CN206200757U - For the Digit Control Machine Tool of gear grinding processing - Google Patents

Abstract

The utility model is related to Grinding Technology field, for existing gear grinder complex operation, the low shortcoming of the big, efficiency that takes up room, disclose the Digit Control Machine Tool for gear grinding processing, including digital control system, pedestal, emery wheel feed mechanism, grinding wheel shaping mechanism, generating motion mechanism；Emery wheel feed mechanism is arranged on pedestal, and emery wheel feed mechanism is provided with the first motor and the second motor for controlling emery wheel feed mechanism；Grinding wheel shaping mechanism is arranged on emery wheel feed mechanism, and grinding wheel shaping mechanism is provided with the 3rd motor and the 4th motor for controlling grinding wheel shaping mechanism；Generating motion mechanism is arranged on pedestal, and generating motion mechanism is provided with the 5th motor and the 6th motor for controlling generating motion mechanism；Digital control system controls to be run for the Digit Control Machine Tool of gear grinding processing by cable and all of above motor connection.The utility model is processed for gear grinding, with simple to operate, save space, the beneficial effect of efficiency high.

Description

For the Digit Control Machine Tool of gear grinding processing

Technical field

The utility model is related to Grinding Technology field, and in particular to for the Digit Control Machine Tool of gear grinding processing.

Background technology

Gear is conventional machine components.Gear grinder is a kind of equipment of conventional processing gear, by using at a high speed The emery wheel of rotation carries out cutting out the flank of tooth to the workpiece for doing generating motion.Gear grinder generally comprises pedestal, grinding wheel shaping Mechanism, generating motion mechanism, emery wheel feed mechanism.The grinding wheel shaping mechanism of existing gear grinder, generating motion mechanism, emery wheel enter Typically it is controlled by artificial operation to mechanism.

Gear grinder goes out the flank of tooth to process gear by the high speed rotary grinding of emery wheel.The situation of emery wheel directly affects processing The quality of the gear for going out, therefore repairing type need to be carried out to emery wheel as needed, change angle, thickness and other correlation ginsengs of emery wheel Number.Diamond pen is the common tool of grinding wheel shaping, and the grinding wheel shaping mechanism of existing gear grinder manually adjusts diamond pen position The mode put carries out repairing type to emery wheel, this mode complex operation and, efficiency is low, takes up room big.

The straight line of workpiece and rotary motion constitute exhibition motion, coordinate the high speed rotary-grinding of grinding worm to go out face of gear.It is existing The generating motion mechanism for having gear grinder manually controls the linear motion of workpiece on dividing head, passes through while linear motion Workpiece rotation completes generating motion on machinery etc. point plate control dividing head, will be according to different works when this mode is for Gear Processing Part changes machinery and waits point plate；When this kind of mode processes gear simultaneously cutting angle is controlled by adjusting the angle of base, it is also desirable to It is adjusted for different workpieces.

Plus man-hour requirement adjusts the position of emery wheel as needed.Emery wheel on existing gear grinder is generally by artificial side Formula（Such as handwheel）To adjust emery wheel position, this emery wheel feeding mode spends the time long, and needs workman to be worth during processing workpiece Keep, it is impossible to which automatic compensation emery wheel feed, efficiency is low.

In summary, existing gear grinder transforming into by the artificial repairing type for controlling emery wheel, feeding and workpiece, operation is multiple Miscellaneous, the big, efficiency that takes up room is low.

Utility model content

For existing gear grinder complex operation, the low shortcoming of the big, efficiency that takes up room, the utility model discloses being used for Gear grinding processing Digit Control Machine Tool, by digital control system through motor control gear grinder grinding wheel shaping mechanism, generating motion Mechanism, emery wheel feed mechanism, it is simple to operate, occupy little space, efficiency high.

The utility model is achieved through the following technical solutions：

For the Digit Control Machine Tool of gear grinding processing, including digital control system, pedestal, emery wheel feed mechanism, grinding wheel shaping machine Structure, generating motion mechanism；

The emery wheel feed mechanism is arranged on pedestal, and the emery wheel feed mechanism is provided with for controlling emery wheel to feed machine First motor and the second motor of structure；

The grinding wheel shaping mechanism is arranged on emery wheel feed mechanism, and the grinding wheel shaping mechanism is provided with for controlling sand 3rd motor and the 4th motor of wheel repairing type mechanism；

The generating motion mechanism is arranged on pedestal, and the generating motion mechanism is provided with for controlling generating motion machine 5th motor of structure and the 6th motor；

The digital control system is by cable and first motor, the second motor, the 3rd motor, the 4th motor, the 5th electricity Machine, the 6th motor connection, control to be run for the Digit Control Machine Tool of gear grinding processing.

