CN115091318A - Intelligent cutter production facility based on information fusion - Google Patents

Abstract

The invention discloses an intelligent cutter production device based on information fusion, which comprises: the box body is used for accommodating the machined tool; the feeding hole is formed in the side wall of one side of the box body; the discharge port is arranged on the side wall of the other side of the box body; the grinding device is arranged in the box body and is used for grinding the machined tool; the intelligent cutter production equipment based on information fusion further comprises: the first fixing assembly is used for transversely fixing a cutter to be machined; the second fixing assembly is used for longitudinally fixing the cutter to be machined; the pushing assembly is used for pushing a tool to be machined to move from the feeding hole to the discharging hole; the invention can polish the whole surface of the cutter to be processed, avoids polishing dead angles and ensures uniform polishing effect.

Description

Intelligent cutter production facility based on information fusion

Technical Field

The invention belongs to the technical field of cutter processing, and particularly relates to intelligent cutter production equipment based on information fusion.

Background

Polishing plays comparatively critical effect in cutter production process, need carry out the corase grind to the steel sheet in cutter production earlier stage, the security in order to increase the course of working of now generally adopting mechanical mode, but when utilizing mechanical mode to polish the steel sheet, the steel sheet can't be polished by grinding machanism by the position that fixture covered, and the effect of polishing is inhomogeneous, can't reach the cutter machining requirement.

Disclosure of Invention

The invention provides intelligent cutter production equipment based on information fusion in order to overcome the defects of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: an intelligent cutter production facility based on information fusion includes:

the box body is used for accommodating the machined tool;

the feeding hole is formed in the side wall of one side of the box body;

the discharge port is arranged on the side wall of the other side of the box body;

the polishing device is arranged in the box body and is used for polishing the machined tool;

the intelligent cutter production equipment based on information fusion further comprises:

the first fixing assembly is used for transversely fixing a cutter to be machined;

the second fixing component is used for longitudinally fixing the cutter to be machined;

and the pushing assembly is used for pushing the cutter to be processed to move to the discharge hole from the feed port.

First fixed subassembly is including locating the first movable groove of feed inlet bottom, locating first coupling spring on the first movable groove inner wall, locating the first fixed block of first coupling spring one end, locating first link block on the box inner wall, locating second movable groove on the first link block, locating head rod in the second movable groove, locating the fixed plate of head rod one end, locating the eighth reset spring of the head rod other end, locating the first connecting plate of fixed plate one end and locating the second connecting plate of the fixed plate other end.

The fixed subassembly of second is including locating the first logical groove at feed inlet top, locate first push rod that leads to the inslot, locate the hydraulic stem at feed inlet top, locate the second fixed block at feed inlet top, locate the first recess of second fixed block bottom, locate the second coupling spring at first recess top, locate the clamp plate of second coupling spring bottom and locate coupling assembling on the second fixed block.

The connecting assembly comprises a third movable groove arranged at the bottom of the second fixed block, a first movable block arranged in the third movable groove, a fourth movable groove arranged on the first movable block, a movable plate arranged in the fourth movable groove, a clamping block arranged at the bottom of the movable plate, a first reset spring arranged on the side wall of the movable plate, a second push rod penetrating the fourth movable groove, a second through groove arranged at the top of the third movable groove, a first push block arranged at the bottom of the second push rod, a first transverse plate arranged on the second push rod and a first supporting spring arranged at the bottom of the first transverse plate; the moving plate is provided with a first guide groove; the second push rod is provided with a third connecting plate, the first push rod penetrates through the third connecting plate, the top of the first push rod is provided with a first push plate, and a second support spring is arranged at the bottom of the first push plate.

