CN203282288U - Cutter grinding machine - Google Patents

Abstract

The utility model is suitable for the technical field of grinding and provides a cutter grinding machine. The cutter grinding machine comprises a worktable, a grinding device, a controller, a fixing device and a moving device moving along an X-axis and a Y-axis. The fixing device is arranged on the moving device which is arranged on the worktable. The grinding device is arranged on the worktable, and the grinding device and the moving device are parallel in the X-axis direction. The fixing device is vertical to the position of the grinding face of the grinding device, and the controller is respectively connected with the moving device and the fixing device. By adding a servo motor, accurate positioning and moving of the cutter grinding machine on the X-axis and the Y-axis are achieved, grinding of drill bit blanks of different specifications is achieved through a compiling controller. The cutter grinding machine is simple in structure, convenient to operate and fast in grinding speed, drill bits which are ground are the same in specification and basically free of distinction, automatic grinding is completely achieved, labor cost is reduced, professional grinding skilled workers are not needed any more, and the drill bits can be used as soon as the drill bits are ground.

Description

A kind of knife sharpener

Technical field

The utility model belongs to the grinding technology field, relates in particular to a kind of knife sharpener.

Background technology

development along with society, the progress of science and technology, automated production is more and more frequently changed, automation in a lot of fields, and the technical professional's who almost all still adopts in drill bit polishing field polishing drill bit, at the drill bit that magnetic material is punched, be particularly all the manual polishing that adopts, because the material hardness of this drill bit is high, be difficult for polishing, and the centering of polishing requires high, require the drill bit high conformity of polishing, , at present also do not have a automatic grinding apparatus to polish to such drill bit, realize the operation of industrial automation.And this drill bit is due in use wearing and tearing, needs drill bit is polished constantly, otherwise just there will be, magnetic material can't be punched.

Need polishing constantly at the drill bit to the magnetic material punching, so just need the grinding technology personnel of specialty, and the cost of such professional technique work is very high, and speed, the efficiency of polishing are also unhappy, can only meet the use of several lathes, and can not large batch of production be to use.And other the general work that has the grinding technology personnel to have a rest or slow down is and then stopped work, and stops production.

Therefore, need design a can be automatically to the sanding apparatus of magnetic material grooved bit.

The utility model content

The utility model is to provide a kind of knife sharpener, is intended to solve at present to the problem that can't realize automation of magnetic material punching with drill bit.

The utility model is to realize like this, a kind of knife sharpener, this knife sharpener comprises workbench, sanding apparatus, controller, fixture and has the telecontrol equipment that moves along the X-axis Y-axis, described fixture is located on described telecontrol equipment, described telecontrol equipment is located on described workbench, described sanding apparatus is located on described workbench, described sanding apparatus is parallel along X-direction with described telecontrol equipment, described fixture is vertical with described sanding apparatus flour milling position, and described controller is connected with described telecontrol equipment and fixture respectively.

further technical scheme of the present utility model is: this knife sharpener also comprises sensor, described sensor comprises first sensor, the second sensor, the 3rd sensor, four-sensor and the 5th sensor, described first sensor is located on fixture, described the second sensor, the 3rd sensor is located on the X-axis direction of motion of described telecontrol equipment, described four-sensor, the 5th sensor is located on the Y-axis direction of motion of described telecontrol equipment, described first sensor, the second sensor, the 3rd sensor, four-sensor and the 5th sensor are electrically connected with described controller respectively.

Further technical scheme of the present utility model is: described fixture comprises the first servomotor and positioner, and described the first servomotor connects described positioner, and described the first servomotor and described controller are electrically connected.

further technical scheme of the present utility model is: described positioner comprises drilling attachment, rotary main shaft, main spindle box, snap ring, chuck and chuck pull bar, described drilling attachment is located at described chuck internal clearance and is connected, described chuck is located in described rotary main shaft, described rotary main shaft is located in described main spindle box, described snap ring connects described main spindle box, and described chuck pull bar is fixed, described chuck connects described chuck pull bar, described chuck end face is provided with the first through hole to bottom surface, described chuck pull bar end face is provided with the second through hole to bottom surface, the central point of described the first through hole and described the second through hole is on same straight line, described the first through hole inner face is provided with the first plane.