Design principle of the present utility model is：By digital control system through motor control emery wheel feed mechanism, grinding wheel shaping machine Structure, generating motion mechanism, machined parameters are set by digital control system, simple to operate；Grinding wheel shaping mechanism is integrated in into emery wheel to enter To in mechanism, compact conformation saves space；Process is automated, and realizes that workpiece is processed and to sand automatically by digital control system Automatic repairing type is taken turns, compared with artificial mode, time, efficiency high is saved.

Further, first motor, the second motor, the 3rd motor, the 4th motor, the 5th motor, the 6th motor are Servomotor.Accurate position control can be conveniently realized by using servomotor cooperation digital control system, workpiece is improved Crudy.

Further, the emery wheel feed mechanism is additionally provided with the first slide unit for moving left and right, and first slide unit is provided with The second movable slide unit, second slide unit is provided with the 3rd slide unit for moving up and down, first motor and the second electricity Machine is arranged on the second slide unit.First slide unit is used for and pedestal connection, and emery wheel is arranged on the 3rd slide unit, by the second slide unit The first motor and the second motor realize the precise control of emery wheel position.

Further, the first slide unit upper surface is provided with two the first parallel guide rails, and second slide unit is additionally provided with The second screw mandrel, the first shaft coupling cooperated with the first guide rail, second screw mandrel are provided with the second handwheel, first electricity Machine output shaft is connected by first shaft coupling with the second screw mandrel, and the second handwheel and first the second slide unit of motor control are along the first slide unit On the first guide rail move forward and backward.Coarse adjustment is carried out to the slip on second the first guide rail of slide unit by the second handwheel and the first motor And fine tuning, the control mode that coarse adjustment is combined with fine tuning is simple and reliable.

Further, be additionally provided with second slide unit column, decelerator, second shaft coupling, the 3rd shaft coupling, the 3rd Bar, the 3rd slide unit is sleeved on column, and the reducer output shaft is connected by second shaft coupling with the 3rd screw mandrel, described Second motor output shaft is connected by the 3rd shaft coupling with reducer input shaft, and the 3rd slide unit of control is on the column of the second slide unit Move up and down.3rd slide unit on the second slide unit column up and down through the second motor precise control, with the second handwheel and Movable combination of second slide unit of the first motor control on the first slide unit carries out essence to the position of emery wheel on the 3rd slide unit Really control.

Further, the grinding wheel shaping mechanism is provided with first base and is arranged on first horizontally slipped in first base Sliding block, first sliding block is provided with the second sliding block of slide anteroposterior, vertical on the end face of emery wheel on second sliding block Diamond pen is installed, the 3rd motor is arranged in first base, and the 4th motor is arranged on the first sliding block.By two The mode of group motor control sliding block realizes the precise control of diamond pen position, simple and reliable.

Further, the first base is provided with rectangular opening, and first sliding block is located in hole, and the first base also sets There is the 4th screw mandrel, the 4th screw mandrel input shaft is provided with the second synchronizing wheel, and it is same that the 3rd motor output shaft is provided with first Step wheel, the first synchronizing wheel is connected with the second synchronizing wheel by belt, and the 3rd motor controls the first sliding block by the 4th screw mandrel Horizontally slipped in the hole of first base.Control the first sliding block sliding in first base hole by way of motor is combined with screw mandrel It is dynamic, it is reliable and stable.

Further, first sliding block is provided with rectangular opening, and second sliding block is located in hole, and first sliding block also sets There are the 5th screw mandrel, shaft coupling, the 4th motor is connected through shaft coupling, the 5th screw mandrel with the second sliding block, the second sliding block of control exists Slide anteroposterior in first slider bore.Controlled by way of motor is combined with screw mandrel the second sliding block slided in the first slider bore after And the position of diamond pen fore-and-aft direction is controlled, it is reliable and stable.