The clamping block is provided with an adjusting component matched with the pushing component; the adjusting assembly comprises a fifth movable groove arranged on the clamping block, two groups of first driving wheels arranged in the fifth movable groove, a driving belt wound on the two groups of first driving wheels, a first through hole arranged on the first driving wheel, an installation block penetrating the first through hole, a sixth movable groove arranged on the installation block, a first cavity, a third connecting spring arranged on the inner wall of the sixth movable groove, a first limiting block arranged at one end of the third connecting spring, a first limiting groove arranged on the inner wall of the first through hole, a first rotating roller arranged in the first cavity and a first connecting rope used for connecting the first rotating roller and the first limiting block; and a first transmission assembly used for driving the first rotating roller to rotate is arranged in the feeding hole.

The first transmission assembly comprises a first transmission cavity arranged on the side wall of the first cavity, a transmission plate arranged in the first transmission cavity, an eighth connecting rod arranged on the transmission plate, a third push rod arranged on the eighth connecting rod, a second reset spring, a second transmission cavity arranged on the first movable block, a fourth push rod arranged in the second transmission cavity, and a second connecting rod arranged on the fourth push rod, locate seventh movable groove on the second fixed block, locate second movable block in the seventh movable groove, locate the third connecting rod of second movable block bottom, locate spread groove on the second connecting rod, locate eighth movable groove in the first push pedal, locate fourth coupling spring on the eighth movable groove inner wall, locate the first carriage release lever of fourth coupling spring one end and be used for connecting first carriage release lever with the second of second movable block is connected the rope.

The pushing assembly comprises a ninth movable groove arranged on the first connecting plate, a tenth movable groove arranged at one end of the ninth movable groove, a second moving rod arranged in the tenth movable groove in a penetrating manner, a second pushing block arranged at one end of the second moving rod, a first sliding block arranged on the second moving rod, a first sliding groove arranged on the second pushing block, a third reset spring arranged on the first sliding block, an eleventh movable groove arranged at the top of the first sliding groove, a fifth connecting spring arranged at the top of the eleventh movable groove, a second limiting block arranged at the bottom of the fifth connecting spring, a second limiting groove arranged on the first sliding block, a twelfth movable groove arranged at the top of the second pushing block, a third pushing block arranged in the twelfth movable groove, a fourth reset spring arranged on the third pushing block, a third connecting rope used for connecting the third pushing block and the second limiting block, and a third connecting rope used for pushing the third pushing block to move And a second transmission assembly.

The second transmission assembly comprises a thirteenth movable groove formed in the first connecting plate, a fourth pushing block arranged in the thirteenth movable groove, a fifth reset spring arranged on the fourth pushing block, a fourteenth movable groove formed in the top of the ninth movable groove, a second pushing plate arranged in the fourteenth movable groove, a fourth connecting rod arranged on the second pushing plate, a second connecting block arranged on the fourth connecting rod and a fifth connecting rod used for connecting the second connecting block with the fourth pushing block, wherein one end of the fifth connecting rod is movably connected to the second connecting block, and the other end of the fifth connecting rod is movably connected to the fourth pushing block.

A third transmission assembly for driving the second moving rod to move is arranged on the first connecting rod, and the third transmission assembly can drive the first connecting rod to move in the second movable groove; the third transmission assembly comprises a fifteenth movable groove arranged on the first connecting rod, a second transmission wheel arranged in the fifteenth movable groove, a second cavity arranged on the side wall of the fifteenth movable groove, a sixteenth movable groove arranged at the bottom of the second cavity, a third movable block arranged in the sixteenth movable groove, a third transmission wheel arranged on the third movable block, a third fixed assembly arranged on the first connecting rod, a fourth transmission wheel arranged in the second cavity, a third transmission cavity used for communicating the tenth movable groove and the second cavity, a transmission roller arranged in the third transmission cavity and a fourth connecting rope used for connecting the third movable block and the second connecting block.

