end of wheel cutter is clamped in spindle end, and right end is placed on fixing bracket Bearing in pass through increase wheel cutter on grinding wheel number, improve processing efficiency.

Since the right end of the wheel cutter of this improved technology is placed in the bearing on fixing bracket, there are certain gap, During main shaft drives wheel cutter high speed rotation, the concentricity at the left and right end of wheel cutter cannot ensure unanimously, to cause Wheel cutter, which can sputter, during actual processing comes, and great security risk is brought to production.In addition, the improved technology relates to And sleeping grinding machine tool due to the defect of global design structure, three axis cannot be moved simultaneously, larger to processing dimension differentiation Glass, ceramics and the planks such as sapphire it is restricted, the time for adjusting clamp tool is longer.

Utility model content

The main purpose of the utility model is to provide a kind of sleeping cold carving machine of mill of numerical control, it is intended to effectively promote the sleeping cold carving of mill of numerical control The processing efficiency of machine.

To achieve the above object, the utility model proposes a kind of sleeping cold carving machine of mill of numerical control, including lathe bed, it is fixedly installed in institute It states the column of lathe bed, be fixedly installed in crossbeam and sharpening component, X-axis Slide Group of the column far from described lathe bed one end Part, Z axis slide assemblies and Y-axis slide assemblies；Wherein,

The X-axis slide assemblies are slidably mounted on the crossbeam, for realizing the shifting in the sharpening component X-direction It is dynamic；

The Z axis slide assemblies are slidably mounted on the X-axis slide assemblies, for realizing the sharpening component Z-direction On movement；

The sharpening component is fixedly installed in the Z axis slide assemblies, for realizing the grinding to workpiece to be processed；

The Y-axis slide assemblies are slidably mounted on the lathe bed, for installing the carrying for carrying the workpiece to be processed Component, and realize the movement in the workpiece to be processed Y direction.

Optionally, the X-axis slide assemblies include X-axis sliding panel and X-axis driving device；The X-axis driving device is fixed It is installed on the crossbeam, for driving the X-axis sliding panel to be moved on the crossbeam.

Optionally, the X-axis driving device includes X-axis driving motor and X-axis lead screw assembly.

Optionally, the Z axis slide assemblies include Z axis sliding panel and Z axis driving device；The Z axis driving device is fixed It is installed on the X-axis sliding panel, for driving the Z axis sliding panel to be moved on the X-axis sliding panel.

Optionally, the Z axis driving device includes Z axis driving motor and Z axis lead screw assembly.

Optionally, the sharpening component include the first drive shaft, the second drive shaft, and set on first drive shaft with Wheel cutter between second drive shaft；First drive shaft is mounted on the Z axis with second drive shaft and slides Movable plate.

Optionally, the Y-axis slide assemblies include workbench and Y-axis driving device；The workbench is slidably mounted on institute Lathe bed is stated, for installing the bearing assembly；The Y-axis driving device is for driving the workbench sliding on the lathe bed It is dynamic.

Optionally, the Y-axis driving device includes Y-axis driving motor and Y-axis lead screw assembly.

Optionally, the bearing assembly includes workpiece jig and adsorption plate；The workpiece jig is removably mounted to described Workbench；The adsorption plate is removably mounted to the workpiece jig, for carrying the workpiece to be processed.

Optionally, the sleeping cold carving machine of mill of the numerical control further includes cooling component；The cooling component includes cooling water tank, and Cooling spray；The cooling spray is disposed in proximity to the wheel cutter position of the sharpening component, for the wheel cutter It is cooled down.

The technical solution of the utility model realizes the three of the sharpening component of the sleeping cold carving machine of mill of numerical control by simple structure Axis moves, and effectively improves the working efficiency of the sleeping cold carving machine of mill of numerical control, reduces production cost.

Description of the drawings

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, the structure that can also be shown according to these attached drawings obtains other attached drawings.

