CN206475306U - Cut guide wheel, groover and multi-wire saw equipment - Google Patents

Abstract

The utility model discloses a kind of cutting guide wheel, groover and the multi-wire saw equipment with cutting guide wheel, and the cutting guide wheel includes：Guide wheel body and guided wheel slot coating, the guided wheel slot coating are overlying on guide wheel body peripheral and have an at least metallic channel configuration layer to configure metallic channel, and the metallic channel configuration layer is used to configure an at least metallic channel.The groover includes：Operating platform；Cut guide wheel mounting structure；Guide pulley transmission unit is cut, for driving the cutting guide wheel installed by cutting guide wheel mounting structure to rotate；Grooving apparatus, with grooving tool and grooving tool travel mechanism, by driving grooving tool to shift and retreating to carry out at least fluting operation together to each cutting guide wheel so that each described cutting guide wheel mutual spacing of the metallic channel that is formed in the fluting operation with along with meets default line-spacing.

Description

Cut guide wheel, groover and multi-wire saw equipment

Technical field

The utility model is related to squaring silicon bar technical field, more particularly to a kind of to cut guide wheel, groover and carry Cut the multi-wire saw equipment of guide wheel.

Background technology

When manufacturing various semiconductors, photovoltaic device, the semiconductor die of the hard brittle materials such as silicon, sapphire, ceramics will be included Ingot cutting processing is the chip for requiring thickness.It is the important procedure that restricts follow-up finished product because chip is cut, thus to it Processing request also more and more higher.At present, multi-wire cutting technology is due to production efficiency is high, processing cost is low, machining accuracy is high The features such as, it is widely used in the production of the crystal-cut of industry.

Referring to Fig. 1, it is general, multiple cutting guide wheels pair being parallel to each other are arranged at intervals with multi-wire saw equipment, often One cutting guide wheel is led to (such as setting up and down or left and right set or front and rear setting) two cuttings for including being oppositely arranged 70a, 70b are taken turns, and is wound with line of cut on two cutting guide wheels 70a, 70b of each cutting guide wheel pair and forms line of cut Section 80, because cutting guide wheel is to be arranged in parallel, therefore, forming many between two cutting guide wheels in multiple cutting guide wheels pair Bar cutting line segment 80 is parallel to each other, for carrying out multi-wire saw operation to workpiece 90.

Referring to Fig. 2, the schematic cross-section to cut guide wheel in Fig. 1.With reference to Fig. 1 and Fig. 2, cutting guide wheel 70 is direct shadow Ring and several wires for being used to fix line of cut 80 being parallel to each other are offered on the strength member of machining accuracy, cutting guide wheel 70 Groove 71.Being tightened inside each bar metallic channel 71 can be with the line of cut 80 of the cutting high-speed motion of guide wheel 70.Prior art In, the periphery of cutting guide wheel 70 is coated with polyurethane material mostly, and its quality is from the cutting matter for being largely fixed workpiece Amount.To ensure workpiece thickness uniform properties, line of cut needs equably, to be stably distributed on cutting guide wheel.And cut in polyurethane Cut and slotted on guide wheel, it is ensured that its stability.

For foregoing cutting guide wheel and the multi-wire saw equipment with the cutting guide wheel, the common existing mode of industry For：Fluting operation first is carried out (for example to polyurethane cutting guide wheel：Cutting guide wheel is delivered into hire of processing work enterprise to be led in cutting by it Polyurethane material is coated on wheel and is slotted, or, the polyurethane cutting slotted directly is bought from hire of processing work enterprise and is led Wheel) to form metallic channel；Each polyurethane slotted cutting guide wheel is installed on the cutting rack of cutting equipment；By line of cut Sequentially it is wound in each polyurethane cutting guide wheel in corresponding metallic channel.

In the above-described techniques, it is understood that there may be missing be：Polyurethane cutting guide wheel is distinguished again after fluting operation It is installed on corresponding cutting rack, although the spacing of cutting rack is pre-designed and determined, still, because polyurethane is cut Cut guide wheel when mounted due to human factor and mounting means (for example：May be numerous using screw locking and screw quantity) etc. because Element, on the one hand, the perpendicularity (being set if erectting) or levelness (if horizontally disposed) of polyurethane cutting guide wheel have deviation, The perpendicularity or levelness of the line of cut of winding are influenceed, on the other hand, in adjacent polyurethane cutting guide wheel between respective wire groove Spacing etc. and may also be pre-designed and there is deviation, so, be wound on polyurethane cutting guide wheel between each section of cutting line segment It is unequal away from meeting.These can all influence the cut quality of workpiece, and the former can influence the carefully and neatly done degree of cut surface, and the latter can influence workpiece The thickness evenness of each stripping and slicing or each section after cutting.Certainly, the hire of processing work enterprise outside fluting operation commission comes Complete, also increase the quality risk of metallic channel in polyurethane cutting guide wheel.

Utility model content

The purpose of this utility model is to disclose a kind of cutting guide wheel, groover and the multi-wire cutting with cutting guide wheel Equipment is cut, the wire for solving correspondence position in the fluting precision of cutting guide wheel presence in the prior art and each cutting guide wheel The problems such as there is deviation in spacing between groove.

The utility model discloses a kind of cutting guide wheel on the one hand, including：Guide wheel body；Guided wheel slot coating, is overlying on described Guide wheel body peripheral；The guided wheel slot coating has an at least metallic channel configuration layer, and the metallic channel configuration layer is used to configure extremely A few metallic channel.

In some embodiments, the center of the guide wheel body is provided with power transmission shaft, and the power transmission shaft is tied provided with installation Structure.

In some embodiments, the mounting structure is installation screw or installation through-hole.

In some embodiments, the metallic channel configuration layer is multiple, and multiple metallic channel configuration layers are tieed up in thickness It is layered on top of each other on degree.

In some embodiments, the metallic channel configured on the metallic channel configuration layer is multiple, and multiple metallic channels are in width It is arranged at intervals and is parallel to each other in degree dimension.

The utility model discloses a kind of groover on the other hand, including：Operating platform；Guide wheel mounting structure is cut, is used Guide wheel is cut in installing；Guide pulley transmission unit is cut, for driving the cutting installed by the cutting guide wheel mounting structure to lead Wheel is rotated；Grooving apparatus, including：Grooving tool；Grooving tool travel mechanism, for driving the grooving tool to shift and retreating To carry out at least fluting operation together to cutting guide wheel each described so that each described cutting guide wheel is in operation of being slotted with along with The spacing that the metallic channel of middle formation is mutual meets default line-spacing.

In some embodiments, the grooving tool travel mechanism includes：First direction shift mechanism, for driving Grooving tool is stated to move along the first direction at the cutting guide wheel specified to be moved to；Second direction driving and reversing mechanism, for driving The grooving tool is moved to retreat with towards the cutting guide wheel feed or away from the cutting guide wheel withdrawing along second direction.

In some embodiments, the cutting guide pulley transmission unit includes：Cut guide wheel drive disk assembly；Second direction is moved Motivation structure, for driving the cutting guide wheel drive disk assembly to move in a second direction to contact and be driven the cutting guide wheel.

In some embodiments, the groover also includes：Grinding or turning cutting tool, on the grooving apparatus, For carrying out cylindrical lapping or cylindrical turning to the cutting guide wheel.

The utility model discloses a kind of multi-wire saw equipment at another aspect, including：Support；Cutting rack, located at the machine Seat；Guide wheel is cut as previously described, located at the cutting rack；Line of cut, is wound in the metallic channel that the cutting guide wheel is configured.

The disclosed cutting guide wheel of the utility model, groover and the multi-wire saw equipment with cutting guide wheel, the cutting Guide wheel includes guide wheel body and is overlying on the guided wheel slot coating of guide wheel body peripheral, using groover in the guided wheel slot in cutting guide wheel Fluting operation is carried out on coating to form metallic channel, so that relative position in each cutting guide wheel in multi-wire saw equipment The spacing of the metallic channel at place can meet the requirement of default line-spacing, it is ensured that the size precision of work piece cut.

Brief description of the drawings

Fig. 1 is the structural representation of multi-wire saw equipment.

Fig. 2 is the schematic cross-section of cutting guide wheel.

Fig. 3 is that the utility model cuts the flow synoptic chart that guide wheel carries out fluting operation.

Fig. 4 is the stereogram that the utility model is used to carry out foregoing cutting guide wheel the groover of fluting operation.

Fig. 5 is the front view of groover.

Fig. 6 is the side view of groover.

Fig. 7 is the top view of groover.

Fig. 8 is to cutting the schematic flow sheet of the fluting operation of guide wheel progress in the first embodiment using groover.

Fig. 9 is the view of groover in step S21 in Fig. 8.

The refined flow chart that Figure 10 is step S23 in Fig. 8.

Figure 11 is the view of groover in step S232 in Figure 10.

Figure 12 is the view of groover in step S233 in Figure 10.

Figure 13 is to cutting the schematic flow sheet of the fluting operation of guide wheel progress in a second embodiment using groover

The refined flow chart that Figure 14 is step S33 in Figure 13.

The refined flow chart that Figure 15 is step S35 in Figure 13.

Figure 16 is to cutting the schematic flow sheet of the fluting operation of guide wheel progress in the third embodiment using groover.

Figure 17 and Figure 18 is two neighboring cutting guide wheel in the structural representation after the fluting operation shown in Figure 16.

Figure 19 is to cutting the schematic flow sheet of the fluting operation of guide wheel progress in the fourth embodiment using groover.

Figure 20 is schematic flow sheet of the fluting operation carried out using groover to cutting guide wheel in the 5th embodiment.

Structure change schematic diagrames of the Figure 21 for cutting guide wheel in two layers of operation of slotting.

Embodiment

Embodiment of the present utility model is illustrated by particular specific embodiment below, those skilled in the art can be by this Content disclosed by specification understands other advantages of the present utility model and effect easily.

