CN102407493A - Rounding device and rounding method - Google Patents

Abstract

The invention relates to a rounding device which cuts a workpiece to be processed and is used for rounding a transition workpiece. The rounding device comprises a cavity, a bearing assembly, a first masking jig, a second masking jig and a sand blasting assembly; the cavity is provided with a working cavity; the bearing assembly is arranged in the working cavity and is used for bearing the workpiece to be processed and the transition workpiece; the first masking jig and the second masking jig both can be rotatably arranged in the working cavity, and are used for masking or revealing the workpiece to be processed and the transition workpiece; the sand blasting assembly is arranged at the top wall of the cavity body and is opposite to the workpiece to be processed or the transition workpiece on the bearing assembly; and the sand blasting assembly is used for sand blasting and cutting of the workpiece to be processed which is masked by the first masking jig so as to form the transition workpiece, and is used for sand blasting and rounding of the transition workpiece which is masked by the second masking jig so as to form a plurality of molding workpieces. The invention also relates to a rounding method.

Description

Rounding device and rounding method

Technical field

The present invention relates to the rounding technical field, relate in particular to a kind of rounding device and rounding method.

Background technology

Lens barrel in imaging device such as digital camera, the video camera is generally the cylinder bodily form; For cooperating lens barrel shape and sectional dimension; Optical module that need imaging device is used; For example optical filtering, optical mirror slip etc. are made into the cylinder bodily form, and therefore, the rounding processing procedure is one of indispensable operation of processing optical assembly.

Normally, the general volume of optical module is very little, then too wastes time and energy if carry out rounding with the mode of each rounding a slice; In order to enhance productivity; With UV glue adhesives such as (Ultraviolet, i.e. ultraviolet photo-curing glue) the square master slice of a greater number is composed the square cylinder shape mostly in the actual production, simultaneously workpiece is fixed on the rounding device; Master slice to a greater number carries out coming unstuck, cleaning behind the rounding in the lump, finally produces tubular optical module.

Yet above-mentioned rounding method need use adhesives such as UV glue, also needs subsequent handlings such as complicated dispergation, cleaning after the rounding, expends more time, labour and cost; And in dispergation and the cleaning process easily because of dispergation not exclusively or clean and thoroughly do not cause situation such as workpiece is bonding, stained, product quality is caused harmful effect.

Summary of the invention

In view of this, be necessary to provide a kind of rounding device and rounding method that need not use adhesive, it guarantees product quality when can avoid operations such as dispergation and cleaning with saving production time and cost.

A kind of rounding device, it is used for workpiece to be processed is cut into the transition workpiece and this transition workpiece is carried out rounding.This rounding device comprise a cavity, bearing assembly, one first cover tool, one second and cover tool and a sandblast assembly.This cavity offers a working chamber.This bearing assembly is arranged in this working chamber and is used to carry this workpiece to be processed and this transition workpiece.This first covers tool and can be arranged at rotationally in this working chamber, and is used to cover or exposes this workpiece to be processed and this transition workpiece.This second covers tool and can be arranged at rotationally in this working chamber, and is used to cover or exposes this workpiece to be processed and this transition workpiece.This sandblast assembly is arranged at the roof of this cavity and relative with this workpiece to be processed or this transition workpiece on this bearing assembly.This sandblast assembly is used for first being covered this workpiece to be processed that tool covers and carry out the sandblast cutting forming the transition workpiece by this, and to second being covered this transition workpiece that tool covers and carry out the sandblast rounding to form a plurality of shaping workpieces by this.

A kind of rounding method, it utilizes above-mentioned rounding device that workpiece to be processed is processed, and this rounding method may further comprise the steps: carry this workpiece to be processed on this bearing assembly, and make this workpiece to be processed and this sandblast assembly alignment; Rotating this first covers tool and makes this first cover tool and cover this workpiece to be processed and this second and cover tool and expose this workpiece to be processed; Utilize this sandblast assembly to first being covered this workpiece to be processed that tool covers and carry out the sandblast cutting to form the transition workpiece by this; Rotating this second covers tool and makes this second cover tool and cover this transition workpiece and this first and cover tool and expose this transition workpiece; Utilize this sandblast assembly to second being covered this transition workpiece that tool covers and carry out the sandblast rounding to form a plurality of shaping workpieces by this.

