CN207771261U - A kind of laser sand-wheel slice cutting machine - Google Patents

Abstract

The utility model belongs to material cutting technique field, more particularly to a kind of laser sand-wheel slice cutting machine.Including：Rack components carries the frame structure of operation console, the placement of support and component for scribing machine various components；At least one set of grinding wheel component is mounted on the operation console of the rack components, is used for the cutting of workpiece；At least one set of laser module is mounted on the operation console of the rack components, is adjacently positioned with the grinding wheel component, and the cutting of workpiece is used for, and the cutting for carrying out workpiece is coordinated with the grinding wheel component；Transmission and pickup component are arranged in the feeding end of the laser module and grinding wheel component, for the workpiece pickup and transmission after processing, before processing or in process；The control system control transmission and pickup component transferring work piece and grinding wheel component and laser module are to the cutting position of workpiece, the control of depth and time；It is problematic that the utility model solves the technique groups between laser cutting and emery wheel cuts.

Description

A kind of laser sand-wheel slice cutting machine

Technical field

The utility model belongs to material cutting technique field, more particularly to a kind of laser sand-wheel slice cutting machine.

Background technology

Currently, composite material cutting is all directly to use sand-wheel slice cutting machine, laser using laser scribing means or directly mostly Scribing machine is to be radiated at material surface to be cut using high energy laser beam, makes irradiated area local melting, gasification, to reach The purpose of scribing.Because laser is to become a very small luminous point after special optics into focus, energy density is high, Yin Qijia Work is contactless, to material itself without mechanical stamping press.Although being improved using laser scribing means working efficiency, It is to have the following disadvantages material cut edge rolled edge deformity, causes to cut poor quality state, laser scribing means is due to using Be high-temperature digestion mode, it is rotten to easily cause surface chemistry to the material of certain particular/special requirements, to non-conductive cutting thickness It is restricted, the ash content composite material for being not easy to melt under high temperature is also difficult to, there is also heat affected area to ask for laser scribing means Topic.

Sand-wheel slice cutting machine is contact mechanical processing, belongs to Physical Processing mode, so being suitble to the material of processing compared with laser Scribing machine is more extensive, is suitble to the cutting of conductive material, non-conducting material and semiconductive material.The surface of machined material is not easy Generate microcosmic variation.The width of slot is directly determined that cutting accuracy is by cutting speed and blade table by sand-wheel slice cutting machine blade Face controls.But consumptive material is big in cutting process, often will more allowing blade replacement, and cutting efficiency is low, cutting cost is high, cutting material Material has some limitations.

Invention content

Insufficient present in emery wheel cuts and laser cutting process in order to solve, the utility model provides a kind of laser grinding wheel Scribing machine, the technique groups solved between laser cutting and emery wheel cuts are problematic, solve laser cutting and emery wheel cuts point The cost problem of body processing.

The purpose of this utility model is achieved through the following technical solutions：

Laser sand-wheel slice cutting machine, which is characterized in that including：

Rack components carries the frame structure of operation console, the placement of support and component for scribing machine various components；

At least one set of grinding wheel component is mounted on the operation console of the rack components, is used for the cutting of workpiece；

At least one set of laser module is mounted on the operation console of the rack components, is adjacently positioned with the grinding wheel component, For the cutting of workpiece, the cutting for carrying out workpiece is coordinated with the grinding wheel component；

Transmission and pickup component, are arranged in the feeding end of the laser module and grinding wheel component, for after processing, before processing Or the workpiece in process picks up and transmission；

Control system controls the transmission and pickup component transferring work piece and grinding wheel component with laser module to workpiece Cutting position, the control of depth and time.

Further, the transmission and pickup component include：Feeding stock conveyer belt, is arranged in the laser module and grinding wheel The feeding end of component, for after work pieces process, before processing or in process workpieces processing laser module and grinding wheel component it Between transmission；

Stock plate is slidably connected with feeding stock conveyer belt, the undertaking carrier as workpiece during material transferring；

Manipulator is slidably connected with feeding stock conveyer belt, links with the stock plate, for processing front and back workpiece Pickup；

Feeding carrier, for carrying workpiece, the feeding carrier by the manipulator grinding wheel component, laser module with It is transmitted between stock plate.