Fig. 3 is referred to Figure 17.It should be clear that structure, ratio, size depicted in this specification institute accompanying drawings etc., is only used To coordinate the content disclosed in specification, so that those skilled in the art is understood with reading, being not limited to the present invention can The qualifications of implementation, therefore do not have technical essential meaning, the tune of the modification of any structure, the change of proportionate relationship or size It is whole, in the case where not influenceing effect of the invention that can be generated and the purpose that can reach, all should still it fall in disclosed skill Art content is obtained in the range of covering.Meanwhile, in this specification it is cited as " on ", " under ", "left", "right", " centre " and The term of " one " etc., is merely convenient to understanding for narration, and is not used to limit enforceable scope of the invention, its relativeness It is altered or modified, under without essence change technology contents, when being also considered as enforceable category of the invention.

The utility model cutting guide wheel includes：Guide wheel body and guided wheel slot coating.Guide wheel body is a metal guide wheel, In one embodiment, guide wheel body is an iron core.For ease of installing, the center of guide wheel body can offer a central shaft hole, pass through The central shaft hole is available for installing a power transmission shaft, power transmission shaft and guide wheel body shaft be dynamic to be connected (both guide wheel body and power transmission shaft it Between can relatively rotate).Part away from guide wheel body in power transmission shaft can be further provided with mounting structure, and the mounting structure can example Such as it is installation screw or installation through-hole, installation screw or installation through-hole can be multiple, be evenly distributed.Completed using power transmission shaft Install.Guided wheel slot coating, is overlying on the periphery of guide wheel body.In the present embodiment, guided wheel slot coating uses polyurethane rubber Or resin material (ultra high molecular polyethylene).Usually, it is by polyurethane rubber or resin material (superelevation in actual process Molecular polyethylene) to suppress in forming the coating with certain thickness and width on guide wheel body, the coating can pass through fluting Operation and surface formed metallic channel, therefore, the coating is referred to as guided wheel slot coating.For ease of subsequently through slot operation with Metallic channel is formed, in the present embodiment, on the one hand, guided wheel slot coating has an at least metallic channel configuration layer (depending on guided wheel slot coating Thickness and multi-wire saw equipment manufacturing technique requirent depending on), multiple metallic channel configuration layers are layered on top of each other in thickness dimension, When a wire groove layer is through using wear extent is reached, turning falls to produce this layer conductor groove layer of abrasion and to next layer conductor Groove configuration layer carries out fluting operation to form metallic channel, in this way, repeatedly utilization can be realized, (quantity of wire groove layer is more, utilizes Rate is also higher).On the other hand, each metallic channel configuration layer is used equally for a configuration at least metallic channel (depending on guided wheel slot coating Depending on width and the manufacturing technique requirent of multi-wire saw equipment), multiple metallic channels are arranged at intervals and mutually flat in width dimensions OK, when a metallic channel is through using wear extent is reached, line of cut is switched to other by this metallic channel for producing abrasion Metallic channel in, in this way, can realize extension usage cycles (quantity of metallic channel is more, and utilization rate is also higher).

Referring to Fig. 3, cutting the flow synoptic chart that guide wheel carries out fluting operation for the utility model.As shown in figure 3, this reality The flow for implementing fluting operation with new cutting guide wheel includes：Step S1, each cutting guide wheel is installed with interval mode. Step S1 purpose is exactly to be：Before fluting operation is carried out to cutting guide wheel, first each cutting guide wheel must be installed, It is set to keep stable.Herein, keep stable and be embodied at least two following aspects：1st, ensure that the setting face for cutting guide wheel is steady It is fixed, i.e. to ensure cutting guide wheel to erect and (vertical degree is stable) is set or horizontally disposed (levelness is stable), avoid cutting from leading as far as possible The setting face of wheel is tilted.Certainly, above-mentioned setting is a kind of more preferably mode, but not so limited, is not to say that cutting is led The setting face of wheel must not be obliquely installed, and simply be obliquely installed increase cutting guide wheel when mode installs more difficult and fluting operation The non-controllable risk of deviation is produced during rotation, the complexity of fluting operation can be increased and increase ensures the operation of fluting quality requirement Difficulty.2nd, ensure to cut the stabilization on guide wheel relative idler direction of principal axis, it is ensured that the spacing between each cutting guide wheel keeps stable, That is, by installing each cutting guide wheel, respective cutting guide wheel moving partially on guide wheel direction of principal axis is limited, two neighboring cut is prevented Cut in guide wheel cutting guide wheel and make micro closer or far between changing between the two with respect to another cutting guide wheel Away from.In actual applications, in step S1, each cutting guide wheel is given into installation with interval mode can be using following any side Formula：Each cutting guide wheel is installed on each spaced cutting rack, or, each cutting guide wheel is installed on certain all Cut in frame in each spaced cutting guide wheel mount point.

Step S2, fluting operation is carried out to each cutting guide wheel.In step s 2, according to default line-spacing come sequentially to each Cut guide wheel and carry out fluting operation, because each cutting guide wheel had been previously (the operation such as installation of cutting guide wheel that has installed Do not interfere with follow-up fluting operation), therefore, as long as controlling according to default line-spacing to walk, you can ensure in fluting operation In each cutting guide wheel on through fluting formed metallic channel between spacing be the default line-spacing, meet job requirements.

Specifically, in above-mentioned steps S1, the cutting guide wheel provided is different from having slotted in the prior art Finished product cutting guide wheel, but the primary cutting guide wheel of unslotted.

It is come sequentially to each cutting guide wheel progress fluting work using groover according to default line-spacing in above-mentioned steps S2 Industry, in view of this, the utility model separately provides a kind of groover for being exclusively used in fluting operation.Fig. 4 to Fig. 7 is referred to, its In, Fig. 4 is the stereogram that the utility model is used to carry out foregoing cutting guide wheel the groover of fluting operation, and Fig. 5 is groover Front view, Fig. 6 be groover side view, Fig. 7 be groover top view.It is noted that being opened for more clearly description Scouring machine is exclusively used in cutting the fluting operation of guide wheel, in these schemas, also also show cutting guide wheel.With reference to Fig. 4 to Fig. 7, Groover disclosed in the utility model includes：Operating platform 21, cutting guide wheel mounting structure 23 and grooving apparatus 25.

Operating platform 21 includes an operation table top 211 and supports the support feet 213 of operation table top 211.In the present embodiment, Operation table top 211 is rectangular mesa.Electric box 27 also can be set in the side of operating platform 21.

Cutting guide wheel mounting structure 23 is used to install cutting guide wheel 100.As it was previously stated, carrying out fluting work to cutting guide wheel Before industry, first each cutting guide wheel must be installed, it is kept stable.Herein, keep it is stable be embodied in it is following extremely Few two aspects：1st, ensure that the setting face for cutting guide wheel is stable, i.e. ensure cutting guide wheel to erect and (degree is stable) or level are set (levelness is stable) is set, avoids the setting face for cutting guide wheel to tilt as far as possible.Certainly, above-mentioned setting is a kind of more preferably side Formula, but it is not so limited, and being not to say that the setting face of cutting guide wheel must not be obliquely installed, and be simply obliquely installed mode and install The non-controllable risk of deviation is produced when increase cutting guide wheel is rotated during more difficult and fluting operation, answering for fluting operation can be increased It is miscellaneous spend and increase ensure slot quality requirement operation difficulty.2nd, ensure to cut the stabilization on guide wheel relative idler direction of principal axis, i.e. By installing each cutting guide wheel, respective cutting guide wheel moving partially on guide wheel direction of principal axis is limited, two neighboring cutting is prevented A cutting guide wheel in guide wheel makees micro closer or far from the spacing of change between the two with respect to another cutting guide wheel. In the utility model, cutting guide wheel 100 is installed and refers specifically to be installed each cutting guide wheel 100 with interval mode, Spacing between two neighboring cutting guide wheel 100 is to meet default line-spacing.Each cutting guide wheel 100 is pacified with interval mode Dress can use a variety of implementations, and deckle board 10 is installed there is provided one in a kind of optional implementation, on deckle board 10 is installed Multiple cutting supports 11 are arranged at intervals with, in operation, each cutting guide wheel 100 is respectively arranged in each corresponding cutting On support 11, and it is mounted on deckle board 10 is installed on the cutting guide wheel mounting structure 23 of groover.Further, cutting is led Wheel mounting structure 23 for example with erecting bed, can be arranged at the rear side of operation table top 211.For example：In one case, erecting bed 23 be two, is divided into the opposite end of operation table top 211, installs deckle board 10 and is set up on two erecting beds 23.Another Under situation, erecting bed 23 can be three or more, and multiple erecting beds 23 are uniformly distributed, and install deckle board 10 and be set up in each installation On platform 23.To realize that installing deckle board 10 is stable in erecting bed 23, installing deckle board 10 can be using screw locking, buckle, fixture clamping It is fixedly installed in etc. mode on erecting bed 23.

Grooving apparatus 25 includes：Grooving tool, grooving tool travel mechanism and cutting guide pulley transmission unit.

Grooving tool 251 can be selected as the cutting tool commonly used in the prior art such as lathe tool, milling cutter, can also be according to reality Border metallic channel groove profile grooving processes, the suitable cutter of self-developing.In movement and fluting operation for ease of grooving tool 251 Stability, grooving tool 251 be provided on a toolframe 252 and towards cutting guide wheel mounting structure 23.Alternatively, cutter Frame 252 may be, for example, a frame structure.