Compared to prior art; This rounding device and rounding method are after workpiece to be processed is carried on the bearing assembly; Utilize the sandblast assembly to carry out the sandblast cutting to form the transition workpiece, utilize the sandblast assembly to carry out the sandblast rounding to form a plurality of shaping workpieces, need not to use adhesive to avoid subsequent handlings such as dispergation, cleaning to being covered the transition workpiece that tool covers by second to being covered the workpiece to be processed that tool covers by first; Thereby save time, labour and cost, guarantee product quality.

Description of drawings

Fig. 1 is the schematic perspective view of the rounding device that provides of first embodiment of the invention.

Fig. 2 is the schematic perspective view of another state of the rounding device among Fig. 1.

Fig. 3 is the floor map of the rounding device among Fig. 2.

Fig. 4 be among Fig. 3 the rounding device first cover tool sketch map.

Fig. 5 be among Fig. 3 the rounding device second cover tool sketch map.

Fig. 6 is the schematic perspective view of workpiece to be processed.

Fig. 7 is that the sandblast assembly of the rounding device among Fig. 2 is to being covered the schematic perspective view that workpiece to be processed that tool covers carries out the transition workpiece that the sandblast cutting forms by first.

Fig. 8 is the floor map of the rounding device that provides of second embodiment of the invention.

Fig. 9 is the schematic perspective view of the rounding device that provides of third embodiment of the invention.

Figure 10 is the generalized section of the rounding device among Fig. 9.

The main element symbol description

Rounding device 10,30,40

Cavity 12,32

Roof 120

Diapire 121

Left side wall 122,422

Right side wall 123,423

Antetheca 124,424

Rear wall 125,425

Space bar 126

Sandblast hole 127

Through hole 128

Suction hole 129

Working chamber 12a

Prepare chamber 12b

Chamber door 13,50

Sandblast assembly 14,34

Bearing assembly 15,35

Support arm 152,352,452

First roller bearing 154

Installing hole 156

Rotary components 16

Stator 162

Rotor 164

Support bar 166

First end 1662

Second end 1664

First covers tool 17

First fixed frame 172

First covering 174

First connector 176

Second covers tool 18

Second fixed frame 182

Second covering 184

Second connector 186

Transmission assembly 19,49

Gripper shoe 192,492

Second roller bearing 194

Installation hole 196

Workpiece to be processed 20

Transition workpiece 20a

Shaping workpiece 20b

The specific embodiment

To do further to specify to embodiment of the present invention below in conjunction with accompanying drawing.

See also Fig. 1, be the rounding device 10 of first embodiment of the invention, it is used for workpiece to be processed 20 (Fig. 6 shows) is cut into transition workpiece 20a (Fig. 7 shows) and this transition workpiece 20a is carried out rounding.

Please combine Fig. 2 and Fig. 3, this rounding device 10 comprise a cavity 12, sandblast assembly 14, bearing assembly 15, rotary components 16, one first cover tool 17, one second and cover tool 18 and a transmission assembly 19.

This cavity 12 roughly becomes cube structure and offers a chamber.This cavity 12 comprises a roof 120, diapire 121, left side wall 122, right side wall 123, antetheca 124, a rear wall 125 and a space bar 126.This roof 120 is parallel relative with this diapire 121, and this roof 120 offers a sandblast hole 127 and a through hole 128, this sandblast hole 127 and these through hole 128 spaces.This left side wall 122 is parallel relative with this right side wall 123.This antetheca 124 is parallel relative with this rear wall 125, is equiped with a chamber door 13 on this antetheca 124, and this chamber door 13 is used for open and this chamber of sealing.This space bar 126 from this diapire 121 extend and with this roof 120 at interval; This space bar 126 is separated into a working chamber 12a and one with this chamber and prepares chamber 12b, and this working chamber 12a and this preparation chamber 12b are communicated with interval between this roof 120 through this space bar 126.The diapire 121 of this working chamber 12a offers a plurality of suction holes 129; The diameter of this suction hole 129 can let sand grains through and the detritus that can not let shaping workpiece and processing work form passes through, outside getter device (figure does not show) can be outside air-breathing to this cavity 12 through this suction hole 129.This left side wall 122, this right side wall 123, common this roof 120 and this diapire 121 of connecting of this antetheca 124 and this rear wall 125 end to end backs.