Further, the generating motion mechanism includes second base and dividing head, and the second base is provided with the 3rd Sliding block, the dividing head is arranged on the 3rd sliding block, and the 5th motor is arranged on dividing head, and the 6th motor is arranged on In second base.5th motor control rotary motion, the 6th motor control linear motion, fortune is transformed into by two motor controls It is dynamic, it is simple more efficient than artificial control generating motion.

Further, two the 3rd parallel guide rails, the 5th shaft coupling and the 3rd guide rails are additionally provided with the second base The 6th screw mandrel for cooperating, the 6th motor is connected by the 5th shaft coupling with the 6th screw mandrel, controls the 3rd sliding block along the The 3rd slide on two bases, dust cover is additionally provided with the 3rd sliding block.The control by way of motor organizine rod guide Make the 3rd sliding block to be slided in second base, dust cover can prevent abrasive particle during grinding from splashing on the 6th screw mandrel or the 3rd guide rail Influence the 3rd slide block movement.

The utility model by digital control system through the emery wheel feed mechanism of motor control gear grinder, grinding wheel shaping mechanism, Generating motion mechanism, set in digital control system after simply manually adjusting workpiece parameter be capable of achieving the automatic of workpiece plus Work.

Emery wheel feed mechanism aspect, is arranged on pedestal when using by the first slide unit, and front and back are upwardly through second-hand Wheel the second slide unit of coarse adjustment carries out fine tuning by the first motor again behind position, and emery wheel and grinding wheel drive mitor are provided with the 3rd slide unit, the Position of three slide units on the second slide unit column carries out fine tuning by the second motor, is to accurately control the 3rd cunning by this mode The position of emery wheel on platform.Fine tuning on fore-and-aft direction drives the second slide unit by the first motor through first shaft coupling, the second screw mandrel Slide to realize on the first guide rail；The fine tuning of above-below direction is by the second motor through the 3rd shaft coupling, decelerator, the second shaft coupling Device, the 3rd screw mandrel drive slip of the 3rd slide unit on the second slide unit column to realize.

Grinding wheel shaping mechanism aspect, by grinding wheel shaping mechanism, adjustment angle is arranged on emery wheel feeding machine as needed when using On 3rd slide unit of structure, the position of diamond pen is controlled by motor belt motor movable slider, the 3rd motor passes through the 4th screw mandrel by first Sliding block is slid near emery wheel along the first base aperture, and the 4th motor is by the 5th screw mandrel the second sliding block of driving in the first slider bore Slip makes the diamond pen on the second sliding block carry out repairing type to emery wheel.

Generating motion mechanism aspect, by the straight line and rotary motion of workpiece on two groups of motor precise control dividing heads come complete Into generating motion, the angle that second base is adjusted when using is arranged on pedestal, and workpiece is arranged on into the workpiece on dividing head On clamping device, the 5th motor drives work holder rotation on dividing head then to drive workpiece rotation；6th motor passes through 6th screw mandrel drives the 3rd sliding block to be moved along a straight line along the 3rd guide rail, reaches dividing head, piece-holder on the 3rd sliding block of control The purpose of device and workpiece linear motion.

The utility model compared with prior art, has the following advantages and advantages：

1st, it is simple to operate, compared with existing gear grinder manually need to control process, through letter when the utility model is implemented It is single manually adjust after the automatic processing that workpiece parameter information is capable of achieving workpiece is set in digital control system, it is simple to operate；

Be arranged on the 3rd slide unit for grinding wheel shaping mechanism by the 2nd, save space, the utility model, compact conformation, it is possible to achieve The automatic repairing type of emery wheel, space has been saved compared with existing hand operated grinding wheel repairing type mechanism；

3rd, efficiency high, the time is long manually to control gear grinder to be spent when carrying out work pieces process, and efficiency is low, and the utility model leads to Cross digital control system control process, it is possible to achieve automatic compensation emery wheel feed, save time, efficiency high.

Brief description of the drawings

Accompanying drawing described herein is used for providing further understanding the utility model embodiment, constitutes the one of the application Part, does not constitute the restriction to the utility model embodiment.In the accompanying drawings：

Fig. 1 is the Digit Control Machine Tool overall structure figure that the utility model is used for gear grinding processing；

Fig. 2 is Fig. 1 medium plain emery wheel feed mechanism overall structure figures；

Fig. 3 is the right view of Fig. 2；

Fig. 4 is the rearview of Fig. 2；

Fig. 5 is Fig. 1 medium plain emery wheel repairing types mechanism overall structure figure；

Fig. 6 is the rearview of Fig. 5；

Fig. 7 is the right view of Fig. 5；

Fig. 8 is the top view of Fig. 5；

Fig. 9 is Tu1Zhong generating motions mechanism overall structure figure；

Figure 10 is the right view of Fig. 9；

Figure 11 is the top view of Fig. 9.