Grooving tool travel mechanism is used to drive grooving tool 251 to shift and retreat.Driving grooving tool 251 shifts what is referred to It is to drive guide wheel direction of principal axis of the grooving tool 251 along cutting guide wheel 100 to move, to be moved at different cutting guide wheels 100. Driving grooving tool 251, which is retreated, to be referred to driving grooving tool in the setting face of cutting guide wheel 100 towards cutting guide wheel 100 to enter Knife or away from cutting guide wheel withdrawing.To realize displacement and the advance and retreat of grooving tool 251, in a kind of optional embodiment, open Groove cutter travel mechanism further includes first direction shift mechanism and second direction driving and reversing mechanism.

The first direction shift mechanism further comprises：First direction guide rail 261, the first sliding block 262 and first drive Dynamic source.(for ease of description, in Fig. 4, the first direction is denoted as X-axis) spreads first direction guide rail 261 along a first direction Located at operation table top 211.First sliding block 262 adapts to first direction guide rail 261 and is arranged at the bottom of a cutter base frame 253. The stability shifted along a first direction for increase cutter base frame 253, first direction guide rail 261 is a pair, corresponds respectively to knife Has the opposite sides of base frame 253.First driving source may include：First motor 263 and the first drive disk assembly.Described first passes Dynamic component is connected in the first motor 263 and cutter base frame 253, is controlled by the first motor 263 and controls and drive Cutter base frame 253 is shifted along a first direction.Further, first drive disk assembly can again include the first rotating bar 264 with And first set block 265.First rotating bar 264 is set along a first direction, and one end of the first rotating bar 264 is linked in the first driving Motor 263 and controlled by the first motor 263, the other end of the first rotating bar 264 is then rotationally connected with operation table top 211 Bottom or suspension, alternatively, the first rotating bar 264 correspond to the intermediate region of cutter base frame 253 and positioned at a pair first Between traversing guide 261, and, the outer surface of the first rotating bar 264 is provided with screw thread.First set block 265 is fixed on cutter base frame 253 bottom simultaneously has internal thread, and first set block 265 is arranged and is screwed together in the first rotating bar 264.In the displacement of above-mentioned first direction In mechanism, the length of the first rotating bar 264 determines the shift motion of cutter base frame 253 in a first direction.In practical application In, the first rotating bar 264 and the cooperation of first set block 265 can convert rotational motion to linear movement, i.e. the first driving electricity Machine 263 drives the first rotating bar 264 to rotate, and first set block 265 and cutter base frame are driven under the rotation of the first rotating bar 264 253 along a first direction guide rail 261 (i.e. first direction) move left and right.In this way, can control cutter by the first motor 263 The displacement of base frame 253 and grooving tool 251 thereon.In addition, to cause the first rotating bar 264 and first set block 265 Connect and produce first turn of correspondence in the effect that first set block 265 is relatively moved along the first rotating bar 264, cutter base frame 253 The intermediate region of lever 264 offers displacement tear strip 266, and displacement tear strip 266 is set along a first direction, for first set Block 265 can be relatively moved along the first rotating bar 264.Further, for above-mentioned first driving source, in an alternative embodiment, the One motor 263 can have height for example with servomotor, the first rotatable parts for example with ball-screw, ball-screw Precision, invertibity and efficient feature, in this way, by the cooperation of servomotor and ball-screw, improve cutter base frame 253 and The precision that grooving tool 251 thereon is shifted in a first direction.

The second direction driving and reversing mechanism further comprises：Second direction guide rail 271, the second sliding block 272 and second drive Dynamic source.Second direction guide rail 271 is spread along second direction (for ease of description, in Fig. 4, the second direction is denoted as Y-axis) Located at cutter base frame 253.Second sliding block 272 adapts to second direction guide rail 271 and is arranged at the bottom of a toolframe 252.For The stability that increase toolframe 252 is retreated along second direction, second direction guide rail 271 is a pair, corresponds respectively to toolframe 252 opposite sides.Second driving source may include：Second motor 273 and the second drive disk assembly.Second drive disk assembly It is connected in the second motor 273 and toolframe 252, is controlled by the second motor 273 and controls and drive toolframe 252 Retreated along second direction.Further, second drive disk assembly can include the second rotating bar 274 and second set of block again (not indicating in the drawings).Second rotating bar 274 is set along second direction, and one end of the second rotating bar 274 is linked in second Motor 273 and controlled by the second motor 273, the other end of the second rotating bar 274 can be suspended, alternatively, second Rotating bar 274 corresponds to the intermediate region of toolframe 252 and between a pair of second direction guide rails 271, and, the second rotating bar 274 outer surface is provided with screw thread.Second set of block is fixed on toolframe 252 and with internal thread, and second set of block is arranged and screwed togather In the second rotating bar 274.In above-mentioned second direction driving and reversing mechanism, the length of the second rotating bar 274 determine toolframe 252 and Its advance and retreat stroke of grooving tool 251 set up in a second direction.In actual applications, the second rotating bar 274 and second The cooperation of block is covered, linear movement can be converted rotational motion to, i.e. the second motor 273 drives 274 turns of the second rotating bar It is dynamic, second set of block and toolframe 252 are driven under the rotation of the second rotating bar 274 along (the i.e. second party of second direction guide rail 271 To) front and rear advance and retreat.In this way, can control the advance and retreat of toolframe 252 and grooving tool 251 thereon by the second motor 273 Distance.In addition, for above-mentioned second driving source, in an alternative embodiment, the second motor 273 can be for example with servo electricity Machine, the second rotatable parts can have high accuracy, invertibity and efficient feature for example with ball-screw, ball-screw, such as This, by the cooperation of servomotor and ball-screw, improves toolframe 252 and grooving tool 251 thereon in a second direction The precision of advance and retreat.

It should be noted that, in fact, during implementing fluting to cutting guide wheel using the utility model groover, except Control grooving tool 251 is needed to carry out outside fluting operation, the cutting guide wheel before cross-notching operation is also needed in fact carries out outer Circle grinding or cylindrical turning.Now by taking cylindrical turning as an example, alternatively, it is possible to provide billmpse tool 254, billmpse tool 254 can be set In on toolframe 252.As it was previously stated, grooving tool travel mechanism includes first direction shift mechanism and second direction driving and reversing mechanism , therefore, can be by billmpse tool 254 to drive grooving tool 251 to shift along a first direction respectively and be retreated along second direction Set parallel with grooving tool 251 in a first direction, be fully utilized grooving tool travel mechanism and without additionally increasing New travel mechanism.With the help of grooving tool travel mechanism, billmpse tool 254 can equally be realized and shifted along a first direction Retreated with along second direction, so as to carry out cylindrical turning operation for each cutting guide wheel 100.

The cutting guide pulley transmission unit is used to drive cutting guide wheel to rotate.In the present embodiment, the cutting guide wheel is passed Dynamic device may include cutting guide wheel drive disk assembly and second direction travel mechanism.

The cutting guide wheel drive disk assembly is further included：Transmission base 281, drive 282 and driving motor 283.Transmission Pony sill is in second direction travel mechanism, before and after being carried out under the drive of second direction travel mechanism along second direction It is mobile.Drive 282 and driving motor 283 may be contained within transmission base 281, and driving motor 283 can drive drive 282 to send out Raw transmission.In a kind of achievable mode, drive 282 has rotating shaft, and rotating shaft is driven by belt and driving motor 283 to be connected Connect.

The second direction travel mechanism is used to drive the cutting guide wheel drive disk assembly to move to contact in a second direction And it is driven the cutting guide wheel 100.Specifically, the second direction travel mechanism further comprises：Second direction guide rail 284, 3rd sliding block 285 and the 3rd driving source.Second direction guide rail 284 is along second direction (for ease of description, in Fig. 4, institute State second direction and be denoted as Y-axis) cutter base frame 253 is layed in, to avoid and the second party in foregoing second direction driving and reversing mechanism Direction guiding rail 271 is interfered, and the second direction guide rail 284 in the second direction travel mechanism is to rest the head on platform 286 by a guide rail And it is layed in cutter base frame 253.3rd sliding block 285 adapts to second direction guide rail 284 and is arranged at the bottom of transmission base 281 Portion.The stability moved for increase transmission base 281 along second direction, second direction guide rail 284 is a pair, is corresponded respectively to The opposite sides of transmission base 281.3rd driving source may include：3rd motor 287 and the 3rd drive disk assembly.Described 3rd Drive disk assembly is connected in the 3rd motor 287 and transmission base 281, is controlled by the 3rd motor 287 and controls and band Dynamic transmission base 281 is movable along second direction.Further, the 3rd drive disk assembly can include the 3rd rotating bar again (not indicating in the drawings) and the 3rd set of block (not indicating in the drawings).3rd rotating bar is set along second direction, and the 3rd One end of rotating bar is linked in the 3rd motor 287 and controlled by the 3rd motor 287, the other end of the 3rd rotating bar It can suspend, alternatively, the 3rd rotating bar corresponds to the intermediate region of transmission base 281 and positioned at a pair of second direction guide rails 284 Between, and, the outer surface of the 3rd rotating bar is provided with screw thread.3rd set of block is fixed on transmission base 281 and has internal thread, the Three sets of blocks are arranged and are screwed together in the 3rd rotating bar.In above-mentioned second direction travel mechanism, the length of the 3rd rotating bar is determined The shift motion of transmission base 281 and its drive 282 that is assembled in a second direction.In actual applications, the 3rd rotate The cooperation of bar and the 3rd set of block, can convert rotational motion to linear movement, i.e. the 3rd motor 287 driving the 3rd is rotated Bar is rotated, and the 3rd set of block and transmission base 281 are driven under the rotation of the 3rd rotating bar along second direction guide rail 284 (i.e. the Two directions) it is movable.In this way, can control transmission base 281 and drive 282 thereon by the 3rd motor 287 Displacement.In addition, for above-mentioned 3rd driving source, in an alternative embodiment, the 3rd motor 287 can be for example with watching Motor is taken, the 3rd rotatable parts can be for example with ball-screw, and ball-screw has high accuracy, invertibity and efficient spy Point, in this way, by the cooperation of servomotor and ball-screw, improves transmission base 281 and drive 282 thereon in second party The precision moved up.Certainly, the second direction travel mechanism is not limited thereto, and is meeting the cylindrical car of cutting guide wheel In the case of the amount of cutting, the second direction travel mechanism can still make other changes, for example, in another change case, and described the The 3rd driving source in two direction mechanisms may include the cylinder with piston rod, and one end of the piston rod is connected to cylinder, described The other end of piston rod is connected to transmission base 281, using the cylinder, and the piston rod can be driven to make stretching motion, so that Transmission base 281 is driven to be moved forward and backward along second direction.