Further technical scheme of the present utility model is: described drilling attachment is cylindrical structural, described drilling attachment surface is provided with the second plane, described drilling attachment end face central point is provided with the locating hole of bottom surface central point, described locating hole inner face is provided with the 3rd plane, be provided with the cross breach take central point as intersection point in described drilling attachment, wherein a breach is communicated with described the second plane and described the 3rd plane, described the second plane and described the 3rd plane parallel.

further technical scheme of the present utility model is: described telecontrol equipment comprises supporting mechanism, glide base, the second servomotor, the 3rd servomotor, the first ball-screw, the second ball-screw and footstock, be provided with groove along X-direction in the middle of described glide base bottom surface, described groove both sides respectively are provided with circular third through-hole, fourth hole, described glide base be provided with from end face to bottom surface tetragonal the 8th through hole, described the 8th through hole is located in the middle of described groove right side, the top of described glide base is provided with the 6th circular through hole along Y direction, the 7th through hole and fifth hole, described fifth hole passes described the 8th through hole, described the 6th through hole, the 7th through hole is placed in respectively the both sides of described fifth hole, described the 6th through hole, the 7th through hole equates to the distance of described fifth hole, described glide base is respectively equipped with screw along the X-axis two sides, be provided with screw in described groove, described glide base is located on described supporting mechanism, two slide bars of described supporting mechanism pass corresponding described third through-hole, fourth hole, described the first ball-screw two ends connect described supporting mechanism, described the second servomotor connects described the first ball-screw, described the second servomotor is located in described groove, described the second servomotor and described controller are electrically connected, described the 3rd servomotor is located in described the 8th through hole, described the second ball-screw connects described the 3rd servomotor, described the 3rd servomotor and described controller are electrically connected, described the second ball-screw passes described fifth hole and is connected with described footstock, described footstock two slide bar correspondences are passed described the 6th through hole, the 7th through hole is located on described glide base.

further technical scheme of the present utility model is: this knife sharpener also comprises the grinding device that the drill bit blank is carried out the datum level polishing, described grinding device comprises the first sanding apparatus, fastener and have the first telecontrol equipment that moves along the X-axis Y-axis, described the first sanding apparatus is located on described workbench, described the first telecontrol equipment is located on workbench, described fastener is located on described the first telecontrol equipment, described the first sanding apparatus flour milling is parallel with described fastener and described work director limit, described the first sanding apparatus flour milling is vertical with described sanding apparatus flour milling position.

Further technical scheme of the present utility model is: described grinding device also comprises the 6th sensor and the 7th sensor, described the 6th sensor be located at described the first telecontrol equipment along on the direction of motion of X-axis, described the 7th sensor be located at described the first telecontrol equipment along on the direction of motion of Y-axis, described the 6th sensor and the 7th sensor are electrically connected with described controller respectively.

further technical scheme of the present utility model is: described the first telecontrol equipment comprises supporting mechanism, the first glide base, the 4th servomotor, the 5th servomotor, the first ball-screw, the 3rd ball-screw and the first footstock, be provided with the first groove along X-direction in the middle of described the first glide base bottom surface, described the first groove both sides respectively are provided with the 9th circular through hole, the tenth through hole, described the first glide base be provided with from end face to bottom surface tetragonal the 11 through hole, described the 11 through hole is located in the middle of described the first groove right side, the top of described the first glide base is provided with the 12 circular through hole along Y direction, the 13 through hole and the tenth four-way hole, described the 11 through hole is passed in described the tenth four-way hole, described the 12 through hole, the 13 through hole is placed in respectively the both sides in described the tenth four-way hole, described the 12 through hole, the 13 through hole equates to the distance in described the tenth four-way hole, described the first glide base is respectively equipped with screw along the X-axis two sides, be provided with screw in described the first groove, two slide bars of described supporting mechanism pass corresponding described the 9th through hole, the tenth through hole is located at described the first glide base on described supporting mechanism, described the first ball-screw two ends connect described supporting mechanism, described the 4th servomotor connects described the first ball-screw, described the 4th servomotor is located in described the first groove, described the 4th servomotor and described controller are electrically connected, described the 5th servomotor is located in described the 11 through hole, described the 3rd ball-screw connects described the 5th servomotor, described the 5th servomotor and described controller are electrically connected, described the 3rd ball-screw passes described the tenth four-way hole and is connected with described the first footstock, two slide bar correspondences of described the first footstock are passed described the 12 through hole, the 13 through hole is located on described the first glide base.