Further, the manipulator include can 360 ° of rotations connecting rods and the handgrip that is connect with the interlinking lever end, institute It is two pieces to state stock plate, is separately positioned on manipulator both sides, is used for the isolation of operating process of the workpiece in transmission.

Further, the manipulator is looked in feeding stock conveyer belt operation to correspondence according to the instruction of control system Grinding wheel component or laser module after, according to control instruction pick up stock plate on workpiece, rotation manipulator carry out feeding processing；

When grinding wheel component or laser module work finish when needing pickup, the manipulator rotation picks up workpiece to stock After the clean operation for carrying out workpiece on plate, it is transferred on the workbench of grinding wheel component or laser module that next process needs.

Further, the grinding wheel component includes：

X-axis kinematic system I is arranged on the operation console of the rack components, is arranged, is used for along operating table surface horizontal direction Slidably upper flitch I in the feed motion of workpiece to be processed, including X-axis track I and setting X-axis track；

Y-axis kinematic system I, including Y-axis track I, are arranged on the operation console of the rack components, the Y-axis track I with The X-axis track I is arranged vertically, and there are gaps between X-axis track I, are used for the lattice position of each moving component of grinding wheel component The accurate transmission set；

Z axis jacking system I is arranged along perpendicular to the operating table surface direction of the rack components, with I phase of Y axis track It hands over, there are gaps, including two blocks of side plates I, slide plate I and bottom plate I, two blocks of side plates I to be fixed on bottom between the X-axis track I On plate I, bottom plate I is slidably connected with Y-axis track I, is slidably connected to form Z axis track I between two blocks of side plates I and slide plate I, Z axis rail Road I uses lead screw guide rail；

Air spindle I is fixedly mounted on the slide plate I of Z axis jacking system, is loaded for grinding wheel component medium plain emery wheel blade；

Image processing system I is arranged in parallel in the air spindle I on Z axis jacking system, is used for image procossing；

Rotary table I is mounted in the upper flitch I, the different angle processing for workpiece to be processed and position school It is right.

Further, the laser module includes：

X-axis kinematic system II is arranged on the operation console of the rack components, is arranged along operating table surface horizontal direction, is used Slidably upper flitch II in the feed motion of workpiece to be processed, including X-axis track II and setting X-axis track II；

Y-axis kinematic system, including Y-axis track II, are arranged on the operation console of the rack components, the Y-axis track II It is arranged vertically with the X-axis track II, there are gaps between X-axis track II, are used for the crystalline substance of each moving component of laser module The accurate transmission that case is set；

Z axis jacking system II is arranged along perpendicular to the operating table surface direction of the rack components, with the Y axis track II Intersection, there are gap, including two blocks of side plates II, slide plate II and bottom plate II between the X-axis track II, two blocks of side plates II are solid It is scheduled on bottom plate II, bottom plate II is slidably connected with Y-axis track II, is slidably connected to form Z axis between two blocks of side plates II and slide plate II Track II, Z axis track II use lead screw guide rail；

Laser head is fixedly mounted on the slide plate II of Z axis jacking system, is cut by laser to workpiece；

Image processing system II is arranged in parallel in the laser head on Z axis jacking system, is used for image procossing；

Rotary table II is mounted in the upper flitch II, the different angle processing for workpiece to be processed and position Check and correction.

Further, waterproof is arranged between the laser module and adjacent grinding wheel component.

The beneficial effects of the utility model：

Laser and emery wheel cuts process equipment are organically combined by the utility model, solve laser cutting and grinding wheel The cost problem of parts processing is cut, the technique groups solved between laser cutting and emery wheel cuts are problematic；Reduce laser The yields cut and brought in transportational process between emery wheel cuts provides a kind of special process device and complex cuts technique.