The third fixing assembly comprises a seventeenth movable groove arranged on the side wall of the first connecting rod, a sixth connecting spring arranged on the inner wall of the seventeenth movable groove, a ratchet plate arranged at one end of the sixth connecting spring, an electromagnet arranged in the seventeenth movable groove and a ratchet arranged on the inner wall of the second movable groove; a reset assembly matched with the third push block is arranged on the second moving rod and comprises an eighteenth moving groove arranged on the second moving rod, a fourth moving block arranged in the eighteenth moving groove, a seventh connecting spring arranged on the fourth moving block, a fifth moving block arranged at one end of the seventh connecting spring, a nineteenth moving groove arranged on the first sliding block, a fifth driving wheel arranged in the nineteenth moving groove, a fifth connecting rope wound on the fifth driving wheel, a sixth reset spring arranged at one end of the second moving rod, a nineteenth moving groove arranged on the inner wall of the tenth moving groove, an eighth connecting spring arranged on the inner wall of the nineteenth moving groove and a third limiting block arranged at one end of the eighth connecting spring; one end of the fifth connecting rope is fixedly connected to the fourth movable block, and the nineteenth movable groove is communicated with the seventeenth movable groove.

The invention has the following advantages: the utility model provides a can treat the processing cutter whole face and do and polish, avoid appearing the dead angle of polishing, guarantee to polish even intelligent cutter production facility based on information fusion of effect.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is a front view of one embodiment of the present invention.

Fig. 3 is a cross-sectional view taken along a-a in fig. 2.

Fig. 4 is an enlarged view of a point a in fig. 3.

Fig. 5 is a cross-sectional view taken along line B-B of fig. 2.

Fig. 6 is an enlarged view of fig. 5 at B.

Fig. 7 is an enlarged view of fig. 5 at C.

Fig. 8 is a cross-sectional view taken along line C-C of fig. 2.

Fig. 9 is an enlarged view of fig. 8 at D.

Fig. 10 is a cross-sectional view taken along line D-D in fig. 2.

Fig. 11 is an enlarged view of fig. 10 at E.

Fig. 12 is a right side view of one embodiment of the present invention.

Fig. 13 is a cross-sectional view taken along line E-E of fig. 12.

Fig. 14 is an enlarged view of fig. 13 at F.

Fig. 15 is a cross-sectional view taken along F-F in fig. 12.

Fig. 16 is an enlarged view of fig. 15 at G.

Fig. 17 is a cross-sectional view taken along G-G in fig. 12.

Fig. 18 is an enlarged view of fig. 17 at H.

Fig. 19 is a sectional view taken along H-H in fig. 12.

Fig. 20 is an enlarged view of fig. 19 at I.

Fig. 21 is a cross-sectional view taken along line I-I of fig. 12.

Fig. 22 is an enlarged view at J in fig. 21.

Fig. 23 is an enlarged view at K in fig. 21.

Fig. 24 is a cross-sectional view taken along J-J of fig. 12.

Fig. 25 is an enlarged view at L in fig. 24.

Fig. 26 is an enlarged view of fig. 25 at M.

Fig. 27 is a cross-sectional view taken along line K-K of fig. 12.

Fig. 28 is an enlarged view of fig. 27 at N.

Fig. 29 is a cross-sectional view taken along L-L in fig. 12.

Fig. 30 is an enlarged view at O in fig. 29.

Fig. 31 is a cross-sectional view taken along line M-M of fig. 12.

Fig. 32 is an enlarged view of fig. 31 at P.

Fig. 33 is an enlarged view at Q in fig. 31.

Fig. 34 is an enlarged view at R in fig. 31.

Detailed Description

As shown in fig. 1 to 34, an intelligent tool production apparatus based on information fusion includes:

a box body 1 for accommodating a tool to be machined;

the feeding hole 11 is arranged on the side wall of one side of the box body 1;

the discharge port 12 is arranged on the side wall of the other side of the box body 1;

the polishing device is arranged in the box body 1 and is used for polishing the machined tool;

the intelligent cutter production equipment based on information fusion still includes:

the first fixing assembly is used for transversely fixing a cutter to be machined;

the second fixing assembly is used for longitudinally fixing the cutter to be machined;

and the pushing assembly is used for pushing the tool to be machined to move from the feeding hole 11 to the discharging hole 12.