According to the above-mentioned structure explanation to cutting guide pulley transmission unit, it is known that, guide wheel transmission is being cut described in practical application During device, the cutting guide wheel drive disk assembly is driven to be moved along before and after second direction using the second direction travel mechanism It is dynamic, when the drive 282 in the cutting guide wheel drive disk assembly effectively touches cutting guide wheel 100, driven by driving motor 283 Drive 282 is rotated, through the rubbing action of drive 282 and cutting guide wheel 100, drives cutting guide wheel 100 to rotate.Separately Outside, because the second direction travel mechanism is disposed on cutter base frame 253, therefore, the cutting guide pulley transmission unit It is that followed by cutter base frame 253 and grooving tool 251 thereon is moved left and right along a first direction together.

The utility model cutting is described in detail below in conjunction with groover disclosed in the utility model and cutting guide wheel to lead Wheel carries out the details of fluting operation.

First embodiment：

Referring to Fig. 8, to be shown using groover cutting the flow of the fluting operation of guide wheel progress in the first embodiment It is intended to.In this first embodiment, the fluting operation of the cutting guide wheel is to be used to carry out cutting guide wheel individual layer fluting operation, In individual layer fluting operation, single track fluting operation is carried out to cutting guide wheel.With reference to Fig. 4 to Fig. 7, and as shown in figure 8, utilize fluting The flow that machine carries out fluting operation to cutting guide wheel includes：

Step S21, each cutting guide wheel is installed with interval mode.In the step s 21, by each cutting guide wheel with Interval mode, which gives installation, may include：Each cutting guide wheel 100 is respectively arranged on each corresponding cutting support 11, respectively Individual cutting support 11 is arranged at intervals on an installation deckle board 10, and the spacing between adjacent cutting guide wheel meets default line-spacing；Will peace The plate 10 that frames up is fixed on the erecting bed 23 of groover (reference can be made to Fig. 4 and Fig. 9).In the present first embodiment, it is assumed that a peace Frame up and be arranged at intervals with multiple cutting supports 11 on plate 10, each cutting support 11 can install a cutting guide wheel 100.

Step S23, sequentially carries out fluting operation together to each cutting guide wheel so that each cutting guide wheel formation is led together Spacing between wire casing, each road metallic channel meets default line-spacing.

Figure 11 is referred to, the refined flow chart for being step S23 in Figure 10.

Step S231, grooving tool is moved along the first direction to first cutting guide wheel and corresponding to original position. In step S231, movement is realized by first direction shift mechanism to grooving tool 251 in a first direction, specifically Ground, the first motor 263 drives the first rotating bar 264 to rotate, and first set block is driven under the rotation of the first rotating bar 264 265 and cutter base frame 253 guide rail 261 is moved left and right along a first direction so that the toolframe 252 on cutter base frame 253 On grooving tool 251 be moved to the slotting position of first cutting guide wheel 100.Due in the present first embodiment, only carrying out Fluting operation together, the slotting position of first cutting guide wheel 100 can be the first lean-with for cutting the width of guide wheel 100 Put.

Step S232, drives first cutting guide wheel to rotate and using grooving tool in the fluting position of first cutting guide wheel Put place and carry out fluting operation.In step S232, first pass through second direction travel mechanism will cut guide wheel drive disk assembly along Second direction moves and acts on first cutting guide wheel 100 to drive first cutting guide wheel 100 to rotate, then passes through second party Grooving tool is advanced and in first cutting guide wheel along second direction towards first cutting guide wheel 100 to driving and reversing mechanism Fluting operation (reference can be made to Fig. 4 and Figure 11) is carried out at 100 slotting position.Guide wheel will be cut by second direction travel mechanism to pass Dynamic component moves along second direction and acts on first cutting guide wheel 100 to drive first cutting guide wheel 100 to rotate, can Including：3rd motor 287 drives the 3rd rotating bar to rotate, and the 3rd set of block and cutting are driven under the rotation of the 3rd rotating bar Guide wheel drive disk assembly advances along second direction guide rail 284 so that the drive 282 in cutting guide wheel drive disk assembly is effectively contacted To first cutting guide wheel 100, drive drive 282 to rotate by driving motor 283, cut through drive 282 and first The rubbing action of guide wheel 100, drives first cutting guide wheel 100 to rotate.By second direction driving and reversing mechanism by necking tool Tool advances along second direction towards first cutting guide wheel 100 and carried out at the slotting position of first cutting guide wheel 100 Fluting operation, it may include：Required according to fluting, set grooving parameters；According to grooving parameters, driven by the second motor 273 Dynamic second rotating bar 274 is rotated, and second set of block and toolframe 252 are driven under the rotation of the second rotating bar 274 along second party Direction guiding rail 271 advances so that during the grooving tool 251 on toolframe 252 is contacted and rotated into first 100 pairs of cutting guide wheel First cutting guide wheel 100 implement fluting.In fluting operation, first cutting guide wheel 100 is persistently rotated, and grooving tool 251 can be by the way of persistently and progressively feed be until reach the default depth of cut in a second direction.In some embodiments In, if being required according to fluting, the groove width of the required metallic channel opened up is larger, and (groove width of metallic channel is greater than the knife of grooving tool It is wide) when, in fluting operation process, grooving tool 251 can still make left and right in a first direction by first direction travel mechanism Wave, to obtain larger groove width.By step S232, one of metallic channel is formed on first cutting guide wheel 100.

Step S233, after the completion of one of fluting operation of first cutting guide wheel, by cutting guide wheel drive disk assembly and fluting Cutter retracts in situ.In step S233, first grooving tool is retracted in situ, then cutting guide wheel drive disk assembly rollback is in situ (reference can be made to Fig. 4 and Figure 12).Grooving tool is retracted in situ, it may include：Second rotating bar is driven by the second motor 273 274 rotate, and drive second set of block and toolframe 252 to be retreated along second direction guide rail 271 under the rotation of the second rotating bar 274 To original position.Guide wheel drive disk assembly rollback will be cut in situ, it may include：3rd motor 287 drives the 3rd rotating bar to rotate, The 3rd set of block and cutting guide wheel drive disk assembly is driven to be retreated along second direction guide rail 271 to original under the rotation of 3rd rotating bar Position.

Step S234, according to default line-spacing, grooving tool is moved along the first direction to next cutting guide wheel.At this In step S234, movement is realized by first direction shift mechanism to grooving tool 251 in a first direction, specifically, the One motor 263 drives the first rotating bar 264 to rotate, and first set block 265 and knife are driven under the rotation of the first rotating bar 264 Having base frame 253, guide rail 261 presets line-spacing towards next cutting guide wheel 100 movement one along a first direction so that positioned at cutter The grooving tool 251 on toolframe 252 on base frame 253 is moved to the slotting position of next cutting guide wheel.

Step S235, drives next cutting guide wheel to rotate and using grooving tool in the fluting position of next cutting guide wheel Put place and carry out fluting operation.In step S235, first pass through second direction travel mechanism will cut guide wheel drive disk assembly along Second direction moves and acts on next cutting guide wheel 100 to drive next cutting guide wheel 100 to rotate, then passes through second party Grooving tool is advanced and in next cutting guide wheel along second direction towards next cutting guide wheel 100 to driving and reversing mechanism Fluting operation (reference can be made to Figure 11) is carried out at 100 slotting position.Guide wheel driving section will be cut by second direction travel mechanism Part moves along second direction and acts on next cutting guide wheel 100 to drive next cutting guide wheel 100 to rotate, and can wrap Include：3rd motor 287 drives the 3rd rotating bar to rotate, and drives the 3rd set of block and cutting to lead under the rotation of the 3rd rotating bar Wheel drive disk assembly advances along second direction guide rail 284 so that the drive 282 in cutting guide wheel drive disk assembly is effectively touched Next cutting guide wheel 100, then drive drive 282 to rotate by driving motor 283, through drive 282 and next cutting The rubbing action of guide wheel 100, drives next cutting guide wheel 100 to rotate.By second direction driving and reversing mechanism by necking tool Tool 251 advances along second direction towards next cutting guide wheel 100 and entered at the slotting position of next cutting guide wheel 100 Row fluting operation, it may include：Required according to fluting, set grooving parameters；According to grooving parameters, pass through the second motor 273 Drive the second rotating bar 274 to rotate, second set of block and toolframe 252 along second are driven under the rotation of the second rotating bar 274 Traversing guide 271 advances so that the grooving tool on toolframe 252 is contacted and entered in next 100 pairs of rotations of cutting guide wheel Next cutting guide wheel 100 implement fluting.In fluting operation, next cutting guide wheel 100 is persistently rotated, and grooving tool 251 can be by the way of persistently and progressively feed be until reach the default depth of cut.By step S235, led in next cutting One of metallic channel is formed on wheel 100.

Step S236, after the completion of one of fluting operation of next cutting guide wheel, by cutting guide wheel drive disk assembly and fluting Cutter retracts in situ.In step S236, first grooving tool is retracted in situ, then cutting guide wheel drive disk assembly rollback is in situ (reference can be made to Figure 12).Grooving tool is retracted in situ, it may include：274 turns of second rotating bar is driven by the second motor 273 It is dynamic, drive second set of block and toolframe 252 to be retreated along second direction guide rail 271 to original under the rotation of the second rotating bar 274 Position.Guide wheel drive disk assembly rollback will be cut in situ, it may include：3rd motor 287 drives the 3rd rotating bar to rotate, the 3rd The 3rd set of block and cutting guide wheel drive disk assembly is driven to be retreated along second direction guide rail 284 to original position under the rotation of rotating bar.