Fig. 1 is the dimensional structure diagram of the sleeping cold carving machine of mill of the utility model numerical control；

Fig. 2 is the three-dimensional assembling structure schematic diagram of X-axis slide assemblies shown in FIG. 1 and crossbeam；

Fig. 3 is the three-dimensional assembling structure schematic diagram of Z axis slide assemblies shown in FIG. 1 and X-axis slide assemblies；

Fig. 4 is the close-up schematic view at A in Fig. 1；

Fig. 5 is the three-dimensional assembling structure schematic diagram of Y-axis slide assemblies shown in FIG. 1 and lathe bed；

The dimensional structure diagram of Fig. 6 sheets bearing assembly shown in FIG. 1.

The embodiments will be further described with reference to the accompanying drawings for the realization, functional characteristics and advantage of the utility model aim.

Specific implementation mode

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describing, it is clear that described embodiment is only a part of the embodiment of the utility model, rather than all Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are not making creative work premise Lower obtained every other embodiment, shall fall within the protection scope of the present invention.

The utility model proposes a kind of sleeping cold carving machines of mill of numerical control.

As shown in FIG. 1, FIG. 1 is the dimensional structure diagrams of the sleeping cold carving machine of mill of the utility model numerical control.

It is the sleeping cold carving machine of mill of the numerical control of the present embodiment includes lathe bed 100, is fixedly installed in the lathe bed 100 column 200, solid Dingan County is loaded on crossbeam 300 and sharpening component 400, X-axis slide assemblies of the column 200 far from 100 one end of the lathe bed 500, Z axis slide assemblies 600 and Y-axis slide assemblies 700.Wherein, the X-axis slide assemblies 500 are slidably mounted on the crossbeam 300, for realizing the movement in the sharpening component 400X axis directions；The Z axis slide assemblies 600 are slidably mounted on the X Axis slide assemblies 500, for realizing the movement in the sharpening component 400Z axis directions；The sharpening component 400 is fixedly mounted In the Z axis slide assemblies 600, for realizing the grinding to workpiece to be processed；The sliding of Y-axis slide assemblies 700 peace Loaded on the lathe bed 100, for installing the bearing assembly 900 for carrying the workpiece to be processed 800, and realize described to be processed Movement in workpiece 800Y axis directions.

Specifically, in the present embodiment, the column 200 is two, is respectively perpendicular and is installed on 100 width side of the lathe bed To both sides.The crossbeam 300 is fixedly installed in two one end of the column 200 far from the lathe bed 100, two columns 200 are assembled into gantry shape structure with the crossbeam 300.The X-axis slide assemblies 500 are slidably mounted on the crossbeam 300, described Sliding of the X-axis slide assemblies 500 on the crossbeam 300, for realizing the movement of the X-direction of the sharpening component 400.Institute It states Z axis slide assemblies 600 and is slidably mounted on the X-axis slide assemblies 500, the Z axis slide assemblies 600 are slided in the X-axis Sliding on component 500, for realizing the movement of the Z-direction of the sharpening component 400.The sharpening component 400 fixes peace Loaded on the Z axis slide assemblies 600, for realizing the grinding to workpiece to be processed 800.The Y-axis slide assemblies 700 are slided Dynamic to be installed on the lathe bed 100, the Y-axis slide assemblies 700 are for carrying the workpiece to be processed 800, and the Y-axis is slided Dynamic sliding of the component 700 on the lathe bed 100, for realizing movement of the workpiece to be processed 800 in Y-axis.Due to fortune Dynamic relativity (motion state of the difference of selected object of reference, object is different), so, the workpiece to be processed 800 is in Y-axis Movement can be regarded as movement of the sharpening component 400 in Y-axis.

The technical solution of the present embodiment realizes the sharpening component 400 of the sleeping cold carving machine of mill of numerical control by simple structure Three axis move, and effectively improve the working efficiency of the sleeping cold carving machine of mill of numerical control, reduce production cost.