Another purpose of the present utility model is to provide a kind of method of sharpening based on knife sharpener, and this sharpening method comprises the following steps:

A, drill bit blank that will be to be polished install on fastener;

B, start to grinding device and the drill bit blank is polished the plane of a benchmark;

C, the drill bit blank of the datum plane of having polished is installed on drilling attachment, and the first planar registration of the datum plane of drill bit blank and drilling attachment;

D, the drilling attachment that the drill bit blank will be housed are installed on chuck, and the drill bit blank passes the first through hole and the second through hole is fixed the drill bit blank;

E, starter motor enter the polishing state, wait for that the operator arranges all size parameter of different drill bits by controller;

F, startup telecontrol equipment take the drill bit blank to assigned address;

G, input sharpening instruction on controller, telecontrol equipment drives the drill bit blank and is polished into drill bit according to specifications parameter.

The beneficial effects of the utility model are: by having realized accurate location and the movement thereof in the X-axis Y-axis adding of servomotor, but realized the polishing of the drill bit blank of different size by the way of compiling control device, this device simple in structure, the basic indifference of the drill bit same size that easy to operate, polishing speed is fast, polish, realized the bruting process of automation fully, reduced cost of labor by this device, no longer needed the grinding technology work of specialty, realized that namely mill is namely used.

Description of drawings

Fig. 1 is the knife sharpener overall structure figure that the utility model embodiment provides;

Fig. 2 is that the knife sharpener that the utility model embodiment provides is removed cover structure figure;

Fig. 3 is the positioning device structure figure of the knife sharpener that provides of the utility model embodiment;

Fig. 4 is the glide base schematic diagram of the knife sharpener that provides of the utility model embodiment;

Fig. 5 is the flow chart of the sharpening method that provides of the utility model embodiment.

The specific embodiment

Numerals: 10 - polished fixtures 20 - work support 30 - Movement means 40 - fixing device 50 - first movement means 60 - fastening device 70 - supporting mechanism 80 - Electrical box 90 - Housing 91 - first sanding device 101 - motor 102 - support 103 - shaft 104 - wheel 105 - belt 201 - seat prop 301 - groove 302 - third through hole 303 - fourth through aperture 304 - seventh via 305 - sixth hole 306 - fifth through Hole 307 - eighth hole 308 - screw 309 - top 401 - positioning device 501 - the first top-701 - the first support board 702 - second support plate 703 - the third support plate 704 - slider 911 - first bracket 4011 - drill jig 4012 - 4013 chuck rotating spindle 4014 - headstock 4015 - ring 4016 - chuck lever

as shown in Figure 1, a kind of knife sharpener that the utility model provides, this knife sharpener comprises workbench 20, sanding apparatus 10, the controller (not shown), fixture 40 and have the telecontrol equipment 30 that moves along the X-axis Y-axis, described fixture 40 is located on described telecontrol equipment 30, described telecontrol equipment 30 is located on described workbench 20, described sanding apparatus 10 is located on described workbench 20, described sanding apparatus 10 is parallel along X-direction with described telecontrol equipment 30, described fixture 40 is vertical with described sanding apparatus 10 flour milling positions, described controller is connected with described telecontrol equipment 30 and fixture 40 respectively.By having realized accurate location and the movement thereof in the X-axis Y-axis adding of servomotor, but realized the polishing of the drill bit blank of different size by the way of compiling control device, this device simple in structure, the basic indifference of the drill bit same size that easy to operate, polishing speed is fast, polish, realized the bruting process of automation fully, reduced cost of labor by this device, no longer needed the grinding technology work of specialty, realized that namely mill is namely used.