This sandblast assembly 14 is positioned at this roof 120 and passes this sandblast hole 127 and gets into this working chamber 12a; The part of this sandblast assembly 14 outside this cavity 12 links to each other with a sandblast feeding unit (figure does not show), and it is relative with this bearing assembly 15 that this sandblast assembly 14 is positioned at the part of this cavity 12.

This bearing assembly 15 comprises two support arm 152 and two first roller bearings 154 of being provided with at interval.One end of each support arm 152 is fixed on this rear wall 125, and the other end is unsettled.Each support arm 152 all offers an installing hole 156, and this first roller bearing 154 is installed in this installing hole 156 respectively and can under the drive unit drive of (figure does not show), rotates.This bearing assembly 15 is used to carry this workpiece to be processed 20 and this transition workpiece 20a and makes this workpiece to be processed 20 and this transition workpiece 20a aims at this sandblast assembly 14.

This rotary components 16 comprises a stator 162, a rotor 164 and a support bar 166.This stator 162 is fixed on the roof 120 of these cavity 12 outsides, this stator 162 and this sandblast assembly 14 intervals.This rotor 164 extends and passes this through hole 128 from this stator 162 and gets in these cavitys 12.These support bar 166 vertical fixing are in the end of this rotor 164, and this support bar 166 comprises that one first end 1662 reaches and these first end, 1662 second opposed end 1664, and this first end 1662 and this second end 1664 are positioned at the both sides of this rotor 164.

See also Fig. 4, this first covers tool 17 and comprises one first fixed frame 172, the first covering array and a plurality of first connector 176 that includes a plurality of first coverings 174.This first fixed frame 172 is a rectangle frame, and this first fixed frame 172 is fixedly connected on this first end 1662 and parallel with this diapire 121.This first covering array is positioned at this first fixed frame 172, and this first covering array is a rectangular array in this embodiment.These a plurality of first connectors 176 are positioned at this first fixed frame 172 and should a plurality of first coverings 174 be connected in this first fixed frame 172 with first connected mode.Be formed with a tie point between each first covering 174 and corresponding first connector 176.In this embodiment, be evenly distributed with four first connectors 176 around each first covering 174, promptly have four points of connection between each first covering 174 and this a plurality of first connectors 176, and evenly distribute around this first covering 174.

See also Fig. 5, this second covers tool 18 and comprises one second fixed frame 182, the second covering array and a plurality of second connector 186 that includes a plurality of second coverings 184.This second fixed frame 182 is a rectangle frame, and this second fixed frame 182 is fixedly connected on this second end 1664 and parallel with this diapire 121.This second covering array is positioned at this second fixed frame 182, and this second covering array is identical with this first covering array in this embodiment, and the shape of these a plurality of second coverings 184 is also identical with the shape of these a plurality of first coverings 174.These a plurality of second connectors 186 are positioned at this second fixed frame 182 and should a plurality of second coverings 184 be connected in this second fixed frame 182 with second connected mode that is different from first connected mode.Be formed with a plurality of second tie points between each second covering 184 and corresponding second connector 186; In this embodiment; Be evenly distributed with two first connectors 176 around each second covering 184; Be to have two tie points between each second covering 184 and this a plurality of second connectors 186, and evenly distribute around this second covering 184.The position of first tie point between each first covering 174 and corresponding first connector 176 is different from the position of second tie point between corresponding second covering 184 and corresponding second connector 186.In other words, if with a plurality of second coverings 184 in a plurality of first coverings 174 in this first fixed frame 172 and second fixed frame 182 when overlapping, these a plurality of first connectors 176 and these a plurality of second connectors 186 stagger.

Be appreciated that this first fixed frame 172 and this second fixed frame 182 are not limited to be in this embodiment rectangle frame, this first and second covering array also is not limited to and is rectangular array in this embodiment.This first fixed frame 172 and this second fixed frame 182 can also be circular frame, and this first and second covering array can also be circular array.

See also Fig. 2, this transmission assembly 19 be positioned at this preparation chamber 12b and with this bearing assembly 15 on same horizontal plane, 126 of this horizontal plane and this space bars are separated with certain distance.This transmission assembly 19 comprises a gripper shoe 192 and two second roller bearings 194 that are provided with at interval.One end of this gripper shoe 192 is fixed on this rear wall 125, and the other end is unsettled.Offer the installation hole 196 at two intervals on this gripper shoe 192.Two second roller bearings 194 are installed in respectively in this installation hole 196 and can be in the drive rotations down of drive unit (figure does not show).This transmission assembly 19 is used for carrying and transmitting this workpiece to be processed 20 to this bearing assembly 15.