Further, as shown in Fig. 2, and with reference to figure 1, Fig. 2 is that X-axis slide assemblies shown in FIG. 1 and the three-dimensional of crossbeam fill Distribution structure schematic diagram.

In the present embodiment, the X-axis slide assemblies 500 include X-axis sliding panel 520 and X-axis driving device 540.The X Axis sliding panel 520 is slidably mounted on the crossbeam 300；The X-axis driving device 540 is fixedly installed in the crossbeam 300, is used for The X-axis sliding panel 520 is driven to be slided on the crossbeam 300.

Specifically, the crossbeam 300 is equipped with two X-axis slide rails 320 disposed in parallel；The extending direction of the X-axis slide rail 320 For the length direction (horizontal direction) of the crossbeam 300.The X-axis sliding panel 520 corresponds to the X-axis slide rail 320 and is equipped with and institute State 320 compatible X-axis slide block 522 of X-axis slide rail.The X-axis slide block 522 is slided in the X-axis slide rail 320.The X-axis is driven Dynamic device 540 includes X-axis driving motor 542 and X-axis lead screw assembly 544.The X-axis lead screw assembly 544 include X-axis lead screw (not Mark) and X-axis screw (not shown).The X-axis driving motor 542 is preferably servo motor, is fixedly installed in the crossbeam 300 one end, and between two X-axis slide rails 320.The X-axis lead screw is installed on the crossbeam 300, and is preferably placed at The centre position of two X-axis slide rails 320, one end are sequentially connected with the X-axis driving motor 542, and the other end passes through bearing (not indicating) is rotatablely connected with the crossbeam 300.The X-axis screw is connect with the X-axis wire rod thread, and is slided with the X-axis Movable plate 520 is fixedly connected.When the X-axis driving motor 542 drives the X-axis lead screw to rotate, the X-axis screw is along the X The axial direction of axial filament bar moves linearly, and the X-axis sliding panel 520 is driven to move linearly on the crossbeam 300, realizes Movement in the X-direction of the sharpening component 400 of the sleeping cold carving machine of mill of the numerical control.

Further, as shown in figure 3, and being that Z axis slide assemblies 600 shown in FIG. 1 are slided with X-axis with reference to figure 1 and Fig. 2, Fig. 3 The three-dimensional assembling structure schematic diagram of dynamic component 500.

In the present embodiment, the Z axis slide assemblies 600 include Z axis sliding panel 620 and Z axis driving device 640.The Z Axis sliding panel 620 is slidably mounted on the X-axis sliding panel 520；The Z axis driving device 640 is fixedly installed in the X-axis sliding Plate 520, for driving the Z axis sliding panel 620 to be slided on the X-axis sliding panel 520.

Specifically, the X-axis sliding panel 520 is equipped with two Z axis slide rails 524 disposed in parallel；The Z axis slide rail 524 is prolonged It is the vertical direction to stretch direction.The Z axis sliding panel 620 corresponds to the Z axis slide rail 524 and is equipped with and 524 phase of the Z axis slide rail The Z axis sliding block 622 of adaptation.The Z axis sliding block 622 slides in the Z axis slide rail 524.The Z axis driving device 640 includes Z Axis driving motor 642 and Z axis lead screw assembly (not shown).The Z axis lead screw assembly includes Z axis lead screw and Z axis screw.The Z Axis driving motor 642 is preferably servo motor, is fixedly installed in one end of the X-axis sliding panel 520, and be located at two Z Between axis sliding rail 524.The Z axis lead screw is installed on the X-axis sliding panel 520, and is preferably placed at two Z axis slide rails 524 Centre position, one end are sequentially connected with institute's Z axis driving motor 642, and the other end is slided by bearing (not shown) and the X-axis Plate 520 is rotatablely connected.The Z axis screw is connect with the Z axis wire rod thread, and is fixedly connected with the Z axis sliding panel 620. When the Z axis driving motor 642 drives the Z axis lead screw to rotate, the Z axis screw along the Z axis lead screw axial direction Linear movement, and the Z axis sliding panel 620 is driven to move linearly on the X-axis sliding panel 520, realize the numerical control Movement in the Z-direction of the sharpening component 400 of the sleeping cold carving machine of mill.