Step S237, judges whether to have carried out fluting operation to all cutting guide wheels 100, if so, then terminating, instead It, if it is not, then returning to step S234, the S234 that repeats the above steps is to step S236, until entering to last cutting guide wheel 100 Row fluting operation forms one of metallic channel to be cut at last on guide wheel 100.

Second embodiment：

Figure 13 is referred to, to show using groover cutting the flow of the fluting operation of guide wheel progress in a second embodiment It is intended to.With reference to Fig. 4 to Fig. 7, as shown in figure 13, the flow for carrying out fluting operation to cutting guide wheel using groover includes：

Step S31, each cutting guide wheel is installed with interval mode.In step S31, by each cutting guide wheel with Interval mode, which gives installation, may include：Each cutting guide wheel 100 is respectively arranged on each corresponding cutting support 11, its In, each cutting support 11 is arranged at intervals on an installation deckle board 10, and the spacing between adjacent cutting guide wheel meets default line Away from.Deckle board 10 will be installed to be fixed on the erecting bed 23 of groover.

Step S33, cylindrical turning is sequentially carried out to each cutting guide wheel.By step S33, to each cutting guide wheel 100 Cylindrical turning is carried out, may be such that each cutting guide wheel 100 reaches that required size is required and surface smoothness requirement (is for example removed Guided wheel slot clad surface it is crude).

Figure 14 is referred to, the refined flow chart for being step S33 in Figure 13.In this second embodiment, in the utility model In groover, billmpse tool 254 is parallel arrangement of with grooving tool 251 in a first direction.

Step S331, billmpse tool is moved along the first direction to first cutting guide wheel.In this second embodiment, Assuming that one is installed and is arranged at intervals with multiple cutting supports 11 on deckle board 10, each cutting support 11 can install a cutting and lead Wheel 100.In step S331, movement is realized by first direction shift mechanism to billmpse tool 254 in a first direction, Specifically, the first motor 263 drives the first rotating bar 264 to rotate, and first set is driven under the rotation of the first rotating bar 264 Guide rail 261 is moved left and right along a first direction for block 265 and cutter base frame 253 so that the toolframe on cutter base frame 253 Billmpse tool 254 on 252 is moved to first cutting guide wheel 100.

Step S332, drives first cutting guide wheel to rotate and carried out using billmpse tool to first cutting guide wheel cylindrical Turning operation.In step S332, guide wheel drive disk assembly will be cut along second direction by first passing through second direction travel mechanism Move and act on first cutting guide wheel to drive first cutting guide wheel rotation, then will be outer by second direction driving and reversing mechanism Circular tool advances to carry out cylindrical turning operation to first cutting guide wheel along second direction towards first cutting guide wheel.It is logical Cross second direction travel mechanism will cut guide wheel drive disk assembly moved along second direction and act on first cutting guide wheel with First cutting guide wheel is driven to rotate, it may include：3rd motor 287 drives the 3rd rotating bar to rotate, in the 3rd rotating bar Rotation under drive the 3rd set block and cutting guide wheel drive disk assembly advance along second direction guide rail 284 so that cutting guide wheel biography Drive 282 in dynamic component effectively touches first cutting guide wheel 100, and 282 turns of drive is driven by driving motor 283 It is dynamic, through the rubbing action of drive 282 and first cutting guide wheel 100, drive first cutting guide wheel 100 to rotate. Billmpse tool 254 is advanced with to the along second direction towards first cutting guide wheel 100 by second direction driving and reversing mechanism One cutting guide wheel 100 carries out cylindrical turning operation, it may include：Required according to cylindrical turning, set cylindrical turning parameter；According to Cylindrical turning parameter, drives the second rotating bar 274 to rotate, under the rotation of the second rotating bar 274 by the second motor 273 Second set of block and toolframe 252 is driven to advance along second direction guide rail 271 so that the billmpse tool 254 on toolframe 252 connects The first cutting guide wheel 100 for touching and entering during first 100 pairs of cutting guide wheel is rotated implements cylindrical turning.Make in cylindrical turning In industry, first cutting guide wheel 100 is persistently rotated, and billmpse tool 254 can be using lasting and progressively feed in a second direction Until reaching the mode of the default depth of cut.In addition, in some embodiments, if the knife of billmpse tool 254 is wide to be less than When the wheel of one cutting guide wheel 100 is wide, during cylindrical turning operation, billmpse tool 254 can still be moved by first direction Mechanism makees left and right feed in a first direction, so as to cover the whole cylindrical of first cutting guide wheel 100.For example：Cylindrical car Knife 254 carries out turning by first direction travel mechanism feed from left to right, by first direction travel mechanism by billmpse tool 254 are returned to left side (can first retract return back to again if necessary left side), then by second direction driving and reversing mechanism by billmpse tool 254 Along the feed of second direction guide rail 271, turning is carried out by the feed from left to right of first direction travel mechanism, it is and so on (every It is once to be cut by carrying out knife from left to right)；Or, billmpse tool 254 by first direction travel mechanism, from the right side, enter by feed of turning left Driving is cut, and billmpse tool 254 is returned into right side by first direction travel mechanism (can first retract return back to the right side again if necessary Side), then by second direction driving and reversing mechanism by billmpse tool 254 along the feed of second direction guide rail 271, moved by first direction Motivation structure from the right side turn left feed carry out turning, and so on (be each time by the right side turn left progress knife cut)；Or, billmpse tool 254 carry out turning by first direction travel mechanism feed from left to right, then by second direction driving and reversing mechanism by billmpse tool 254 along the feed of second direction guide rail 271, and by first direction travel mechanism, from the right side, feed of turning left carries out turning, and so on (left and right circulation).

Step S333, after the completion of the cylindrical turning operation of first cutting guide wheel, will cut guide wheel drive disk assembly and cylindrical Lathe tool retracts in situ.In step S333, first billmpse tool is retracted in situ, then cutting guide wheel drive disk assembly rollback is former Position.Billmpse tool 254 is retracted original position, it may include：The second rotating bar 274 is driven to rotate by the second motor 273, the Second set of block and toolframe 252 is driven to be retreated along second direction guide rail 271 to original position under the rotation of two rotating bars 274.It will cut Cut guide wheel drive disk assembly rollback in situ, it may include：3rd motor 287 drives the 3rd rotating bar to rotate, in the 3rd rotating bar Rotation under drive the 3rd set block and cut guide wheel drive disk assembly retreated along second direction guide rail 284 to original position.

Step S334, according to default line-spacing, billmpse tool is moved along the first direction to next cutting guide wheel.At this In step S334, movement is realized by first direction shift mechanism to billmpse tool 254 in a first direction, specifically, the One motor 263 drives the first rotating bar 264 to rotate, and first set block 265 and knife are driven under the rotation of the first rotating bar 264 Having base frame 253, guide rail 261 presets line-spacing towards next cutting guide wheel 100 movement one along a first direction so that positioned at cutter The billmpse tool 254 on toolframe 252 on base frame 253 is moved to next cutting guide wheel 100.

Step S335, drives next cutting guide wheel to rotate and carried out using billmpse tool to next cutting guide wheel cylindrical Turning operation.

In step S335, first pass through second direction travel mechanism and moved guide wheel drive disk assembly is cut along second direction Move and act on next cutting guide wheel 100 to drive next cutting guide wheel 100 to rotate, then pass through second direction driving and reversing mechanism Billmpse tool is advanced along second direction towards next cutting guide wheel 100 and next cutting guide wheel 100 carried out cylindrical Turning operation.Guide wheel drive disk assembly will be cut by second direction travel mechanism to move and act on next along second direction Guide wheel 100 is cut to drive next cutting guide wheel 100 to rotate, it may include：3rd motor 287 drives the 3rd rotating bar to turn It is dynamic, drive the 3rd set of block and cutting guide wheel drive disk assembly to advance along second direction guide rail 284 under the rotation of the 3rd rotating bar, So that the drive 282 in cutting guide wheel drive disk assembly effectively touches next cutting guide wheel 100, driven by driving motor 283 Dynamic drive 282 is rotated, and through the rubbing action of drive 282 and next cutting guide wheel 100, drives next cutting guide wheel 100 rotate.By second direction driving and reversing mechanism by billmpse tool 254 along second direction towards next cutting guide wheel 100 advance and carry out cylindrical turning operation to next cutting guide wheel 100, it may include：Required, set cylindrical according to cylindrical turning Cutting parameters；According to cylindrical turning parameter, drive the second rotating bar 274 to rotate by the second motor 273, rotated second Second set of block and toolframe 252 is driven to advance along second direction guide rail 271 under the rotation of bar 274 so that on toolframe 252 Next cutting guide wheel 100 during billmpse tool 254 is contacted and rotated into next 100 pairs of cutting guide wheel implements cylindrical car Cut.In cylindrical turning operation, next cutting guide wheel 100 is persistently rotated, and billmpse tool 254 can be using in a second direction Continue and progressively feed until reaching the mode of the default depth of cut.If in addition, the knife of billmpse tool 254 it is wide be less than it is next The wheel for cutting guide wheel 100 is wide, and during cylindrical turning operation, billmpse tool 254 can still be existed by first direction travel mechanism Make left and right feed (for details, reference can be made to preceding description) on first direction, so as to cover the whole of next cutting guide wheel 100 It is cylindrical.