A tool to be machined is placed into the box body 1 from the feed port 11, the tool to be machined is fixed by the first fixing assembly and the second fixing assembly, and the grinding device is in contact with the side wall of the tool to be machined to finish grinding treatment on the tool; the pushing assembly pushes a cutter at the feed port 11 to move towards the discharge port 12, so that the side wall of the whole cutter can be polished, the first fixing assembly and the second fixing assembly can also provide a fixing effect for the cutter when the cutter moves, the matching effect of the cutter and the polishing device is ensured, the side wall of the whole cutter is polished, polishing dead corners are avoided, and the uniformity of the polishing effect is improved; utilize first fixed subassembly and the fixed subassembly of second to do respectively to the horizontal direction and the longitudinal direction of cutter fixedly, the effectual cutter of having avoided is polished rocking of in-process, promotes the effect of polishing to the cutter.

The grinding device comprises a second rotating roller 13 arranged in the box body 1 and a grinding belt 131 wound on the second rotating roller 13, a plurality of ventilation grooves are formed in the side wall of the box body 1, one side, in contact with a cutter, of the grinding belt 131 moves downwards relative to the cutter, and scraps generated by grinding are pushed to the bottom of the box body 1, so that the influence on the machining environment due to the scraps splashing is avoided; the grinding belt 131 generates downward force on the cutter, and presses the cutter at the bottom of the feed port 11 to provide an auxiliary fixing effect for the cutter and ensure the stability of the cutter processing; utilize the second to change the setting of roller 13 and grinding belt 131 in box 1, thereby increase grinding belt 131 length and for grinding belt 131 provides more sufficient cooling time, the air fit that the ventilation groove department got into provides the cooling action for grinding belt 131, effectively reduces grinding belt 131 temperature, avoids equipment overheated.

The first fixing component comprises a first movable groove arranged at the bottom of the feed port 11, a first connecting spring 151 arranged on the inner wall of the first movable groove, a first fixed block 15 arranged at one end of the first connecting spring 151, a first connecting block 14 arranged on the inner wall of the box body 1, a second movable groove arranged on the first connecting block 14, a first connecting rod 36 arranged in the second movable groove, a fixed plate 3 arranged at one end of the first connecting rod 36, an eighth return spring 361 arranged at the other end of the first connecting rod 36, a first connecting plate 32 arranged at one end of the fixed plate 3 and a second connecting plate 31 arranged at the other end of the fixed plate 3; when a cutter is not placed in the feed inlet 11, the fixing plate 3 abuts against the first connecting block 14, a gap is reserved between the first fixing block 15 and the fixing plate 3, when the cutter is machined, the cutter is placed in the gap, the first connecting rod 36 moves towards the outside of the second movable groove, the fixing plate 3 moves towards the direction of the first fixing block 15, after the cutter is clamped by the first fixing block 15 and the fixing plate 3, the fixing plate 3 pushes the cutter and the first fixing block 15 to move forwards, and the cutter is pushed to one side of the polishing device, so that the polishing device is used for polishing the cutter; the first connecting spring 151 provides a pushing force for the first fixing block 15, so that the first fixing block 15 is better abutted against the cutter, and the fixing effect of the fixing plate 3 and the first fixing block 15 on the cutter is improved.