Further, as shown in figure 4, referring to figs. 1 to Fig. 3, Fig. 4 is the close-up schematic view at A in Fig. 1.

In the present embodiment, the sharpening component 400 includes the first drive shaft 420, the second drive shaft 440, and is set to Wheel cutter 460 between first drive shaft 420 and second drive shaft 440；First drive shaft 420 with it is described Second drive shaft 440 is fixedly installed in the Z axis sliding panel 620.

Specifically, first drive shaft 420 is respectively arranged in the Z axis sliding panel 620 with second drive shaft 440 The both sides of bottom end, and pass through driving motor (preferably servo motor) driving.The both ends of the wheel cutter 460 respectively with institute The first drive shaft 420 is stated to be sequentially connected with second drive shaft 440.The number of the wheel cutter 460 can be according to reality Sets itself is needed, in the present embodiment, the wheel cutter 460 is three, and the same of three workpieces to be processed 800 may be implemented Shi Jiagong.The concentricity of the wheel cutter 460 can be effectively ensured by Two axle drive in the wheel cutter 460 of the present embodiment, And then the mach stationarity of the cold carving of the sleeping mill of the numerical control and safety has been effectively ensured, improve the sleeping cold carving machine of mill of the numerical control Processing efficiency.

Further, as shown in figure 5, simultaneously referring to figs. 1 to Fig. 3, Fig. 5 is the vertical of Y-axis slide assemblies shown in FIG. 1 and lathe bed Body assembling structure schematic diagram.

In the present embodiment, the Y-axis slide assemblies 700 include workbench 720 and Y-axis driving device 740.The work Platform 720 is slidably mounted on the lathe bed 100, for installing the bearing assembly 900.The Y-axis driving device 740 is for driving The workbench 720 slides on the lathe bed 100.

Specifically, the lathe bed 100 is equipped with two Y-axis sliding rails 120 disposed in parallel.The workbench 720 corresponds to the Y-axis Sliding rail 120 is equipped with Y-axis sliding block compatible with the Y-axis sliding rail 120 724.The Y-axis sliding block 724 is in the Y-axis sliding rail 120 Upper sliding.The Y-axis driving device 740 includes Y-axis driving motor 742 and Y-axis lead screw assembly 744.The Y-axis lead screw assembly 744 include Y-axis lead screw 745 and Y-axis screw 746.The Y-axis driving motor 742 is preferably servo motor, is fixedly installed in institute Lathe bed 100 is stated, and between the two Y-axis sliding rails 120.The Y-axis lead screw 745 is installed on the lathe bed 100, and preferred position In the centre position of the two Y-axis sliding rails 120, one end is sequentially connected with the Y-axis driving motor 742, and the other end passes through axis It holds and (does not indicate) and be rotatablely connected with the lathe bed 100.The Y-axis screw 746 is threadedly coupled with the Y-axis lead screw 745, and with institute Workbench 720 is stated to be fixedly connected.When the Y-axis driving motor 742 drives the Y-axis lead screw 745 to rotate, the Y-axis screw 746 It moves linearly along the axial direction of the Y-axis lead screw 745, and the workbench 720 is driven to do straight line on the lathe bed 100 It is mobile, the movement of the Y direction of the workbench 720 is realized, namely realize the Y direction of the workpiece to be processed 800 On movement.And the movement in the Y direction of the workpiece to be processed 800, it can be regarded as the Y-axis of the sharpening component 400 Movement on direction.

Further, as shown in fig. 6, and referring to figs. 1 to Fig. 5, the stereochemical structure of Fig. 6 sheets bearing assembly shown in FIG. 1 is shown It is intended to.