The utility model laser sand-wheel slice cutting machine solves the problems, such as that conventional laser scribing machine can not cut through cutting workpiece, It solves laser scribing means and cuts poor quality state, solve the problems, such as laser cutting machine heat affected area.

The utility model laser sand-wheel slice cutting machine reduces the cutting cost of emery wheel cuts, improves the cutting of emery wheel cuts Efficiency.

Description of the drawings

Fig. 1 is the structural schematic diagram of the scribing machine of the utility model；

Fig. 2 is the structural schematic diagram that frame is isolated in the band that the utility model embodiment provides；

1, air spindle I, 2, image processing system I, 3, Z axis track I, 4, Y-axis track I, 5, X-axis track I, 6, rotation Workbench I, 7, feeding are stocked up conveyer belt, and 8, rack components, 9, laser head, the 10, first stock plate, 11, manipulator, 12, feeding Carrier, 13, image processing system II, 14, Z axis track II, 15, Y-axis track II, 16, X-axis track II, 17, rotary table II, 18, isolation frame, 19, upper flitch I, 20, upper flitch II, 21, connecting rod, the 22, handgrip, 23, second stock plate, 23, side plate I, 24, slide plate I, 25, bottom plate I, 26, side plate II, 27, slide plate II, 28, bottom plate II.

Specific implementation mode

In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with attached drawing and implementation Example, the present invention will be further described in detail.It should be appreciated that specific embodiment described herein is only used to explain The utility model is not used to limit the utility model.

A kind of laser sand-wheel slice cutting machine, referring to Fig. 1, including rack components, grinding wheel component, laser module, control system with And transmit and pick up component；Rack components 8 is the frame structure with operation console, the support for scribing machine various components and group The placement of part；Grinding wheel component and laser module are installed on the operation console of rack components 8, and grinding wheel component cuts workpiece It cuts, laser module carries out the cutting of workpiece with grinding wheel component cooperation；Grinding wheel group may be used in the cutting for completing different workpieces Part is combined with laser module cutting and is cut, and is selected according to workpiece property；Transmission and pickup component are arranged in described sharp The feeding end of optical assembly and grinding wheel component, for the workpiece pickup and transmission after processing, before processing or in process；Control system The system control transmission and pickup component transferring work piece and grinding wheel component and laser module are to the cutting position of workpiece, depth With the control of time.In the present embodiment 1, two groups of grinding wheel components and one group of laser module are set, and two groups of grinding wheel components are respectively sand Grinding wheel component, intermediate arrangement laser module are arranged in wheel assembly I and grinding wheel component II, operation console both ends；The knife of two groups of grinding wheel components Piece is different, in transmission and pickup component mounting operation platform on the operation console at the feeding end of laser module and grinding wheel component, is used for It transmission of the workpiece between two groups of grinding wheel components and one group of laser module and is picked up after work pieces process, before processing or in process It takes.The utility model can be arranged multiple with different model grinding wheel blade according to the property of cutting workpiece and the requirement of cutting Grinding wheel component and the multiple laser modules with different capacity laser head of setting.

Shown in Fig. 1 combinations Fig. 2, transmission and pickup component include feeding stock conveyer belt 7, stock plate, feeding carrier 12 and manipulator 11, feeding stock conveyer belt 7 is arranged in the feeding end of the laser module and grinding wheel component, for workpiece plus After work, process transmission of the workpieces processing between laser module and grinding wheel component in preceding or process；Stock plate is sent with described Material stock conveyer belt 7 is slidably connected, the undertaking carrier as workpiece during material transferring；Two pieces of stock plate arrangement, respectively First stock plate 10 and second is stocked up plate 23, the isolation of operating process of the workpiece in transmission is used for, when workpieces processing is from grinding wheel Cutting action take out or from laser cutting process take out after workpiece surface there are some impurity or moisture, need wherein first Cleaning treatment is carried out on stock plate 10, then by being prepared to enter into next process in the placement of manipulator 11 to the second stock plate 23 Cutting；Feeding carrier 12 is for carrying workpiece, and feeding carrier 12 is by the manipulator 11 in grinding wheel component, laser module, the It is transmitted between the one stock stock plate 23 of plate 10 and second；Manipulator 11 and the feeding stock conveyer belt 7 are slidably connected, and described The first stock stock plate 23 of plate 10 and second links, and the pickup for processing front and back workpiece, manipulator 11 includes can 360 ° of rotations Connecting rod 21 and the handgrip 22 that is connect with 21 end of the connecting rod, the setting of manipulator 11 stock up in the first stock plate 10 and second Between plate 23.