Described controller is installed in described electric box 80.

This knife sharpener also comprises the sensor (not shown), described sensor comprises first sensor, the second sensor, the 3rd sensor, four-sensor and the 5th sensor, described first sensor is located on fixture, described the second sensor, the 3rd sensor are located on the X-axis direction of motion of described telecontrol equipment, described four-sensor, the 5th sensor are located on the Y-axis direction of motion of described telecontrol equipment, and described first sensor, the second sensor, the 3rd sensor, four-sensor and the 5th sensor are electrically connected with described controller respectively.

Described fixture comprises the first servomotor (not shown) and positioner 401, and described the first servomotor connects described positioner 401, and described the first servomotor and described controller are electrically connected.

as shown in Figure 3, described positioner 401 comprises drilling attachment 4011, rotary main shaft 4013, main spindle box 4014, snap ring 4015, chuck 4012 and chuck pull bar 4016, described drilling attachment 4011 is located at described chuck 4012 internal clearances and is connected, described chuck 4012 is located in described rotary main shaft 4013, described rotary main shaft 4013 is located in described main spindle box 4014, described snap ring 4015 connects described main spindle box 4014, and described chuck pull bar 4016 is fixed, described chuck 4012 connects described chuck pull bar 4016, described chuck 4012 end faces are provided with the first through hole to bottom surface, described chuck pull bar 4016 end faces are provided with the second through hole to bottom surface, the central point of described the first through hole and described the second through hole is on same straight line, described the first through hole inner face is provided with the first plane.

Described snap ring 4015 adopts and is threaded with described main spindle box 4014.

Described drilling attachment 4011 is cylindrical structural, described drilling attachment 4011 surfaces are provided with the second plane, described drilling attachment 4011 end face central points are provided with the locating hole of bottom surface central point, described locating hole inner face is provided with the 3rd plane, be provided with the cross breach take central point as intersection point in described drilling attachment 4011, wherein a breach is communicated with described the second plane and described the 3rd plane, described the second plane and described the 3rd plane parallel.

as described in Figure 4, described telecontrol equipment 30 comprises supporting mechanism 70, glide base, the second servomotor, the 3rd servomotor, the first ball-screw, the second ball-screw and footstock 309, be provided with groove 301 along X-direction in the middle of described glide base bottom surface, described groove 301 both sides respectively are provided with circular third through-hole 302, fourth hole 303, described glide base be provided with from end face to bottom surface tetragonal the 8th through hole 307, described the 8th through hole 307 is located in the middle of described groove 301 right sides, described the 8th through hole 307 passes described fourth hole 303, the top of described glide base is provided with the 6th circular through hole 305 along Y direction, the 7th through hole 304 and fifth hole 306, described fifth hole 306 passes described the 8th through hole 307, described the 6th through hole 305, the 7th through hole 304 is placed in respectively the both sides of described fifth hole 306, described the 6th through hole 305, the 7th through hole 304 equates to the distance of described fifth hole 306, described glide base is respectively equipped with screw 308 along the X-axis two sides, be provided with screw in described groove 301, described glide base is located on described supporting mechanism 70, two slide bars 704 of described supporting mechanism 70 pass corresponding described third through-hole 302, fourth hole 303, described the first ball-screw two ends connect described supporting mechanism 70, described the second servomotor connects described the first ball-screw, described the second servomotor is located in described groove 301, described the second servomotor and described controller are electrically connected, described the 3rd servomotor is located in described the 8th through hole 307, described the second ball-screw connects described the 3rd servomotor, described the 3rd servomotor and described controller are electrically connected, described the second ball-screw passes described fifth hole 306 and is connected with described footstock 309, two slide bar 704 correspondences of described footstock 309 are passed described the 6th through hole 305, the 7th through hole 304 is located on described glide base.