The second fixing component comprises a first through groove arranged at the top of the feed port 11, a first push rod 27 arranged in the first through groove, a hydraulic rod 111 arranged at the top of the feed port 11, a second fixing block 2 arranged at the top of the feed port 11, a first groove arranged at the bottom of the second fixing block 2, a second connecting spring 251 arranged at the top of the first groove, a pressing plate 25 arranged at the bottom of the second connecting spring 251 and a connecting component arranged on the second fixing block 2; after the fixed plate 3 pushes the cutter to one side of the polishing device, the hydraulic rod 111 pushes the first push rod 27 to move downwards, the first push rod 27 pushes the second fixed block 2 to move downwards, the cutter is inserted into the first groove, the cutter pushes the pressing plate 25 to move upwards, the second connecting spring 251 provides thrust for the pressing plate 25, the pressing plate 25 abuts against the top of the cutter, the cutter is clamped between the bottom wall of the feed port 11 and the second fixed block 2, and the cutter is fixed by matching with the first fixing assembly; after the second fixed block 2 can not move downwards, the connecting assembly is matched with the cutter to form connection, the cutter is prevented from moving in the first groove by the aid of the connecting assembly, the cutter is fixed to the top and the bottom of the cutter respectively by matching with the first fixed assembly, fixing effect on the cutter is effectively improved, and polishing effect on the cutter is guaranteed.

The connecting assembly comprises a third movable groove arranged at the bottom of the second fixed block 2, a first movable block 21 arranged in the third movable groove, a fourth movable groove arranged on the first movable block 21, a movable plate 22 arranged in the fourth movable groove, a clamping block 221 arranged at the bottom of the movable plate 22, a first return spring 222 arranged on the side wall of the movable plate 22, a second push rod 26 penetrating in the fourth movable groove, a second through groove arranged at the top of the third movable groove, a first push block 263 arranged at the bottom of the second push rod 26, a first transverse plate 261 arranged on the second push rod 26 and a first supporting spring 262 arranged at the bottom of the first transverse plate 261; the moving plate 22 is provided with a first guide groove; the second push rod 26 is provided with a third connecting plate 264, the first push rod 27 is arranged on the third connecting plate 264 in a penetrating way, the top of the first push rod 27 is provided with a first push plate 271, and a second support spring 274 is arranged at the bottom of the first push plate 271; after the pressing plate 25 abuts against the top of the tool, the hydraulic rod 111 pushes the first push rod 27 to move downward, the second support spring 274 pushes the third connecting plate 264 to move downward, the first support spring 262 pushes the first movable block 21 to move downward, the first movable block 21 extends out of the third movable groove, after the first movable block 21 cannot move, the second push rod 26 compresses the first support spring 262 to move relative to the first movable block 21, the first push block 263 moves downward relative to the first movable block 21 and contacts with the side wall of the first guide groove, when the first push block 263 moves downward under the action of the first guide groove, the movable block 22 is pushed to move horizontally, the clamping block 221 moves in the direction of the tool, the tool is clamped by the clamping block 221 to fix the top of the tool, the tool is prevented from moving in the first groove, and the polishing effect on the tool is ensured.

An adjusting component matched with the pushing component is arranged on the clamping block 221; the adjusting assembly comprises a fifth movable groove arranged on the clamping block 221, two groups of first driving wheels 28 arranged in the fifth movable groove, a driving belt 281 wound on the two groups of first driving wheels 28, a first through hole arranged on the first driving wheel 28, an installation block 29 penetrating the first through hole, a sixth movable groove arranged on the installation block 29, a first cavity, a third connecting spring 291 arranged on the inner wall of the sixth movable groove, a first limiting block 292 arranged at one end of the third connecting spring 291, a first limiting groove arranged on the inner wall of the first through hole, a first rotating roller 293 arranged in the first cavity and a first connecting rope for connecting the first rotating roller 293 and the first limiting block 292; a first transmission assembly for driving the first rotating roller 293 to rotate is arranged in the feeding hole 11; the first limiting block 292 is provided with a second chute; when the clamping block 221 clamps the cutter, the driving belt 281 is in contact with the side wall of the cutter, the first limiting block 292 extends out of the sixth movable groove at the moment, the first limiting block 292 is embedded in the first limiting groove, the first driving wheel 28 is fixed by the cooperation of the first limiting block 292 and the first limiting groove, and the cutter is fixed while the driving belt 281 is fixed; because the transmission belt 281 is made of rubber, the transmission belt 281 deforms under extrusion when abutting against the side wall of the cutter, and the fixing effect of the clamping block 221 on the cutter is improved; when propelling movement subassembly drive cutter removed, first roller 293 axle rotated, and first connecting rope winds on first roller 293 that changes, and first stopper 292 of first connecting rope pulling is removed toward the sixth activity inslot, and first stopper 292 is deviate from first spacing inslot, makes the cutter drive belt 281 when removing and together rotates, avoids the cutter to remove and receives the hindrance.