Manipulator 11 is controlled by control system, and after manipulator 11 receives control instruction, manipulator 11 is stocked up in feeding and passed It send band 7 to run, is looked for according to instruction to after corresponding grinding wheel component or laser module, being picked up on stock plate 10 according to control instruction Workpiece, rotation manipulator 11 carry out feeding processing；When grinding wheel component or laser module work finish need pickup when, the machinery The rotation of hand 11 picks up workpiece to the clean operation of progress workpiece on stock plate 10, is transferred to the grinding wheel that next process needs On the workbench of component or laser module.

Grinding wheel component include X-axis kinematic system I, Y-axis kinematic system I, Z axis jacking system I, air spindle I 1, at image System I 2 and rotary table I 6 are managed, X-axis kinematic system I is arranged on the operation console of the rack components 8, along operating table surface Horizontal direction is arranged, the feed motion of workpiece to be processed is used for, and X-axis kinematic system I includes X-axis track I and setting X-axis track I On slidably upper flitch I；X-axis kinematic system I is driven by motor, and motor I drives feeding after control system sends out control Plate I slides on X-axis track I, and Y-axis kinematic system I includes Y-axis track I 4, is arranged in the operation console of the rack components 8 On, the Y-axis track I 4 is arranged vertically with the X-axis track I 5, and there are gap, Y-axis kinematic systems I between X-axis track I 5 It is driven by motor, Y-axis kinematic system I is controlled by control system, and motor III drives grinding wheel group after control system sends out control The accurate transmission of the lattice position of each moving component of part；Z axis jacking system I, including two blocks of side plates I 23, slide plate I 24 and bottom Plate I 25, two blocks of side plates I 23 are fixed on bottom plate I 25, and bottom plate I 25 is slidably connected with Y-axis track I, two blocks of side plates I 23 and slide plate It is slidably connected to form Z axis track I 3 between I 24, Z axis track I 3 uses lead screw guide rail, by motor control slide plate I 24 is mainly used for The feeding with high precision of main shaft cutting is realized in the lifting of air spindle；Air spindle I 1 is fixedly mounted on the slide plate of Z axis jacking system On I, loaded for grinding wheel component medium plain emery wheel blade；Image processing system I 2 is arranged in parallel in Z axis liter with the air spindle I 1 It drops in system I, is mainly used for processing, automatic aligning, automatic identification of image etc.；Rotary table I 6 is transported mounted on the X axis In the upper flitch of dynamic system I, the different angle processing for workpiece to be processed and position check and correction.Isolation is covered with outside grinding wheel component Frame 18, isolation frame 18 are mounted on operation console, are used to be isolated between laser module and adjacent grinding wheel component and waterproof is arranged.