Step S336, after the completion of the cylindrical turning operation of next cutting guide wheel, will cut guide wheel drive disk assembly and cylindrical Lathe tool retracts in situ.In step S336, first billmpse tool is retracted in situ, then cutting guide wheel drive disk assembly rollback is former Position.Billmpse tool is retracted in situ, it may include：The second rotating bar 274 is driven to rotate by the second motor 273, second Second set of block and toolframe 252 is driven to be retreated along second direction guide rail 271 to original position under the rotation of rotating bar 274.Will cutting Guide wheel drive disk assembly retracts in situ, it may include：3rd motor 287 drives the 3rd rotating bar to rotate, in the 3rd rotating bar Rotate the 3rd set of block of lower drive and cutting guide wheel drive disk assembly is retreated to original position along second direction guide rail 284.

Step S337, judges whether to have carried out fluting operation to all cutting guide wheels 100, if so, then terminating, instead It, if it is not, then returning to step S334, the S334 that repeats the above steps is to step S336, until complete to last cutting guide wheel 100 Into cylindrical turning operation.

Step S35, sequentially carries out fluting operation together to each cutting guide wheel so that each cutting guide wheel formation is led together Spacing between wire casing, each road metallic channel meets default line-spacing.

Figure 15 is referred to, the refined flow chart for being step S35 in Figure 13.

Step S351, grooving tool is moved along the first direction to first cutting guide wheel and corresponding to original position. In step S351, movement is realized by first direction shift mechanism to grooving tool 251 in a first direction, specifically Ground, the first motor 263 drives the first rotating bar 264 to rotate, and first set block is driven under the rotation of the first rotating bar 264 265 and cutter base frame 253 guide rail 261 is moved left and right along a first direction so that the toolframe 252 on cutter base frame 253 On grooving tool 251 be moved to the slotting position of first cutting guide wheel 100.Due in this second embodiment, only carrying out Fluting operation together, the slotting position of first cutting guide wheel 100 can be the first lean-with for cutting the width of guide wheel 100 Put.

Step S352, drives first cutting guide wheel to rotate and using grooving tool in the fluting position of first cutting guide wheel Put place and carry out fluting operation.In step S232, first pass through second direction travel mechanism will cut guide wheel drive disk assembly along Second direction moves and acts on first cutting guide wheel 100 to drive first cutting guide wheel 100 to rotate, then passes through second party Grooving tool is advanced and in first cutting guide wheel along second direction towards first cutting guide wheel 100 to driving and reversing mechanism Fluting operation is carried out at 100 slotting position.Guide wheel drive disk assembly will be cut along second party by second direction travel mechanism To mobile and act on first cutting guide wheel 100 to drive first cutting guide wheel 100 to rotate, it may include：3rd driving electricity Machine 287 drives the 3rd rotating bar to rotate, and the 3rd set of block and cutting guide wheel drive disk assembly edge are driven under the rotation of the 3rd rotating bar Second direction guide rail 284 to advance so that the drive 282 in cutting guide wheel drive disk assembly effectively touches first cutting and led Wheel 100, then drive drive 282 to rotate by driving motor 283, through the friction of drive 282 and first cutting guide wheel 100 Effect, drives first cutting guide wheel 100 to rotate.By second direction driving and reversing mechanism by grooving tool along second direction Advance towards first cutting guide wheel 100 and fluting operation is carried out at the slotting position of first cutting guide wheel 100, can wrap Include：Required according to fluting, set grooving parameters；According to grooving parameters, the second rotating bar is driven by the second motor 273 274 are rotated, and second set of block and toolframe 252 are driven under the rotation of the second rotating bar 274 along before second direction guide rail 271 Enter so that first during the grooving tool 251 on toolframe 252 is contacted and rotated into first 100 pairs of cutting guide wheel is cut Cut guide wheel 100 and implement fluting.In fluting operation, first cutting guide wheel 100 is persistently rotated, and grooving tool 251 can be used Continue in a second direction and progressively feed until reaching the mode of the default depth of cut.In addition, in some embodiments, if Required according to fluting, during groove width larger (knife that the groove width of metallic channel is greater than grooving tool is wide) of required metallic channel, Slot in operation process, grooving tool 251 still can in a first direction be vacillated now to the left, now to the right by first direction travel mechanism, to obtain Obtain larger groove width.By step S352, one of metallic channel is formed on first cutting guide wheel 100.

Step S353, after the completion of one of fluting operation of first cutting guide wheel, by cutting guide wheel drive disk assembly and fluting Cutter retracts in situ.In step S233, first grooving tool is retracted in situ, then cutting guide wheel drive disk assembly rollback is former Position.Grooving tool is retracted in situ, it may include：The second rotating bar 274 is driven to rotate by the second motor 273, second Second set of block and toolframe 252 is driven to be retreated along second direction guide rail 271 to original position under the rotation of rotating bar 274.Will cutting Guide wheel drive disk assembly retracts in situ, it may include：3rd motor 287 drives the 3rd rotating bar to rotate, in the 3rd rotating bar Rotate the 3rd set of block of lower drive and cutting guide wheel drive disk assembly is retreated to original position along second direction guide rail 284.

Step S354, according to default line-spacing, grooving tool is moved along the first direction to next cutting guide wheel.At this In step S354, movement is realized by first direction shift mechanism to grooving tool 251 in a first direction, specifically, the One motor 263 drives the first rotating bar 264 to rotate, and first set block 265 and knife are driven under the rotation of the first rotating bar 264 Having base frame 253, guide rail 261 presets line-spacing towards next cutting guide wheel 100 movement one along a first direction so that positioned at cutter The grooving tool 251 on toolframe 252 on base frame 253 is moved to the slotting position of next cutting guide wheel.

Step S355, drives next cutting guide wheel to rotate and using grooving tool in the fluting position of next cutting guide wheel Put place and carry out fluting operation.In step S355, first pass through second direction travel mechanism will cut guide wheel drive disk assembly along Second direction moves and acts on next cutting guide wheel 100 to drive next cutting guide wheel 100 to rotate, then passes through second party Grooving tool is advanced and in next cutting guide wheel along second direction towards next cutting guide wheel 100 to driving and reversing mechanism Fluting operation is carried out at 100 slotting position.Guide wheel drive disk assembly will be cut along second party by second direction travel mechanism To mobile and act on next cutting guide wheel 100 to drive next cutting guide wheel 100 to rotate, it may include：3rd driving electricity Machine 287 drives the 3rd rotating bar to rotate, and the 3rd set of block and cutting guide wheel drive disk assembly edge are driven under the rotation of the 3rd rotating bar Second direction guide rail 284 to advance so that the drive 282 in cutting guide wheel drive disk assembly effectively touches next cutting and led Wheel 100, then drive drive 282 to rotate by driving motor 283, through the friction of drive 282 and next cutting guide wheel 100 Effect, drives next cutting guide wheel 100 to rotate.By second direction driving and reversing mechanism by grooving tool 251 along second Direction is advanced towards next cutting guide wheel 100 and carries out fluting operation at the slotting position of next cutting guide wheel 100, can Including：Required according to fluting, set grooving parameters；According to grooving parameters, the second rotating bar is driven by the second motor 273 274 are rotated, and second set of block and toolframe 252 are driven under the rotation of the second rotating bar 274 along before second direction guide rail 271 Enter so that next cutting that the grooving tool on toolframe 252 is contacted and entered during next 100 pairs of cutting guide wheel is rotated is led Wheel 100 implements fluting.In fluting operation, next cutting guide wheel 100 is persistently rotated, and grooving tool 251 can be used and continued And progressively feed until reaching the mode of the default depth of cut.By step S355, one is formed on next cutting guide wheel 100 Road metallic channel.

Step S356, after the completion of one of fluting operation of next cutting guide wheel, by cutting guide wheel drive disk assembly and fluting Cutter retracts in situ.In step S356, first grooving tool is retracted in situ, then cutting guide wheel drive disk assembly rollback is former Position.Grooving tool is retracted in situ, it may include：The second rotating bar 274 is driven to rotate by the second motor 273, second Second set of block and toolframe 252 is driven to be retreated along second direction guide rail 271 to original position under the rotation of rotating bar 274.Will cutting Guide wheel drive disk assembly retracts in situ, it may include：3rd motor 287 drives the 3rd rotating bar to rotate, in the 3rd rotating bar Rotate the 3rd set of block of lower drive and cutting guide wheel drive disk assembly is retreated to original position along second direction guide rail 284.

Step S357, judges whether to have carried out fluting operation to all cutting guide wheels 100, if so, then terminating, instead It, if it is not, the S354 that then repeats the above steps is to step S356, until last cutting guide wheel 100 is carried out fluting operation with One of metallic channel is formed on last cutting guide wheel 100.

3rd embodiment：

Figure 16 is referred to, to show using groover cutting the flow of the fluting operation of guide wheel progress in the third embodiment It is intended to.It is to be used to carry out cutting guide wheel individual layer fluting operation, in individual layer fluting operation, to cutting in the 3rd embodiment Cut guide wheel and carry out multiple tracks fluting operation.With reference to Fig. 4 to Fig. 7, as shown in figure 16, fluting work is carried out to cutting guide wheel using groover The flow of industry includes：

Step S41, each cutting guide wheel is installed with interval mode.In step S41, by each cutting guide wheel with Interval mode, which gives installation, may include：Each cutting guide wheel 100 is respectively arranged on each corresponding cutting support 11, its In, each cutting support 11 is arranged at intervals on an installation deckle board 10, and the spacing between adjacent cutting guide wheel meets default line Away from；Deckle board 10 will be installed to be fixed on the erecting bed 23 of groover.In this third embodiment, it is assumed that one is installed on deckle board 10 Multiple cutting supports 11 are arranged at intervals with, each cutting support 11 can install a cutting guide wheel 100.

Step S42, cylindrical turning is sequentially carried out to each cutting guide wheel.By step S42, to each cutting guide wheel 100 Cylindrical turning is carried out, may be such that each cutting guide wheel 100 reaches that required size is required and surface smoothness requirement (is for example removed Guided wheel slot clad surface it is crude).