The structure that is appreciated that this transmission assembly 19 is not limited to this embodiment, can also be designed to the structure identical with this bearing assembly 15.

More than the rounding device 10 of this embodiment is described in detail.See also Fig. 2 to Fig. 6, this rounding device 10 can be used for the workpiece of machining plate-like or sheet, specifies the method that this rounding device 10 is used to process workpiece to be processed 20 at present.

The first step is opened chamber door 13, carries this workpiece to be processed 20 on this transmission assembly 19.

Second step, close chamber door 13, transmit this workpiece to be processed 20 to this bearing assembly 15 and this workpiece to be processed 20 is aimed at this sandblast assembly 14.Particularly; Starting drive unit makes it drive second roller bearing 194 and 154 rotations of first roller bearing; Second roller bearing 194 rotates this workpiece to be processed 20 of drive and on this bearing assembly 15, moves, and this workpiece to be processed 20 of first roller bearing, 154 rotations continuing to drive moves until this workpiece to be processed 20 to be aimed at this sandblast assembly 14.

In the 3rd step, rotate this and first cover tool 17 and make this first cover tool 17 and cover this workpiece to be processed 20 and this second and cover tool 18 and expose these workpieces to be processed 20.Particularly; Thereby these rotor 164 rotating bands this support bar 166 and are rotated and drive this and first cover tool 17 and this second and cover tool 18 and rotate together; When this first covers tool 17 and cover this workpiece to be processed 20, then this second covers tool 18 and exposes these workpieces to be processed 20.

In the 4th step, utilize 14 pairs of this sandblast assemblies first to be covered this workpiece to be processed 20 that tool 17 covers and carry out the sandblast cutting to form transition workpiece 20a by this.

In the 5th step, rotate this and second cover tool 18 and make this second cover tool 18 and cover this transition workpiece 20a and this first and cover tool 17 and expose this transition workpiece 20a.Particularly; Thereby these rotor 164 rotating bands this support bar 166 and are rotated and drive this and second cover tool 18 and this first and cover tool 17 and rotate together; When this second covers tool 18 and cover this transition workpiece 20a, then this first covers tool 17 and exposes this transition workpiece 20a.

In the 6th step, utilize 14 pairs of this sandblast assemblies second to be covered this transition workpiece 20a that tool 18 covers and carry out the sandblast rounding to form a plurality of shaping workpiece 20b by this.After this step, these a plurality of shaping workpiece 20b drop on this diapire 121.

In the 7th step, outside getter device is outside air-breathing to this cavity 12 through this suction hole 129, thereby is deposited in the sand grains sucking-off on this diapire 121.

The 8th step, open chamber door 13, take out shaping workpiece 20b.

Rounding device 10 of the present invention and rounding method are after workpiece to be processed 20 is carried on the bearing assembly 15; Utilize 14 pairs of sandblast assemblies to be covered the workpiece to be processed 20 that tool 17 covers and carry out the sandblast cutting to form transition workpiece 20a by first; Utilize 14 pairs of sandblast assemblies to be covered the transition workpiece 20a that tool 18 covers and carry out the sandblast rounding to form a plurality of shaping workpiece 20b by second; Need not to use adhesive to avoid subsequent handlings such as dispergation, cleaning; Thereby save time, labour and cost, guarantee product quality.

In addition; Space bar 126 can intercept the detritus that drops on the workpiece in sand grains and the rounding process of sandblast assembly 14 ejection and get into and prepare chamber 12b; Therefore the sand grains and the detritus in the rounding process of 14 ejections of sandblast assembly drop basically in working chamber 12a, so make things convenient for centralized collection.After chamber door 13 was closed, these cavity 12 base closeds, the detritus in the rounding process stopped by cavity 12 and can not fly out and hurt operating personnel, treat a rounding operation accomplish after unified again cleaning detritus, open relatively cavity 12 cleaning detritus are comparatively convenient.And, since the diameter of this suction hole 129 can let sand grains through and can not let shaping workpiece and detritus pass through, thereby then outside getter device can be outside air-breathing with the sand grains sucking-off to this cavity 12 through this suction hole 129, sand grains can utilize after collecting again.