Laser module include X-axis kinematic system II, Y-axis kinematic system II, Z axis jacking system II, laser head 9, at image Reason system II 13 and rotary table II 17, X-axis kinematic system II are arranged on the operation console of the rack components 8, along behaviour Make table-surface level direction arrangement, be used for the feed motion of workpiece to be processed, X-axis kinematic system II includes X-axis track II and setting Slidably upper flitch II on X-axis track II；X-axis kinematic system II is driven by motor, and control system sends out electricity after control Machine II drives upper flitch II to be slided on X-axis track II, and Y-axis kinematic system includes Y-axis track II 15, is arranged in the rack group On the operation console of part 8, the Y-axis track II 15 is arranged vertically with the X-axis track II 16, between X-axis track II 16 there are Gap, Y-axis kinematic system I are driven by motor, and Y-axis kinematic system I is controlled by control system, and control system is sent out after control Motor III drives the accurate transmission of the lattice position of each moving component of laser module；Z axis jacking system II is along perpendicular to described The operating table surface direction of rack components 8 is arranged, is intersected with the Y-axis track II 15, between the X-axis track II 16 there are Gap；Including two blocks of side plates II 26, slide plate II 27 and bottom plate II 28, two blocks of side plates II 26 are fixed on bottom plate II 28, bottom plate II 28 are slidably connected with Y-axis track II 16, are slidably connected to form Z axis track II 14, Z between two blocks of side plates II 26 and slide plate II 27 Axis track II 14 uses lead screw guide rail；It is mainly used for the lifting of laser head 9, realizes the feeding with high precision of laser cutting；Fixed peace On the slide plate II 27 of Z axis jacking system, workpiece is cut by laser；Image processing system II 13 and the laser head 9 It is arranged in parallel on Z axis jacking system II, is mainly used for processing, automatic aligning, automatic identification of image etc.；Rotary table II 17 are mounted in the upper flitch of the X-axis kinematic system II, the different angle processing for workpiece to be processed and position check and correction.Swash Isolation frame 18 is covered with outside optical assembly, isolation frame 18 is mounted on operation console, for laser module and adjacent grinding wheel component it Between isolation and waterproof setting.

The control process of control system includes：According to the operational order of control system, controlling transmission and pickup component drive Workpiece is moved to grinding wheel component or laser module needed for process in transmission and pickup component；It carries out workpiece and grinding wheel component or swashs Optical assembly position corresponds to；The transmission of workpiece is carried out by transmitting and picking up component；Grinding wheel component or laser module are according to control After the instruction of system carries out workpiece the check and correction of position, cut according to the clipping time of control system offer, depth of cut；Control Workpiece processed cuts in grinding wheel component with laser module one or many repeatedly.

A kind of cutting method of laser sand-wheel slice cutting machine of the utility model is cut using the combination of laser and grinding wheel, described Combining the mode cut includes：After emery wheel cuts, suitable laser power is selected to be cut by laser, it is repeatedly or not anti- It is multiple；Or using laser cutting after, select emery wheel cuts, repeatedly or not repeatedly.The process of the emery wheel cuts includes repeatedly different The combination of specification grinding wheel is cut, and the process of the laser cutting includes the combination cutting of multiple different laser powers.

In the present embodiment, a kind of cutting process of laser sand-wheel slice cutting machine, according to the operational order of control system, control passes Defeated and pickup component drives workpiece to be slided on feeding stock conveyer belt 7, and stock plate 10 and manipulator 11 are moved to grinding wheel component Feeding end；Workpiece is placed in the upper flitch of grinding wheel component by the rotation of manipulator 11, and grinding wheel component is according to the finger of control system After enabling the check and correction for carrying out position to workpiece, the part that grinding wheel component carries out workpiece according to the control instruction of control system is cut, and is cut After cutting completion, manipulator 11 picks up the workpiece on grinding wheel component according to control instruction, by workpiece transfer to feeding carrier 12, Cleaning processing then is carried out to workpiece, by workpiece transfer to another stock plate 10 after processing, transmission and pickup component carry out The transmission of subsequent processing；Stock plate 10 and manipulator 11 are moved to the feeding end of laser module, and laser module is according to control system Instruction to workpiece carry out position check and correction after, laser module according to the control instruction of control system carry out workpiece part cut It cuts, after cutting is completed, manipulator 11 picks up the workpiece on laser module according to control instruction, by workpiece transfer to feeding carrier On 12, cleaning processing then is carried out to workpiece, workpiece transfer is stocked up to another on plate 10 after processing, transmits and pick up component Carry out the transmission of subsequent processing；Stock plate 10 and manipulator 11 are moved to another grinding wheel component with different grinding wheel blades Feeding end, after grinding wheel component carries out workpiece according to the instruction of control system the check and correction of position, grinding wheel component is according to control system Control instruction carry out workpiece cut completely, cutting complete after, manipulator 11 according to control instruction pick up grinding wheel component on Workpiece then carries out cleaning processing by workpiece transfer to feeding carrier 12 to workpiece, completes the overall process of work piece cut.This The cutting process of utility model can select the cutting process of workpiece with the property of foundation workpiece and split requirement, and workpiece is in grinding wheel group Part cuts one or many repeatedly with laser module.Laser cutting-emery wheel cuts or emery wheel cuts-laser cutting may be implemented Conventional combination can also realize complicated combination cutting technique repeatedly.