Mark and corresponding parts title in accompanying drawing：

101- pedestals, 102- grinding wheel shapings mechanism, 103- generating motions mechanism, 104- emery wheel feed mechanisms, 105- bolts；

201- first bases, the sliding blocks of 202- first, the motors of 203- the 3rd, the synchronizing wheels of 204- first, the screw mandrels of 205- the 4th, The synchronizing wheels of 206- second, the sliding blocks of 207- second, 208- diamond pens, the motors of 209- the 4th, the shaft couplings of 210- the 4th, 211- the 5th Bar；

301- second bases, 302- dividing heads, the guide rails of 303- the 3rd, the sliding blocks of 304- the 3rd, the motors of 305- the 5th, 306- works Part clamping device, the motors of 307- the 6th, the shaft couplings of 308- the 5th, the screw mandrels of 309- the 6th, 310- dust covers, 311- workpiece；

The slide units of 401- first, the slide units of 402- second, the guide rails of 403- first, the guide rails of 404- second, the screw mandrels of 405- first, 406- First handwheel, the screw mandrels of 407- second, the handwheels of 408- second, 409- columns, the slide units of 410- the 3rd, the screw mandrels of 411- the 3rd, 412- sand Wheel, 413- grinding wheel drive mitors, the motors of 414- first, 415- first shaft couplings, 416- decelerators, 417- second shaft couplings, 418- the Two motors, the shaft couplings of 419- the 3rd.

Specific embodiment

To make the purpose of this utility model, technical scheme and advantage become more apparent, with reference to embodiment and accompanying drawing, The utility model is described in further detail, and exemplary embodiment of the present utility model and its explanation are only used for explaining this Utility model, is not intended as to restriction of the present utility model.

Embodiment one

As shown in figure 1, for the Digit Control Machine Tool of gear grinding processing, including digital control system, pedestal 101, it is arranged on pedestal Emery wheel feed mechanism 104 on 101, the grinding wheel shaping mechanism 102 being arranged on emery wheel feed mechanism 104, it is arranged on pedestal 101 On generating motion mechanism 103, pedestal 101 is provided with bolt 105.

As shown in Figures 1 to 4, emery wheel feed mechanism 104 is provided with the first slide unit 401 for moving left and right, on the first slide unit 401 The second movable slide unit 402 is provided with, the second slide unit 402 is provided with column 409, and the 3rd slide unit 410 is enclosed within column 409.Make Used time is arranged on gear grinder by the first slide unit 401, and the upper surface of the first slide unit 401 is provided with two the first parallel guide rails 403, the lower surface of the first slide unit 401 is provided with two the second parallel guide rails 404, and the first screw mandrel is provided with the first slide unit 401 405, the first screw mandrel 405 is provided with the first handwheel 406, and the first slide unit 401 is controlled in grinding machine pedestal 101 by the first handwheel 406 On horizontally slip.

Second screw mandrel 407 is installed, the second screw mandrel 407 is provided with the second handwheel 408, the first slide unit on second slide unit 402 401 and second slide unit 402 be attached by the first guide rail 403 and the second screw mandrel 407, control second by the second handwheel 408 Slide unit 402 is moved forward and backward on the first guide rail 403 of the first slide unit 401.3rd slide unit 410 is provided with emery wheel 412 and emery wheel electricity Machine 413, grinding wheel drive mitor 413 drives emery wheel 412 to carry out rotation at a high speed and carries out grinding to gear.