See also Fig. 8, be the rounding device 30 of second embodiment of the invention.The rounding device 30 in this embodiment and the difference of the rounding device 10 in first embodiment are: this cavity 32 has saved space bar, and this rounding device 30 has saved transmission assembly.This bearing assembly 35 comprises two support arms 352, these two these workpieces to be processed 20 of support arm 352 together support.

Using 30 pairs of workpieces to be processed 20 of rounding device to add man-hour, only needing workpiece to be processed 20 directly is carried on and workpiece to be processed 20 is aimed at sandblast assembly 34 can carry out follow-up sandblast processing procedure.In other words, the rounding device 10 of relative first embodiment, 30 pairs of workpiece of the rounding device of this embodiment add and have saved transmitting step man-hour.

Please consult Fig. 9 and Figure 10 in the lump, be the rounding device 40 of third embodiment of the invention.The rounding device 40 in this embodiment and the difference of the rounding device 10 in first embodiment are: an end of each support arm 452 is fixed on this rear wall 425, and the other end is fixed on this antetheca 424.One end of this gripper shoe 492 is fixed on this rear wall 425, and the other end is fixed on this antetheca 424.Do not offer chamber door 50 on this antetheca 424, this left side wall 422 and this right side wall 423 are equiped with a chamber door 50 respectively.

Using 40 pairs of workpieces to be processed 20 of rounding device to add man-hour, the first step is that the chamber door 50 of right side wall 423 is opened, and carries workpiece to be processed 20 on this transmission assembly 49.Close the chamber door 50 of right side wall 423 and carry out the operation in above-mentioned second step to the 7th step, the 8th step then was a chamber door 50 of opening left side wall 422, took out shaping workpiece 20b.

The rounding device 10 with in first embodiment of the rounding device 40 of the 3rd embodiment is identical; And owing to an end of each support arm 452 is fixed on this rear wall 425; The other end is fixed on this antetheca 424, and an end of this gripper shoe 492 is fixed on this rear wall 425, and the other end is fixed on this antetheca 424; Then in transport process, this workpiece to be processed 20 is more stable.

It is understandable that, for the person of ordinary skill of the art, can make other various corresponding changes and distortion by technical conceive according to the present invention, and all these change the protection domain that all should belong to claim of the present invention with distortion.

Claims (15)

1. rounding device, it is used for workpiece to be processed is cut into the transition workpiece and this transition workpiece is carried out rounding, and this rounding device comprises:

A cavity, it offers a working chamber;

A bearing assembly, it is arranged in this working chamber and is used to carry this workpiece to be processed and this transition workpiece;

One first covers tool, and it can be arranged in this working chamber rotationally, and is used to cover or exposes this workpiece to be processed and this transition workpiece;

One second covers tool, and it can be arranged in this working chamber rotationally, and is used to cover or exposes this workpiece to be processed and this transition workpiece;

A sandblast assembly; It is arranged at the roof of this cavity and relative with this workpiece to be processed or this transition workpiece on this bearing assembly; This sandblast assembly is used for first being covered this workpiece to be processed that tool covers and carry out the sandblast cutting forming the transition workpiece by this, and to second being covered this transition workpiece that tool covers and carry out the sandblast rounding to form a plurality of shaping workpieces by this.

2. rounding device as claimed in claim 1; It is characterized in that; This cavity comprises this roof, a parallel relative diapire with this roof, a left side wall, a parallel relative right side wall with this left side wall, an antetheca and a parallel relative rear wall with this antetheca, common this roof and this diapire of connecting in the end to end back of this left side wall, this right side wall, this antetheca and this rear wall.

3. rounding device as claimed in claim 2; It is characterized in that; This bearing assembly comprises the support arm of two fixed interval on this cavity, and these two support arms are used for carrying jointly this workpiece to be processed and this transition workpiece, and makes this workpiece to be processed and this transition workpiece and this sandblast assembly alignment.