The first transmission component comprises a first transmission cavity arranged on the side wall of the first cavity, a transmission plate 242 arranged in the first transmission cavity, an eighth connecting rod 241 arranged on the transmission plate 242, a third push rod 24 arranged on the eighth connecting rod 241, a second return spring 243, a second transmission cavity arranged on the first movable block 21, a fourth push rod 233 arranged in the second transmission cavity, and a second connecting rod 232 arranged on the fourth push rod 233, a seventh movable groove arranged on the second fixed block 2, a second movable block 23 arranged in the seventh movable groove, a third connecting rod 231 arranged at the bottom of the second movable block 23, a connecting groove arranged on the second connecting rod 232, an eighth movable groove arranged on the first push plate 271, a fourth connecting spring 272 arranged on the inner wall of the eighth movable groove, a first movable rod 273 arranged at one end of the fourth connecting spring 272, and a second connecting rope for connecting the first movable rod 273 and the second movable block 23; a sixth connecting rod 234 is arranged on the second movable block 23, and a seventh return spring 235 is arranged on the sixth connecting rod 234; before the pushing assembly works, the first moving rod 273 moves towards the outside of the eighth moving groove, the second connecting rope pulls the second moving block 23 to move, the second moving block 23 drives the second connecting rod 232 to move, the fourth push rod 233 pushes the third push rod 24 to move, the third push rod 24 drives the eighth connecting rod 24136 to move, the transmission plate 242 moves to drive the first rotating roller 293 to rotate, the first connecting rope pulls the first limiting block 292 to move, the first limiting block 292 is separated from the first limiting groove, the transmission belt 281 is driven to rotate when the cutter moves, and the cutter is fixed while moving; under the cooperation of the third connecting rod 231 and the connecting groove, the second movable block 23 is still connected to the fourth push rod 233 after the first movable block 21 moves downward, so that the first rotating roller 293 is controlled by the fourth push rod 233.

The pushing component comprises a ninth movable groove arranged on the first connecting plate 32, a tenth movable groove arranged at one end of the ninth movable groove, a movable rod 37 penetrating the tenth movable groove, a second pushing block 34 arranged at one end of the movable rod 37, a first sliding block 371 arranged on the movable rod 37, a first sliding groove arranged on the second pushing block 34, a third return spring 373 arranged on the first sliding block 371, and an eleventh movable groove arranged at the top of the first sliding groove, a fifth connecting spring 342 arranged at the top of the eleventh movable groove, a second limit block 341 arranged at the bottom end of the fifth connecting spring 342, a second limit groove arranged on the first slider 371, a twelfth movable groove arranged at the top of the second push block 34, a third push block 343 arranged in the twelfth movable groove, a fourth return spring 344 arranged on the third push block 343, a third connecting rope for connecting the third push block 343 and the second limit block 341, and a second transmission assembly for pushing the third push block 343 to move; when a cutter is installed, the first sliding block 371 is positioned at one end of the first sliding groove, the second pushing block 34 is positioned at the rear side of the moving rod 37, and gaps generated between the second pushing block 34 and the fixed plate 3 and between the second pushing block and the first fixed block 15 are staggered, so that the cutter can be conveniently placed into the feed port 11; when fixed plate 3 moves toward first fixed block 15 direction, first fixed block 15 and fixed plate 3 cooperate each other to fix the cutter, second transmission assembly promotes third ejector pad 343 and moves, third connection rope pulling second stopper 341 is deviate from the second spacing inslot, third reset spring 373 pushes away second ejector pad 34 and moves forward, first slider 371 moves to the first spout other end, second ejector pad 34 bulges carriage release lever 37 surface, second ejector pad 34 contacts with the cutter lateral wall, carriage release lever 37 drives the cutter and moves together when moving, play the propelling movement cutter effect, with the cutter from feed inlet 11 propelling movement to discharge gate 12 department.