Second slide unit 402 is additionally provided with the first motor 414, decelerator 416, second shaft coupling 417, the second motor the 418, the 3rd Screw mandrel 411, is provided with first shaft coupling 415 on the output shaft of the first motor 414, the first motor 414 by first shaft coupling 415 with Second screw mandrel 407 is attached, and the second slide unit 402 of control is moved forward and backward on the first guide rail 403 of the first slide unit 401, then Control emery wheel 412 position in the longitudinal direction；The output shaft of decelerator 416 is connected by second shaft coupling 417 with the 3rd screw mandrel 411 Connect, the second motor 418 is connected by the 3rd shaft coupling 419 with the input shaft of decelerator 416, and the second motor 418 is through the 3rd shaft coupling Device 419, decelerator 416, second shaft coupling 417, the 3rd screw mandrel 411 control the 3rd slide unit 410 to be moved up and down on column 409, Then the position in the vertical direction of emery wheel 412 is controlled.

As shown in Fig. 1 and Fig. 5 to Fig. 8, adjustment angle is entered installed in emery wheel as needed when grinding wheel shaping mechanism 102 uses To the first sliding block 202 on the 3rd slide unit 410 of mechanism 104, being provided with first base 201 He move left and right, in first base 201 There is rectangle through hole in portion, and the first sliding block 202 is located in the hole of first base 201；3rd motor 203 is installed in first base 201, First synchronizing wheel 204 is installed on the output shaft of the 3rd motor 203, the 4th screw mandrel 205, the 4th are additionally provided with first base 201 The left end of bar 205 is provided with the second synchronizing wheel 206, and the first synchronizing wheel 204 and the second synchronizing wheel 206 are connected by belt, the 4th screw mandrel 205 run through first base 201 through the first sliding block 202, and the 4th screw mandrel 205 is connected through a screw thread with the first sliding block 202, the 3rd electricity Machine 203 drives the 4th screw mandrel 205 to rotate by the first synchronizing wheel 204, belt 208, the second synchronizing wheel 206, then controls first Sliding block 202 is slided in the hole of first base 201.

The part that first sliding block 202 extends outside first base 201 has rectangular opening, and movable is provided with hole Two sliding blocks 207, the second sliding block 207 is vertically installed with diamond pen 208 on the end face of emery wheel 412, and the end face is corresponding another End has screwed hole；The 4th motor 209, the 5th screw mandrel 211, the 4th shaft coupling 210, the 4th electricity are additionally provided with first sliding block 202 The output shaft of machine 209 is connected by the 4th shaft coupling 210 with the 5th screw mandrel 211, the other end of the 5th screw mandrel 211 and the second sliding block 207 are connected through a screw thread, and the 4th motor 209 drives the 5th screw mandrel 211 to rotate by the 4th shaft coupling 210, controls the second sliding block 207 in the hole of the first sliding block 202 slide anteroposterior, then adjust diamond pen 208 position, reach carries out repairing type to emery wheel 412 Purpose.3rd motor 203 and the 4th motor 209 can realize accurate position control using servomotor.

As shown in Fig. 1 and Fig. 9 to Figure 11, generating motion mechanism 103 is provided with second base 301 and dividing head 302, the second bottom Seat 301 is used to be connected with gear grinder and support generating motion mechanism 103, dividing head 302 be used to control the rotation of workpiece 311 with Linear motion then completes generating motion, and the second base 301 is provided with two the 3rd parallel guide rails 303, the described 3rd Guide rail 303 is provided with the 3rd sliding block 304；The dividing head 302 is arranged on the 3rd sliding block 304, and dividing head 302 is provided with the 5th Motor 305 is used to drive dividing head 302 to rotate, and work holder 306 is additionally provided with dividing head 302 to regular worker Part 311.

Second base 301 is provided with the 6th motor 307, the 5th shaft coupling 308 and the 3rd guide rail 303 cooperate the Six screw mandrels 309, the output shaft of the 6th motor 307 is connected by the 5th shaft coupling 308 with the 6th screw mandrel 309, controls the 3rd sliding block 304 slide then drive dividing head 302 on the 3rd guide rail 303 of second base 301 moves along a straight line.On 3rd sliding block 304 Dust cover 310 is additionally provided with, dust cover 310 can prevent abrasive particle during grinding from splashing shadow on the 6th screw mandrel 309 or the 3rd guide rail 303 The 3rd sliding block 304 is rung to move.