Described the second servomotor and described glide base are fixed with bolts in described groove 301.

Described the 3rd servomotor and described glide base are fixed with bolts in described the 8th through hole 307.

Described sanding apparatus 10 comprises motor, support, power transmission shaft, emery wheel and belt, described emery wheel connects described power transmission shaft, and described power transmission shaft connects described motor by described belt, and described power transmission shaft is located on described support, described support is provided with bearing, and described power transmission shaft passes described bearing.

This knife sharpener also comprises outer cover 90, and described outer cover 90 is a plurality of, and described outer cover 90 covers on described sanding apparatus 10, telecontrol equipment 30, the first sanding apparatus 91.

this knife sharpener also comprises the grinding device that the drill bit blank is carried out the datum level polishing, described grinding device comprises the first sanding apparatus 91, fastener 60 and have the first telecontrol equipment 50 that moves along the X-axis Y-axis, described the first sanding apparatus 91 is located on described workbench 20, described the first telecontrol equipment 50 is located on described workbench 20, described fastener 60 is located on described the first telecontrol equipment 50, described the first sanding apparatus 91 flour millings are parallel with described fastener 60 and the long limit of described workbench 20, described the first sanding apparatus 91 flour millings are vertical with described sanding apparatus 10 flour milling positions.

Described grinding device also comprises the 6th sensor and the 7th sensor, described the 6th sensor be located at described the first telecontrol equipment 50 along on the direction of motion of X-axis, described the 7th sensor be located at described the first telecontrol equipment 50 along on the direction of motion of Y-axis, described the 6th sensor and the 7th sensor are electrically connected with described controller respectively.

described the first telecontrol equipment 50 comprises supporting mechanism 70, the first glide base, the 4th servomotor, the 5th servomotor, the first ball-screw, the 3rd ball-screw and the first footstock, be provided with the first groove along X-direction in the middle of described the first glide base bottom surface, described the first groove both sides respectively are provided with the 9th circular through hole, the tenth through hole, described the first glide base be provided with from end face to bottom surface tetragonal the 11 through hole, described the 11 through hole is located in the middle of described the first groove right side, the top of described the first glide base is provided with the 12 circular through hole along Y direction, the 13 through hole and the tenth four-way hole, described the 11 through hole is passed in described the tenth four-way hole, described the 12 through hole, the 13 through hole is placed in respectively the both sides in described the tenth four-way hole, described the 12 through hole, the 13 through hole equates to the distance in described the tenth four-way hole, described the first glide base is respectively equipped with screw 308 along the X-axis two sides, be provided with screw 308 in described the first groove, two slide bars 704 of described supporting mechanism 70 pass corresponding described the 9th through hole, the tenth through hole is located at described the first glide base on described supporting mechanism 70, described the first ball-screw two ends connect described supporting mechanism 70, described the 4th servomotor connects described the first ball-screw, described the 4th servomotor is located in described the first groove, described the 4th servomotor and described controller are electrically connected, described the 5th servomotor is located in described the 11 through hole, described the 3rd ball-screw connects described the 5th servomotor, described the 5th servomotor and described controller are electrically connected, described the 3rd ball-screw passes described the tenth four-way hole and is connected with described the first footstock 501, two slide bar 704 correspondences of described the first footstock 501 are passed described the 12 through hole, the 13 through hole is located on described the first glide base.

Described the 4th servomotor and described the first glide base are fixed with bolts in described the first groove.

Described the 5th servomotor and described the first glide base are fixed with bolts in described the 11 through hole.

Described the first sanding apparatus 91 comprises the first motor, the first support, the first power transmission shaft, the first emery wheel and the first belt, described the first emery wheel connects described the first power transmission shaft, described the first power transmission shaft connects described the first motor by described the first belt, described the first power transmission shaft is located on described the first support, described the first support is provided with clutch shaft bearing, and described the first power transmission shaft passes described clutch shaft bearing.