Cylindrical turning is sequentially carried out in step S42 to each cutting guide wheel substantially to can be summarized as：Billmpse tool is moved to Current cutting guide wheel, cylindrical turning operation is carried out to current cutting guide wheel；According to default line-spacing, billmpse tool is moved to adjacent Next cutting guide wheel, to this it is next cutting guide wheel carry out cylindrical turning operation；Repeat above-mentioned basis and preset line-spacing by outside Circular tool is moved to adjacent next cutting guide wheel and carries out cylindrical turning operation to it, until completing all cutting guide wheels Cylindrical turning operation.

Detailed process on sequentially carrying out cylindrical turning in step S42 to each cutting guide wheel, reference can be made to second implements The description for step S33 and Figure 14 refined flow chart, will not be repeated here in example.

Step S43, is moved to first of original position corresponding with first of fluting operation, sequentially to each by groover Cut guide wheel and carry out first of fluting operation so that each cutting guide wheel first of metallic channel of formation, each first of metallic channel Between spacing meet default line-spacing.

First, groover is moved to first of original position corresponding with first of fluting operation, it may include：Will fluting Cutter is moved along the first direction to first cutting guide wheel and corresponding to first of original position.

Secondly, first of fluting operation is carried out to each cutting guide wheel, can be summarized as：Grooving tool is moved to and currently cut Guide wheel is cut, current cutting guide wheel is carried out first of fluting operation to form first of metallic channel on currently cutting guide wheel；Root According to default line-spacing, grooving tool is moved to adjacent next cutting guide wheel, this next cutting guide wheel is carried out first Operation is slotted to form first of metallic channel on this next cutting guide wheel；Repeat above-mentioned basis and preset line-spacing by grooving tool It is moved to adjacent next cutting guide wheel and first of fluting operation is carried out to it, until completes the first of all cutting guide wheels Road fluting operation.

Groover is moved to first of original position corresponding with first of fluting operation in step S43 and each is cut Cut the detailed process that guide wheel sequentially carries out first of fluting operation, reference can be made in second embodiment for step S35 description and Figure 15 refined flow chart, will not be repeated here.

By first of step S43 operation of slotting, first of metallic channel is formed on each cutting guide wheel, is belonged to not Default line-spacing is met with the spacing between each first of metallic channel on cutting guide wheel.

Step S44, is moved to second original position corresponding with second fluting operation, sequentially to each by groover Cut guide wheel and carry out second fluting operation so that each cutting guide wheel formation second metallic channel, each second metallic channel Between spacing meet default line-spacing.First, groover is moved to second start bit corresponding with second fluting operation Put, it may include：Grooving tool is moved along the first direction to first cutting guide wheel and corresponding to second original position.Need Illustrate, at a distance of a slot pitch offset between the second original position and first of original position.It is optional one In embodiment, it is assumed that first of original position is to be located at the leftmost side of first cutting guide wheel, then second original position is then adjacent Located at the right side of first of original position；Or, in another alternative embodiment, it is assumed that first of original position is to be located at The rightmost side of first cutting guide wheel, then second original position be then adjacent to the left side of first of original position；Again In one alternative embodiment, first of original position is not limited to the avris of first cutting guide wheel, and (leftmost side is most right Side) but any position, the second original position is also not limited to adjacent with first of original position.Secondly, it is right Each cutting guide wheel carries out second fluting operation, can be summarized as：Grooving tool is moved to current cutting guide wheel, to currently cutting Guide wheel is cut to carry out second fluting operation to form second metallic channel on currently cutting guide wheel；According to default line-spacing, it will open Groove cutter is moved to adjacent next cutting guide wheel, and carrying out second to this next cutting guide wheel slots operation with this Second metallic channel is formed on one cutting guide wheel；Repeat above-mentioned basis preset line-spacing grooving tool is moved to it is adjacent next Individual cutting guide wheel simultaneously carries out second fluting operation to it, until completing the second fluting operation of all cutting guide wheels.

Groover is moved to second original position corresponding with second fluting operation in step S44 and each is cut Cut guide wheel sequentially carry out second slot operation detailed process, reference can be made in second embodiment for step S35 description and Figure 15 refined flow chart, will not be repeated here.

By step S44 second fluting operation, second metallic channel is formed on each cutting guide wheel, is belonged to not Default line-spacing is met with the spacing between each second metallic channel on cutting guide wheel, and, formed on same cutting guide wheel Second metallic channel and first of metallic channel between at a distance of a slot pitch offset.

If cutting the metallic channel of guide wheel formation more multiple tracks, similar step S44 continues executing with the fluting operation of other roads.

Step S45, by groover be moved to together with lower operation of slotting it is corresponding under original position together, sequentially to each Cut guide wheel and carry out lower fluting operation together so that each cutting guide wheel forms down one of metallic channel, each lower one of metallic channel Between spacing meet default line-spacing.

In addition, it should be noted that, spacing between adjacent twice metallic channel is a slot pitch offset, but the slot pitch offset It is not a definite value, for example, the spacing between second metallic channel and first of metallic channel is slot pitch offset L21, the 3rd Spacing between road metallic channel and the 3rd road metallic channel is slot pitch offset L32, slot pitch offset L21 and slot pitch offset L32 It may be the same or different, be not restricted herein.

Step S46, judges whether to complete all roads fluting operation of setting, if so, then terminating, conversely, if it is not, then weighing Multiple above-mentioned steps S45, until having performed last fluting operation together to form last one of metallic channel on each cutting guide wheel.

Figure 17 and Figure 18 are referred to, it is two neighboring cutting guide wheel 100 after the fluting operation shown in Figure 16 Structural representation.As shown in Figure 17 and Figure 18, two neighboring cutting guide wheel 100 is foring multiple tracks after fluting operation Between between metallic channel 101, and the metallic channel with along with 101 of two cutting guide wheels 100 formed in the fluting operation with along with It is slot pitch offset away from the spacing met on default line-spacing D, same cutting guide wheel between adjacent twice metallic channel 101.Figure 17 It is slightly discrepant with Figure 18 to be：In fig. 17, the groove on same cutting guide wheel 100 between arbitrary neighborhood twice metallic channel 101 It is definite value L1 (that is, each road metallic channel is laid to be uniform at equal intervals) away from offset；In figure 18, each road metallic channel is unequal interval Lay, the spacing between people having a common goal's metallic channel 101 is not slot pitch offset L1, L2 of different value.

Fourth embodiment：

Figure 19 is referred to, to show using groover cutting the flow of the fluting operation of guide wheel progress in the fourth embodiment It is intended to.In the fourth embodiment, for carrying out at least one layer of fluting operation to cutting guide wheel, in each layer of operation of slotting, Multiple tracks fluting operation is carried out to cutting guide wheel.With reference to Fig. 4 to Fig. 7, as shown in figure 19, cutting guide wheel is opened using groover The flow of groove operation includes：

Step S51, each cutting guide wheel is installed with interval mode.In step S61, by each cutting guide wheel with Interval mode, which gives installation, may include：Each cutting guide wheel 100 is respectively arranged on each corresponding cutting support 11, its In, each cutting support 11 is arranged at intervals on an installation deckle board 10, and the spacing between adjacent cutting guide wheel meets default line Away from；Deckle board 10 will be installed to be fixed on the erecting bed 23 of groover.In this third embodiment, it is assumed that one is installed on deckle board 10 Multiple cutting supports 11 are arranged at intervals with, each cutting support 11 can install a cutting guide wheel 100.

Step S52, the first start bit that groover is moved at first cutting guide wheel is put, and utilizes the groover pair First cutting guide wheel is proceed sequentially to few twice fluting operation to sequentially form at least twice metallic channel；Adjacent twice metallic channel Between spacing be a slot pitch offset.

Step S53, the mobile groover utilizes the groover to the second original position at second cutting guide wheel At least twice fluting operation is carried out to second cutting guide wheel to sequentially form at least twice metallic channel；Adjacent twice metallic channel it Between spacing be a slot pitch offset；At the second original position and first cutting guide wheel at second cutting guide wheel Spacing between first start bit is put meets default line-spacing.

If cutting guide wheel does not terminate in two, similar step S53 continues executing with the fluting operation of other roads.

Next original position at step S54, the mobile groover to next cutting guide wheel, utilizes the groover Next cutting guide wheel is carried out at least twice fluting operation to sequentially form at least twice metallic channel；Adjacent twice metallic channel it Between spacing be a slot pitch offset；Next original position at next cutting guide wheel and upper one at a upper cutting guide wheel Spacing between original position meets default line-spacing.

Step S55, judges whether to have carried out fluting operation to all cutting guide wheels 100, if so, then terminate, conversely, If it is not, the S354 that then repeats the above steps, until carrying out fluting operation to last cutting guide wheel 100 with last cutting Multiple tracks metallic channel is formed on guide wheel 100.

5th embodiment：

Figure 20 is referred to, to show using groover flow of the fluting operation of cutting guide wheel progress in the 5th embodiment It is intended to.In the 5th embodiment, for carrying out multilayer grooved operation to cutting guide wheel, in each layer of operation of slotting, to cutting Cut guide wheel and carry out at least fluting operation together.In the following description, it is to be illustrated so that two layers is slotted operation as an example.With reference to Fig. 4 To Fig. 7, as shown in figure 20, the flow for carrying out fluting operation to cutting guide wheel using groover includes：

Step S61, each cutting guide wheel is installed with interval mode.In step S61, by each cutting guide wheel with Interval mode, which gives installation, may include：Each cutting guide wheel 100 is respectively arranged on each corresponding cutting support 11, its In, each cutting support 11 is arranged at intervals on an installation deckle board 10, and the spacing between adjacent cutting guide wheel meets default line Away from；Deckle board 10 will be installed to be fixed on the erecting bed 23 of groover.In this third embodiment, it is assumed that one is installed on deckle board 10 Multiple cutting supports 11 are arranged at intervals with, each cutting support 11 can install a cutting guide wheel 100.