Two groups of grinding wheel components and one group of laser module, laser cutting is used to be used as main processing method in the present embodiment, It is the demand in order to improve processing efficiency with composite processing.Emery wheel cuts cut carrying for quality after being mainly used for laser cutting Rise the processing realization that cannot achieve material with laser.For the cutting flow of different materials, carried out by the acquisition of data organic Cutting technique combination and cutting mode diversification combine, to reach the different process requirements of different product.It may be implemented to swash The conventional combination of light cutting-emery wheel cuts or emery wheel cuts-laser cutting can also realize the complicated cutting of combination repeatedly.If The standby extensive interface with diversification is, it can be achieved that automatic, semi-automatic and full-automatic and cleaning cooperation multiplexing section equipment Combine carrier.

Embodiment 2, the present embodiment difference from example 1 is that, using one group of grinding wheel component and one group of laser group Part and cooperation cutting.

Embodiment 3, the present embodiment difference from example 1 is that, using three groups of grinding wheel components and one group of laser group Part cooperation cutting, three groups of grinding wheel components are respectively grinding wheel component I, grinding wheel component II and grinding wheel component III, three groups of grinding wheel components The middle grinding wheel blade used is the blade of different model.

Embodiment 4, the present embodiment difference from example 1 is that, using three groups of grinding wheel components and two groups of laser groups Part cooperation cutting, three groups of grinding wheel components are respectively grinding wheel component I, grinding wheel component II and grinding wheel component III, two groups of laser modules Respectively laser module I and laser module II, the grinding wheel blade used in three groups of grinding wheel components is the blade of different model, two groups Laser module uses the laser head of different capacity.

Embodiment 5, the present embodiment difference from example 1 is that, using four groups of grinding wheel components and two groups of laser groups Part cooperation cutting, four groups of grinding wheel components are respectively grinding wheel component I, grinding wheel component II, grinding wheel component III and grinding wheel component V, and two Group laser module is respectively laser module I and laser module II, and the grinding wheel blade used in four groups of grinding wheel components is different model Blade, two groups of laser modules use the laser head of different capacity.

Above description is only a specific implementation of the present invention, when cannot be limited with this utility model implementation Range, it is all according to equivalent variations made by the utility model and modification, it should all belong to the scope of protection of the utility model.

Claims (7)

1. laser sand-wheel slice cutting machine, which is characterized in that including：

Rack components carries the frame structure of operation console, the placement of support and component for scribing machine various components；

At least one set of grinding wheel component is mounted on the operation console of the rack components, is used for the cutting of workpiece；

At least one set of laser module is mounted on the operation console of the rack components, is adjacently positioned, is used for the grinding wheel component The cutting of workpiece coordinates the cutting for carrying out workpiece with the grinding wheel component；

Transmission and pickup component, be arranged in the feeding end of the laser module and grinding wheel component, for process after, processing before or add Workpiece pickup during work and transmission；

Control system, controls the transmission and pickup component transferring work piece and grinding wheel component cuts workpiece with laser module Cut position, the control of depth and time.

2. laser sand-wheel slice cutting machine according to claim 1, which is characterized in that the transmission and pickup component include：It send Material stock conveyer belt, is arranged in the feeding end of the laser module and grinding wheel component, for after work pieces process, before processing or processing Transmission of the workpieces processing between laser module and grinding wheel component in the process；

Stock plate is slidably connected with feeding stock conveyer belt, the undertaking carrier as workpiece during material transferring；

Manipulator is slidably connected with feeding stock conveyer belt, links with the stock plate, for processing picking up for front and back workpiece It takes；

Feeding carrier, for carrying workpiece, the feeding carrier is by the manipulator in grinding wheel component, laser module and stock It is transmitted between plate.