As described in Figure 5, a kind of method of sharpening based on knife sharpener that the utility model provides, details are as follows for it:

In step S1, drill bit blank to be polished is installed on fastener, fastener takes the drill bit blank to assigned address under the drive of the first telecontrol equipment, makes the drill bit blank prepare to polish.

In step S2, the drill bit blank that startup the first sanding apparatus will set polish the plane of a benchmark and uses for the location of drill bit blank.

In step S3, the drill bit blank of the datum plane of having polished is installed on drilling attachment, and, with the first planar registration of the datum plane of drill bit blank and drilling attachment, makes the drill bit blank proofread and correct in drilling attachment.

In step S4, the drilling attachment that the drill bit blank is installed is installed on chuck, makes the drill bit blank pass the first through hole and the second through hole is fixed the drill bit blank.

In step S5, starter motor enters the polishing state, waits for that the operation skilled worker arranges the parameter of different size drill bit by controller, stores the memory space energy of controller into, can take out timely use while needing.

In step S6, start telecontrol equipment by controller and the drill bit blank is taken to the position of appointment, enter into the state of preparing the polishing drill bit.

In step S7, operating technology workman inputs the sharpening instruction on controller, and telecontrol equipment moves the drill bit blank according to the specifications parameter drill bit blank of polishing, until the drill bit blank is polished into the structure of drill bit.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all any modifications of doing within spirit of the present utility model and principle, be equal to and replace and improvement etc., within all should being included in protection domain of the present utility model.

Claims (9)

1. knife sharpener, it is characterized in that: this knife sharpener comprises workbench, sanding apparatus, controller, fixture and has the telecontrol equipment that moves along the X-axis Y-axis, described fixture is located on described telecontrol equipment, described telecontrol equipment is located on described workbench, described sanding apparatus is located on described workbench, described sanding apparatus is parallel along X-direction with described telecontrol equipment, described fixture is vertical with described sanding apparatus flour milling position, and described controller is connected with described telecontrol equipment and fixture respectively.

2. knife sharpener according to claim 1, it is characterized in that: this knife sharpener also comprises sensor, described sensor comprises first sensor, the second sensor, the 3rd sensor, four-sensor and the 5th sensor, described first sensor is located on fixture, described the second sensor, the 3rd sensor is located on the X-axis direction of motion of described telecontrol equipment, described four-sensor, the 5th sensor is located on the Y-axis direction of motion of described telecontrol equipment, described first sensor, the second sensor, the 3rd sensor, four-sensor and the 5th sensor are electrically connected with described controller respectively.

3. knife sharpener according to claim 2, it is characterized in that: described fixture comprises the first servomotor and positioner, described the first servomotor connects described positioner, described the first servomotor and the electric connection of described controller.

4. knife sharpener according to claim 3, it is characterized in that: described positioner comprises drilling attachment, rotary main shaft, main spindle box, snap ring, chuck and chuck pull bar, described drilling attachment is located at described chuck internal clearance and is connected, described chuck is located in described rotary main shaft, described rotary main shaft is located in described main spindle box, described snap ring connects described main spindle box, and described chuck pull bar is fixed, described chuck connects described chuck pull bar, described chuck end face is provided with the first through hole to bottom surface, described chuck pull bar end face is provided with the second through hole to bottom surface, the central point of described the first through hole and described the second through hole is on same straight line, described the first through hole inner face is provided with the first plane.

5. knife sharpener according to claim 4, it is characterized in that: described drilling attachment is cylindrical structural, described drilling attachment surface is provided with the second plane, described drilling attachment end face central point is provided with the locating hole of bottom surface central point, described locating hole inner face is provided with the 3rd plane, be provided with the cross breach take central point as intersection point in described drilling attachment, wherein a breach is communicated with described the second plane and described the 3rd plane, described the second plane and described the 3rd plane parallel.