Step S62, cylindrical turning is sequentially carried out to each cutting guide wheel.By step S62, to each cutting guide wheel 100 Cylindrical turning is carried out, may be such that each cutting guide wheel 100 reaches that required size is required and surface smoothness requirement (is for example removed Guided wheel slot clad surface it is crude).Cylindrical turning is sequentially carried out in step S62 to each cutting guide wheel substantially to can be summarized as：Will Billmpse tool is moved to current cutting guide wheel, and cylindrical turning operation is carried out to current cutting guide wheel；, will be cylindrical according to default line-spacing Lathe tool is moved to adjacent next cutting guide wheel, and cylindrical turning operation is carried out to this next cutting guide wheel；Repeat above-mentioned Billmpse tool is moved to adjacent next cutting guide wheel according to default line-spacing and cylindrical turning operation is carried out to it, until completing The cylindrical turning operation of all cutting guide wheels.On sequentially carrying out the detailed of cylindrical turning to each cutting guide wheel in step S62 Flow, reference can be made to the description for step S33 and Figure 14 refined flow chart in second embodiment, will not be repeated here.

Step S63, sequentially carries out at least fluting operation together to each cutting guide wheel.In step S63, if to each Cut guide wheel and carry out fluting operation together, then refer to the thin of step S35 shown in the step S35 and Figure 15 in second embodiment Change flow chart；If carrying out multiple tracks fluting operation to each cutting guide wheel, then step S43 is referred in 3rd embodiment to step S46 description.Pass through above-mentioned steps S61 to step S63, you can complete to cutting guide wheel first layer and at least one metallic channel Fluting operation.

In this case, deckle board 10 can will be installed and cutting guide wheel 100 is unloaded from the erecting bed 23 of groover, and will The assembling of deckle board 10 is installed and puts implementation multi-wire saw operation in multi-wire saw equipment.Specifically, by multiple installation deckle boards with two two-phases Mode is fixedly installed on the support of multi-wire saw equipment over the ground, is required according to multi-wire saw, and installation deckle board facing each other can Horizontal positioned or vertical placement.When installation deckle board facing each other is horizontal positioned, the cutting rack and thereon on deckle board is installed Cutting guide wheel correspond, line of cut be sequentially wound in each cutting guide wheel with along with metallic channel, in this way, being wound in one Cutting line segment on one correspondence cutting guide wheel is horizontal layout.When installation deckle board facing each other is vertical places, installing frame Cutting rack on plate and cutting guide wheel thereon are corresponded, and line of cut is sequentially wound in the wire with along with of each cutting guide wheel In groove, laid in this way, being wound in and corresponding the cutting line segment on cutting guide wheel to be vertical.In this way, just using be equipped with through The multi-wire saw equipment of the cutting guide wheel of fluting operation performs related multi-wire saw operation.

Further, after certain usage amount, it is likely that occur that current road metallic channel can produce abrasion and need Line of cut is switched in other road metallic channels, but during switching, the line of cut wound on each cutting guide wheel is led by current road Wire casing is switched in another road metallic channel that need to switch, between ensuring on each cutting guide wheel between the adjacent line of cut that winds Meet default line-spacing away from remaining unchanged.

Further, after all road metallic channels occur in that abrasion, then certainly will need to give cutting guide wheel more Change.Common practice is：The cutting guide wheel of these abrasions is unloaded from respective cutting rack, then by new without fluting operation Cutting guide wheel be filled on cutting rack, fluting operation is subsequently carried out again.The usual way is present：Charge and discharge operations are numerous and diverse, time-consuming to take Power；Load onto new cutting guide wheel, can increase parameter error risk (for example cut guide wheel set vertical degree or levelness must adjust School) etc..

In view of this, in the utility model cuts the fluting operation that guide wheel is carried out, under can proceeding to cutting guide wheel One layer of fluting operation.

Continue step S64, cylindrical turning is sequentially carried out to each cutting guide wheel.In actual applications, step S64 is being performed Before, it is still necessary to set installing frame grillage on each erecting bed for being fixed on groover.By step S64, each cutting is led Wheel carries out cylindrical turning, and cylindrical turning operation is carried out to cutting guide wheel each described and falls each described cutting guide wheel upper with turning The metallic channel formed in one layer of fluting operation.Sequentially carrying out cylindrical turning to each cutting guide wheel in step S64 can substantially summarize For：Billmpse tool is moved to current cutting guide wheel, cylindrical turning operation is carried out to current cutting guide wheel；According to default line-spacing, Billmpse tool is moved to adjacent next cutting guide wheel, cylindrical turning operation is carried out to this next cutting guide wheel；Repeat Above-mentioned basis presets line-spacing and billmpse tool is moved into adjacent next cutting guide wheel and cylindrical turning operation is carried out to it, directly To the cylindrical turning operation for completing all cutting guide wheels.On sequentially carrying out cylindrical turning to each cutting guide wheel in step S64 Detailed process, reference can be made in second embodiment for step S33 description and Figure 14 refined flow chart, herein no longer go to live in the household of one's in-laws on getting married State.

Step S65, sequentially carries out at least fluting operation together to each cutting guide wheel.In step S65, if to each Cut guide wheel and carry out fluting operation together, then refer to the thin of step S35 shown in the step S35 and Figure 15 in second embodiment Change flow chart；If carrying out multiple tracks fluting operation to each cutting guide wheel, then step S43 is referred in 3rd embodiment to step S46 description.

Pass through above-mentioned steps S64 to step S65, you can complete to cutting the guide wheel second layer and at least one metallic channel open Groove operation.So, can reload these cutting guide wheels in multi-wire saw equipment, being continuing with (two layers of fluting operation Journey can be found in Figure 21).The utilization rate of cutting guide wheel is improved, and eliminates the operation when handling of centre are replaced and subsequently adjusts School.

In the disclosed fluting operation using groover to cutting guide wheel progress of the utility model, first by each cutting guide wheel Installation is got off, and recycles groover to carry out scene fluting operation to each cutting guide wheel, so, is eliminated cutting guide wheel and was installed Journey can produce the factor of deviation, as long as controlling groover precision for shifting in fluting operation can ensure that each cutting wheel is opened The spacing of the metallic channel of groove formation can meet the requirement of default line-spacing, be led compared to first fluting formation is carried out to each cutting guide wheel Wire casing again gives them the prior art of mounting and adjusting spacing one by one, solve in the prior art install cutting guide wheel caused by Corresponding position leads in metallic channel fluting each cutting guide wheel caused such as inconsistent in deviation and each cutting guide wheel The spacing of wire casing can not meet the requirement of default line-spacing.

The utility model effectively overcomes various shortcoming of the prior art and has high industrial utilization.

Above-described embodiment only illustrative principle of the present utility model and its effect are new not for this practicality is limited Type.Any person skilled in the art can all be carried out without prejudice under spirit and scope of the present utility model to above-described embodiment Modifications and changes.Therefore, such as those of ordinary skill in the art without departing from the essence disclosed in the utility model God and all equivalent modifications completed under technological thought or change, should be covered by claim of the present utility model.

Claims (10)

1. one kind cutting guide wheel, it is characterised in that including：

Guide wheel body；And

Guided wheel slot coating, is overlying on the guide wheel body peripheral；The guided wheel slot coating has an at least metallic channel configuration layer, described Metallic channel configuration layer is used to configure an at least metallic channel.

2. cutting guide wheel according to claim 1, it is characterised in that the center of the guide wheel body is provided with power transmission shaft, institute Power transmission shaft is stated provided with mounting structure.

3. cutting guide wheel according to claim 2, it is characterised in that the mounting structure is installation screw or installs logical Hole.

4. cutting guide wheel according to claim 1, it is characterised in that the metallic channel configuration layer be it is multiple, it is multiple described Metallic channel configuration layer is layered on top of each other in thickness dimension.

5. cutting guide wheel according to claim 1, it is characterised in that the metallic channel configured on the metallic channel configuration layer is Multiple, multiple metallic channels are arranged at intervals and are parallel to each other in width dimensions.

6. a kind of groover, it is characterised in that including：

Operating platform；

Guide wheel mounting structure is cut, for installing cutting guide wheel；

Guide pulley transmission unit is cut, for driving the cutting guide wheel installed by the cutting guide wheel mounting structure to rotate；And

Grooving apparatus, including：Grooving tool；Grooving tool travel mechanism, for drive the grooving tool to shift and retreat with At least fluting operation together is carried out to cutting guide wheel each described so that each described cutting guide wheel is in operation of being slotted with along with The spacing that the metallic channel of formation is mutual meets default line-spacing.

7. groover according to claim 6, it is characterised in that the grooving tool travel mechanism includes：

First direction shift mechanism, the cutting specified for driving the grooving tool to move along the first direction with being moved to At guide wheel；And

Second direction driving and reversing mechanism, for driving the grooving tool to be retreated along second direction to enter towards the cutting guide wheel Knife cuts guide wheel withdrawing away from described.

8. groover according to claim 6, it is characterised in that the cutting guide pulley transmission unit includes：

Cut guide wheel drive disk assembly；And

Second direction travel mechanism, for driving the cutting guide wheel drive disk assembly to move in a second direction to contact and be driven institute State cutting guide wheel.

9. groover according to claim 6, it is characterised in that also include：Grinding or turning cutting tool, located at the fluting On device, for carrying out cylindrical lapping or cylindrical turning to the cutting guide wheel.

10. a kind of multi-wire saw equipment, it is characterised in that including：

Support；

Cutting rack, located at the support；

Cutting guide wheel as any one of claim 1 to 5, located at the cutting rack；And

Line of cut, is wound in the metallic channel that the cutting guide wheel is configured.