When the utility model is implemented, generating motion mechanism 103 is adjusted first, according to processing request by second base 301 with Certain angle is arranged on pedestal 101 by bolt 105, and workpiece 311 is arranged on into the work holder on dividing head 302 On 306, work holder 306 rotates then drive workpiece 311 and rotates on the driving dividing head 302 of the 5th motor 305；6th electricity Machine 307 drives the 3rd sliding block 304 to be moved along a straight line along the 3rd guide rail 303 by the 5th shaft coupling 308 and the 6th screw mandrel 309； Dividing head 302, work holder 306 and workpiece 311 move along a straight line with the 3rd sliding block 304, and by the 5th motor 305 rotary motions of workpiece 311 for driving are bonded generating motion.

Then adjustment emery wheel feed mechanism 104, drives the first slide unit 401 to exist by the first handwheel 406 through the first screw mandrel 405 Moved left and right on pedestal 101.On the fore-and-aft direction of emery wheel 412 position by behind the position of 408 the second slide unit of coarse adjustment of the second handwheel 402 again Fine tuning is carried out by the first motor 414, position of the 3rd slide unit 410 on column 409 carries out fine tuning by the second motor 418, It is the upper-lower position for accurately controlling emery wheel 412 on the 3rd slide unit 410 by this mode.Fine tuning on fore-and-aft direction passes through first Motor 414 drives the second slide unit 402 to slide to realize on the first guide rail 403 through first shaft coupling 415, the second screw mandrel 407；On The fine tuning in lower direction is by the second motor 418 through the 3rd shaft coupling 419, decelerator 416, second shaft coupling 417, the 3rd screw mandrel 411 drive slip of the 3rd slide units 410 on column 409 to realize.

Grinding wheel shaping mechanism 102 is finally configured, adjustment angle is arranged on the 3rd cunning of emery wheel feed mechanism 104 as needed On platform 410, the 3rd motor 203 controls the first sliding block 202 to slide into emery wheel 412 along the hole of first base 201 by the 4th screw mandrel 205 Near, the 4th motor 209 controls the second sliding block 207 to be slided along the hole of the first sliding block 202 by the 5th screw mandrel 211 makes the second sliding block Diamond pen 208 on 207 carries out repairing type to emery wheel 412.

By to realize the grinding to gear by upper type, through simply manually adjusting when the utility model is implemented The automatic of workpiece 311 is realized by digital control system controlled motor by setting the parameter information of workpiece 311 in digital control system afterwards Processing；The compact of grinding wheel shaping device 102 can be realized carrying out repairing type to emery wheel 412；Emery wheel feed mechanism 104 can be realized The automatic compensation feed of emery wheel 412；In summary, having simple to operate, save space, efficiency high when the utility model is implemented has Beneficial effect.

Above-described specific embodiment, is entered to the purpose of this utility model, technical scheme and beneficial effect One step is described in detail, be should be understood that and be the foregoing is only specific embodiment of the present utility model, is not used to limit Fixed protection domain of the present utility model, all any modifications within spirit of the present utility model and principle, made, equally replaces Change, improve, should be included within protection domain of the present utility model.

Claims (10)

1. the Digit Control Machine Tool of gear grinding processing, including pedestal are used for（101）, emery wheel feed mechanism（104）, grinding wheel shaping mechanism （102）, generating motion mechanism（103）, it is characterised in that the Digit Control Machine Tool for gear grinding processing also includes numerical control system System；

The emery wheel feed mechanism（104）Installed in pedestal（101）On, the emery wheel feed mechanism（104）It is provided with for controlling Emery wheel feed mechanism processed（104）The first motor（414）With the second motor（418）；

The grinding wheel shaping mechanism（102）Installed in emery wheel feed mechanism（104）On, the grinding wheel shaping mechanism（102）On set Useful control grinding wheel shaping mechanism（102）The 3rd motor（203）With the 4th motor（209）；

The generating motion mechanism（103）Installed in pedestal（101）On, the generating motion mechanism（103）It is provided with for controlling Generating motion mechanism processed（103）The 5th motor（305）With the 6th motor（307）；

The digital control system passes through cable and first motor（414）, the second motor（418）, the 3rd motor（203）, the 4th Motor（209）, the 5th motor（305）, the 6th motor（307）Connection, controls to be run for the Digit Control Machine Tool of gear grinding processing.

2. it is according to claim 1 for gear grinding processing Digit Control Machine Tool, it is characterised in that first motor （414）, the second motor（418）, the 3rd motor（203）, the 4th motor（209）, the 5th motor（305）, the 6th motor（307）For Servomotor.