4. rounding device as claimed in claim 3; It is characterized in that; This bearing assembly also comprises two first roller bearings that can be installed in rotationally respectively in these two support arms; This cavity also offers a preparation chamber that is communicated with this working chamber; This rounding device also comprises a transmission assembly that is fixed in this preparation chamber, and this transmission assembly comprises that one is fixed in gripper shoe and two intervals on this cavity and can be installed in second roller bearing in these two gripper shoes rotationally, and this transmission assembly is used for carrying and transmitting this workpiece to be processed to this bearing assembly.

5. rounding device as claimed in claim 4 is characterized in that, an end of each support arm is fixed on this rear wall, and the other end is unsettled, and an end of this gripper shoe is fixed on this rear wall, and the other end is unsettled.

6. rounding device as claimed in claim 5 is characterized in that, this antetheca is equiped with a chamber door, and this chamber door is used for open and this working chamber of sealing.

7. rounding device as claimed in claim 4 is characterized in that, an end of each support arm is fixed on this rear wall, and the other end is fixed on this antetheca, and an end of this gripper shoe is fixed on this rear wall, and the other end is fixed on this antetheca.

8. rounding device as claimed in claim 7 is characterized in that, this left side wall and this right side wall are equiped with a chamber door respectively, and this chamber door is used for open and this working chamber of sealing.

9. rounding device as claimed in claim 5 is characterized in that, this rounding device also comprises a rotary components; This rotary components comprises a stator, a rotor and a support bar; This stator is positioned at this roof and separated with this sandblast inter-module, and this rotor extends and passes this roof from this stator and gets in this cavity, and this support bar vertical fixing is in the end of this rotor; This support bar comprises that one first end reaches and this first end second opposed end; This first end and this second end are positioned at the both sides of this rotor, and this first covers tool and be fixed in this first end, and this second covers tool and be fixed in this second end.

10. rounding device as claimed in claim 9; It is characterized in that; This first covers tool and comprises one first fixed frame, the first covering array and a plurality of first connector that comprises a plurality of first coverings; This first fixed frame is fixedly connected on this first end and parallel with this diapire; This first covering array is positioned at this first fixed frame, and these a plurality of first connectors are positioned at this first fixed frame and should a plurality of first coverings be fixedly connected on this first fixed frame with first connected mode, and forms one first tie point between each first covering and corresponding first connector.

11. rounding device as claimed in claim 10; It is characterized in that; This second covers tool and comprises one second fixed frame, the second covering array and a plurality of second connector that comprises a plurality of second coverings; The shape of this second covering is identical with the shape of this first covering; This second covering array is identical with this first covering array; This second fixed frame is fixedly connected on this second end and parallel with this diapire, and this second covering array is positioned at this second fixed frame, and these a plurality of second connectors are positioned at this second fixed frame and should a plurality of second coverings be fixedly connected on this second fixed frame with second connected mode that is different from this first connected mode; Form one second tie point between each second covering and corresponding second connector, the position of this second tie point is different from the position of this first tie point.

12. rounding device as claimed in claim 11; It is characterized in that; This first fixed frame and this second fixed frame are rectangle frame; This first and second covering array is rectangular array, and distributing around each first covering is connected with four first connectors, and distributing around each second covering is connected with two second connectors.

13. rounding device as claimed in claim 11; It is characterized in that; This first fixed frame and this second fixed frame are circular frame; This first and second covering array is circular array, and distributing around each first covering is connected with four first connectors, and distributing around each second covering is connected with two second connectors.

14. a rounding method, it utilizes rounding device as claimed in claim 1 that workpiece to be processed is cut into the transition workpiece and this transition workpiece is carried out rounding, and this rounding method may further comprise the steps:

Carry this workpiece to be processed on this bearing assembly, and make this workpiece to be processed and this sandblast assembly alignment;

Rotating this first covers tool and makes this first cover tool and cover this workpiece to be processed and this second and cover tool and expose this workpiece to be processed;

Utilize this sandblast assembly to first being covered this workpiece to be processed that tool covers and carry out the sandblast cutting to form the transition workpiece by this;

Rotating this second covers tool and makes this second cover tool and cover this transition workpiece and this first and cover tool and expose this transition workpiece; And

Utilize this sandblast assembly to second being covered this transition workpiece that tool covers and carry out the sandblast rounding to form a plurality of shaping workpieces by this.

15. rounding method as claimed in claim 14 is characterized in that, this rounding method also comprises: a transmission assembly is provided, utilizes this transmission assembly carrying and transmit this workpiece to be processed to this bearing assembly.

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