In the present embodiment, the bearing assembly 900 includes workpiece jig 920, is installed on the workpiece jig 920 Adsorption plate 940；The workpiece jig 920 is removably mounted to the workbench 720；The adsorption plate 940 is removably mounted to The workpiece jig 920.

(do not scheme for carrying the supporting part of the workpiece to be processed 800 specifically, the adsorption plate 940 is equipped with number row Show), often arrange the supporting part number can sets itself according to actual needs, but the number for often arranging the supporting part needs pair The number of wheel cutter 460 in the sharpening component 400 it is corresponding (can be equal with the number of the wheel cutter 460, or For the integral multiple of the number of the wheel cutter 460), in the present embodiment, since the number of the wheel cutter 460 is three It is a, so the number of the often row supporting part is also three.And the number of rows of the supporting part equally can according to actual needs certainly Row setting, can't influence the technique effect of the utility model.Specifically in the present embodiment, the carrying on the adsorption plate 940 The number of rows in portion is six rows, that is, each adsorption plate 940 can carry 3*6=18 blocks workpiece to be processed.To described to be added When work workpiece 800 is processed, first, the workpiece to be processed 800 is sequentially placed in the supporting part of the adsorption plate 940 In；Then, the workpiece jig 920 is fixedly installed in the workbench 720, then the adsorption plate 940 is installed on described Workbench 720.Then, the workpiece to be processed 800 is adjusted with the position of the wheel cutter 460 (by adjusting described to be added Realized with the X-axis of the wheel cutter 460 and the position of Z axis the position of the Y-axis of work workpiece 800) so that first row work to be processed Part 800 is located at the underface of the wheel cutter 460.After position is adjusted, start the sleeping cold carving machine of mill of the numerical control, by described Wheel cutter 460 carries out grinding to the workpiece to be processed 800 of first row.When first row workpiece to be processed 800 machines Afterwards, the position of the workpiece to be processed 800 is adjusted so that second row workpiece to be processed 800 is being located at the wheel cutter 460 just Lower section, to realize the processing to second row workpiece to be processed 800, and so on, until processing the 6th row's workpiece to be processed 800, when the 6th row's workpiece to be processed 800 after processing is completed, shutdown, by the adsorption plate 940 and be carried on the adsorption plate The workpiece machined on 940 is removed, and is installed another adsorption plate 940 for carrying workpiece to be processed 800, is so recycled, directly To the processing completed to the workpiece to be processed 800.

It is noted that can be people to the adjustment of the workpiece to be processed 800 and the position of the wheel cutter 460 Work is realized, can also automatically be realized by the way that corresponding parameter is arranged in operation panel.Preferably, in the present embodiment, described The workpiece to be processed 800 and the adjustment of the position of the wheel cutter 460 are realized automatically by the corresponding parameter of setting, when After setting machined parameters, the sleeping cold carving machine of mill of the numerical control can voluntarily complete the grinding to workpiece to be processed 800, without It needs artificially to participate in, effectively improves the intelligence degree of the sleeping cold carving machine of mill of the numerical control, it is sleeping to be greatly improved the numerical control Grind cold carving machining efficiency.

Further, referring to figs. 1 to Fig. 6, in the present embodiment, the sleeping cold carving machine of mill of the numerical control further includes cooling component 950.The cooling component 950 includes cooling water tank (not shown) and cooling spray 952；The cooling spray 952 is set to Close to 460 position of wheel cutter of the sharpening component 400, for being cooled down to the wheel cutter 460.