6. knife sharpener according to claim 1, it is characterized in that: described telecontrol equipment comprises supporting mechanism, glide base, the second servomotor, the 3rd servomotor, the first ball-screw, the second ball-screw and footstock, be provided with groove along X-direction in the middle of described glide base bottom surface, described groove both sides respectively are provided with circular third through-hole, fourth hole, described glide base be provided with from end face to bottom surface tetragonal the 8th through hole, described the 8th through hole is located in the middle of described groove right side, the top of described glide base is provided with the 6th circular through hole along Y direction, the 7th through hole and fifth hole, described fifth hole passes described the 8th through hole, described the 6th through hole, the 7th through hole is placed in respectively the both sides of described fifth hole, described the 6th through hole, the 7th through hole equates to the distance of described fifth hole, described glide base is respectively equipped with screw along the X-axis two sides, be provided with screw in described groove, described glide base is located on described supporting mechanism, two slide bars of described supporting mechanism pass corresponding described third through-hole, fourth hole, described the first ball-screw two ends connect described supporting mechanism, described the second servomotor connects described the first ball-screw, described the second servomotor is located in described groove, described the second servomotor and described controller are electrically connected, described the 3rd servomotor is located in described the 8th through hole, described the second ball-screw connects described the 3rd servomotor, described the 3rd servomotor and described controller are electrically connected, described the second ball-screw passes described fifth hole and is connected with described footstock, described footstock two slide bar correspondences are passed described the 6th through hole, the 7th through hole is located on described glide base.

7. according to claim 1-6 described knife sharpeners of any one, it is characterized in that: this knife sharpener also comprises the grinding device that the drill bit blank is carried out the datum level polishing, described grinding device comprises the first sanding apparatus, fastener and have the first telecontrol equipment that moves along the X-axis Y-axis, described the first sanding apparatus is located on described workbench, described the first telecontrol equipment is located on workbench, described fastener is located on described the first telecontrol equipment, described the first sanding apparatus flour milling is parallel with described fastener and described work director limit, described the first sanding apparatus flour milling is vertical with described sanding apparatus flour milling position.

8. knife sharpener according to claim 7, it is characterized in that: described grinding device also comprises the 6th sensor and the 7th sensor, described the 6th sensor be located at described the first telecontrol equipment along on the direction of motion of X-axis, described the 7th sensor be located at described the first telecontrol equipment along on the direction of motion of Y-axis, described the 6th sensor and the 7th sensor are electrically connected with described controller respectively.

9. knife sharpener according to claim 7, it is characterized in that: described the first telecontrol equipment comprises supporting mechanism, the first glide base, the 4th servomotor, the 5th servomotor, the first ball-screw, the 3rd ball-screw and the first footstock, be provided with the first groove along X-direction in the middle of described the first glide base bottom surface, described the first groove both sides respectively are provided with the 9th circular through hole, the tenth through hole, described the first glide base be provided with from end face to bottom surface tetragonal the 11 through hole, described the 11 through hole is located in the middle of described the first groove right side, the top of described the first glide base is provided with the 12 circular through hole along Y direction, the 13 through hole and the tenth four-way hole, described the 11 through hole is passed in described the tenth four-way hole, described the 12 through hole, the 13 through hole is placed in respectively the both sides in described the tenth four-way hole, described the 12 through hole, the 13 through hole equates to the distance in described the tenth four-way hole, described the first glide base is respectively equipped with screw along the X-axis two sides, be provided with screw in described the first groove, two slide bars of described supporting mechanism pass corresponding described the 9th through hole, the tenth through hole is located at described the first glide base on described supporting mechanism, described the first ball-screw two ends connect described supporting mechanism, described the 4th servomotor connects described the first ball-screw, described the 4th servomotor is located in described the first groove, described the 4th servomotor and described controller are electrically connected, described the 5th servomotor is located in described the 11 through hole, described the 3rd ball-screw connects described the 5th servomotor, described the 5th servomotor and described controller are electrically connected, described the 3rd ball-screw passes described the tenth four-way hole and is connected with described the first footstock, two slide bar correspondences of described the first footstock are passed described the 12 through hole, the 13 through hole is located on described the first glide base.

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