3. it is according to claim 1 and 2 for gear grinding processing Digit Control Machine Tool, it is characterised in that the emery wheel enters To mechanism（104）It is additionally provided with the first slide unit for moving left and right（401）, first slide unit（401）It is provided with movable Two slide units（402）, second slide unit（402）It is provided with the 3rd slide unit for moving up and down（410）, first motor（414） With the second motor（418）Installed in the second slide unit（402）On.

4. it is according to claim 3 for gear grinding processing Digit Control Machine Tool, it is characterised in that first slide unit （401）Upper surface is provided with two the first parallel guide rails（403）, second slide unit（402）It is additionally provided with and the first guide rail（403） The second screw mandrel for cooperating（407）, first shaft coupling（415）, second screw mandrel（407）It is provided with the second handwheel（408）, First motor（414）Output shaft passes through first shaft coupling（415）With the second screw mandrel（407）Connection, the second handwheel（408）With First motor（414）Control the second slide unit（402）Along the first slide unit（401）On the first guide rail（403）It is movable.

5. it is according to claim 4 for gear grinding processing Digit Control Machine Tool, it is characterised in that second slide unit （402）On be additionally provided with column（409）, decelerator（416）, second shaft coupling（417）, the 3rd shaft coupling（419）, the 3rd screw mandrel （411）, the 3rd slide unit（410）It is sleeved on column（409）On, the decelerator（416）Output shaft passes through second shaft coupling （417）With the 3rd screw mandrel（411）Connection, second motor（418）Output shaft passes through the 3rd shaft coupling（419）With decelerator （416）Input shaft is connected, and controls the 3rd slide unit（410）In the second slide unit（402）Column（409）On move up and down.

6. according to any one of claim 1,2,4,5 for gear grinding processing Digit Control Machine Tool, it is characterised in that The grinding wheel shaping mechanism（102）It is provided with first base（201）Be arranged on first base（201）On horizontally slip first cunning Block（202）, first sliding block（202）It is provided with the second sliding block of slide anteroposterior（207）, second sliding block（207）On lean on Diamond pen is vertically installed with the end face of nearly emery wheel（208）, the 3rd motor（203）Installed in first base（201）On, institute State the 4th motor（209）Installed in the first sliding block（202）On.

7. it is according to claim 6 for gear grinding processing Digit Control Machine Tool, it is characterised in that the first base （201）It is provided with rectangular opening, first sliding block（202）In hole, the first base（201）It is additionally provided with the 4th screw mandrel （205）, the 4th screw mandrel（205）Input shaft is provided with the second synchronizing wheel（206）, the 3rd motor（203）On output shaft It is provided with the first synchronizing wheel（204）, the first synchronizing wheel（204）With the second synchronizing wheel（206）Connected by belt, the 3rd motor （203）By the 4th screw mandrel（205）Control the first sliding block（202）In first base（201）Hole in horizontally slip.

8. it is according to claim 7 for gear grinding processing Digit Control Machine Tool, it is characterised in that first sliding block （202）It is provided with rectangular opening, second sliding block（207）In hole, first sliding block（202）It is additionally provided with the 5th screw mandrel （211）, the 4th shaft coupling（210）, the 4th motor（209）Through the 4th shaft coupling（210）, the 5th screw mandrel（211）With second Sliding block（207）Connection, controls the second sliding block（207）In the first sliding block（202）Slide anteroposterior in hole.

9. according to any one of claim 1,2,4,5,7,8 for gear grinding processing Digit Control Machine Tool, its feature It is, the generating motion mechanism（103）Including second base（301）And dividing head（302）, the second base（301）On It is provided with the 3rd sliding block（304）, the dividing head（302）Installed in the 3rd sliding block（304）On, the 5th motor（305）Install In dividing head（302）On, the 6th motor（307）Installed in second base（301）On.

10. it is according to claim 9 for gear grinding processing Digit Control Machine Tool, it is characterised in that the second base （301）On be additionally provided with two the 3rd parallel guide rails（303）, the 5th shaft coupling（308）With the 3rd guide rail（303）Cooperate The 6th screw mandrel（309）, the 6th motor（307）By the 5th shaft coupling（308）With the 6th screw mandrel（309）Connection, control 3rd sliding block（304）Along second base（301）On the 3rd guide rail（303）Slide, the 3rd sliding block（304）On be additionally provided with it is anti- Dust hood（310）.