Specifically, the cooling water tank can be positioned over the side of the sleeping cold carving machine ontology of mill of the numerical control.The cooling spray First 952 are connect by cooling water pipe with the cooling water tank, and are fixedly installed on the Y-axis sliding panel.The cooling spray 952 number corresponds to the number of the wheel cutter 460 namely each wheel cutter 460 is correspondingly arranged a cooling spray First 952.When the wheel cutter 460 to the workpiece to be processed 800 when carrying out grinding, the cooling spray 952 is right The wheel cutter 460 and the workpiece to be processed 800 and spray coolant liquid, with to the wheel cutter 460 with it is described to be added Work workpiece 800 is cooled down, and the heat pair generated to avoid the wheel cutter 460 and the friction of the workpiece to be processed 800 adds The influence of work precision.

The above is only the preferred embodiment of the present invention, and it does not limit the scope of the patent of the present invention, Under every utility model in the utility model is conceived, equivalent structure made based on the specification and figures of the utility model Transformation, or directly/be used in other related technical areas indirectly and be included in the scope of patent protection of the utility model.

Claims (9)

1. a kind of sleeping cold carving machine of mill of numerical control, which is characterized in that including lathe bed, the column that is fixedly installed in the lathe bed, fixed peace Loaded on crossbeam of the column far from described lathe bed one end and sharpening component, X-axis slide assemblies, Z axis slide assemblies and Y-axis Slide assemblies；Wherein,

The X-axis slide assemblies are slidably mounted on the crossbeam, for realizing the movement in the sharpening component X-direction；

The Z axis slide assemblies are slidably mounted on the X-axis slide assemblies, for realizing in the sharpening component Z-direction It is mobile；

The sharpening component is fixedly installed in the Z axis slide assemblies, for realizing the grinding to workpiece to be processed；

The Y-axis slide assemblies are slidably mounted on the lathe bed, for installing the bearing assembly for carrying the workpiece to be processed, And realize the movement in the workpiece to be processed Y direction；

It further include cooling component；The cooling component includes cooling water tank and cooling spray；The cooling spray, which is set to, to be leaned on The wheel cutter position of the nearly sharpening component, for being cooled down to the wheel cutter.

2. the sleeping cold carving machine of mill of numerical control as described in claim 1, which is characterized in that the X-axis slide assemblies include X-axis sliding panel With X-axis driving device；The X-axis driving device is fixedly installed in the crossbeam, for driving the X-axis sliding panel in the cross It is moved on beam.

3. the sleeping cold carving machine of mill of numerical control as claimed in claim 2, which is characterized in that the X-axis driving device includes X-axis driving electricity Machine and X-axis lead screw assembly.

4. the sleeping cold carving machine of mill of numerical control as claimed in claim 2, which is characterized in that the Z axis slide assemblies include Z axis sliding panel With Z axis driving device；The Z axis driving device is fixedly installed in the X-axis sliding panel, for driving the Z axis sliding panel to exist It is moved on the X-axis sliding panel.

5. the sleeping cold carving machine of mill of numerical control as claimed in claim 4, which is characterized in that the Z axis driving device includes Z axis driving electricity Machine and Z axis lead screw assembly.

6. the sleeping cold carving machine of mill of numerical control as claimed in claim 4, which is characterized in that the sharpening component include the first drive shaft, Second drive shaft, and the wheel cutter between first drive shaft and second drive shaft；First driving Axis is mounted on the Z axis sliding panel with second drive shaft.

7. the sleeping cold carving machine of mill of numerical control as described in claim 1, which is characterized in that the Y-axis slide assemblies include workbench and Y Axial brake device；The workbench is slidably mounted on the lathe bed, for installing the bearing assembly；The Y-axis driving device For driving the workbench to be slided on the lathe bed.

8. the sleeping cold carving machine of mill of numerical control as claimed in claim 7, which is characterized in that the Y-axis driving device includes Y-axis driving electricity Machine and Y-axis lead screw assembly.

9. the sleeping cold carving machine of mill of numerical control as claimed in claim 7, which is characterized in that the bearing assembly includes workpiece jig and suction Attached plate；The workpiece jig is removably mounted to the workbench；The adsorption plate is removably mounted to the workpiece jig, uses In the carrying workpiece to be processed.