3. laser sand-wheel slice cutting machine according to claim 2, which is characterized in that the manipulator includes can 360 ° of rotations Connecting rod and the handgrip being connect with the interlinking lever end, the stock plate are two pieces, are separately positioned on manipulator both sides, are used for work The isolation of operating process of the part in transmission.

4. laser sand-wheel slice cutting machine according to claim 3, which is characterized in that the manipulator is according to the finger of control system It enables, after feeding stock conveyer belt operation is looked for corresponding grinding wheel component or laser module, is picked up according to control instruction standby Workpiece on flitch, rotation manipulator carry out feeding processing；

When grinding wheel component or laser module work finish when needing pickup, the manipulator rotation picks up workpiece to stock plate After the clean operation for carrying out workpiece, it is transferred on the workbench of grinding wheel component or laser module that next process needs.

5. laser sand-wheel slice cutting machine according to claim 1, which is characterized in that the grinding wheel component includes：

X-axis kinematic system I is arranged on the operation console of the rack components, is arranged along operating table surface horizontal direction, for be added Slidably upper flitch I in the feed motion of work workpiece, including X-axis track I and setting X-axis track；

Y-axis kinematic system I, including Y-axis track I, are arranged on the operation console of the rack components, the Y-axis track I with it is described X-axis track I is arranged vertically, and there are gaps between X-axis track I, the lattice position for each moving component of grinding wheel component Accurate transmission；

Z axis jacking system I intersects along perpendicular to the operating table surface direction of rack components arrangement with the Y-axis track I, with There are gaps, including two blocks of side plates I, slide plate I and bottom plate I, two blocks of side plates I to be fixed on bottom plate I between the X-axis track I, Bottom plate I is slidably connected with Y-axis track I, is slidably connected to form Z axis track I between two blocks of side plates I and slide plate I, and Z axis track I uses Lead screw guide rail；

Air spindle I is fixedly mounted on the slide plate I of Z axis jacking system, is loaded for grinding wheel component medium plain emery wheel blade；

Image processing system I is arranged in parallel in the air spindle I on Z axis jacking system, is used for image procossing；

Rotary table I is mounted in the upper flitch I, the different angle processing for workpiece to be processed and position check and correction.

6. laser sand-wheel slice cutting machine according to claim 2, which is characterized in that the laser module includes：

X-axis kinematic system II is arranged on the operation console of the rack components, is arranged along operating table surface horizontal direction, for waiting for Slidably upper flitch II in the feed motion of workpieces processing, including X-axis track II and setting X-axis track II；

Y-axis kinematic system, including Y-axis track II, are arranged on the operation console of the rack components, the Y-axis track II and institute It states X-axis track II to be arranged vertically, there are gaps between X-axis track II, are used for the lattice position of each moving component of laser module The accurate transmission set；

Z axis jacking system II intersects along perpendicular to the operating table surface direction of rack components arrangement with the Y-axis track II, There are gaps, including two blocks of side plates II, slide plate II and bottom plate II, two blocks of side plates II to be fixed between the X-axis track II On bottom plate II, bottom plate II is slidably connected with Y-axis track II, is slidably connected to form Z axis track between two blocks of side plates II and slide plate II II, Z axis track II uses lead screw guide rail；

Laser head is fixedly mounted on the slide plate II of Z axis jacking system, is cut by laser to workpiece；

Image processing system II is arranged in parallel in the laser head on Z axis jacking system, is used for image procossing；

Rotary table II is mounted in the upper flitch II, the different angle processing for workpiece to be processed and position check and correction.

7. laser sand-wheel slice cutting machine according to claim 1, which is characterized in that the laser module and adjacent grinding wheel group Waterproof is arranged between part.