The second transmission assembly comprises a thirteenth movable groove arranged on the first connecting plate 32, a fourth push block 35 arranged in the thirteenth movable groove, a fifth return spring 351 arranged on the fourth push block 35, a fourteenth movable groove arranged at the top of the ninth movable groove, a second push plate 33 arranged in the fourteenth movable groove, a fourth connecting rod 331 arranged on the second push plate 33, a second connecting block 332 arranged on the fourth connecting rod 331 and a fifth connecting rod 352 used for connecting the second connecting block 332 and the fourth push block 35, one end of the fifth connecting rod 352 is movably connected to the second connecting block 332, and the other end of the fifth connecting rod 352 is movably connected to the fourth push block 35; when the fixed plate 3 and the first fixed block 15 are matched with each other to fix a cutter, the cutter abuts against the fixed plate 3, the cutter pushes the fourth push block 35 to move, the fourth push block 35 drives the fifth connecting rod 352 to rotate, the fifth connecting rod 352 pushes the second connecting block 332 to move when rotating, the second push plate 33 extends out of the fourteenth movable groove, the second push plate 33 pushes the third push block 343 to move, the third connecting rope pulls the second limiting block 341 to move, the second limiting block 341 is separated from the second limiting groove, so that the second push block 34 automatically moves to one side of the cutter after the cutter is fixed, and the second push block 34 is used for pushing the cutter to move.

A third transmission component for driving the moving rod 37 to move is arranged on the first connecting rod 36, and the third transmission component can drive the first connecting rod 36 to move in the second movable groove; the third transmission assembly comprises a fifteenth movable groove arranged on the first connecting rod 36, a second transmission wheel 39 arranged in the fifteenth movable groove, a second cavity arranged on the side wall of the fifteenth movable groove, a sixteenth movable groove arranged at the bottom of the second cavity, a third movable block 38 arranged in the sixteenth movable groove, a third transmission wheel 381 arranged on the third movable block 38, a third fixed assembly arranged on the first connecting rod 36, a fourth transmission wheel 310 arranged in the second cavity, a third transmission cavity for communicating the tenth movable groove with the second cavity, a transmission roller 320 arranged in the third transmission cavity, and a fourth connecting rope for connecting the third movable block 38 with the second connecting block 332; when the cutter is not clamped between the fixed plate 3 and the first fixed block 15, the third driving wheel 381 is in contact with the second driving wheel 39, a motor for driving the third driving wheel 381 to rotate is arranged on the third movable block 38, the third driving wheel 381 drives the second driving wheel 39 to rotate, the second driving wheel 39 is in contact with the inner wall of the second movable groove, and the contact between the second driving wheel 39 and the inner wall of the second movable groove is utilized to drive the first connecting rod 36 to move out of the second movable groove; after the cutter is clamped between the first fixed block 15 and the fixed plate 3, the cutter abuts against the fixed plate 3 to push the fourth pushing block 35 to move, the fifth connecting rod 352 pushes the second connecting block 332 to move, the fourth connecting rope pulls the third movable block 38 to move, the third driving wheel 381 is separated from the second driving wheel 39 in contact, the third driving wheel 381 moves to one side of the fourth driving wheel 310 to form transmission fit with the fourth driving wheel 310, the driving roller 320 rotates along with the fourth driving wheel 310 to drive the moving rod 37 to move, the second pushing block 34 pushes the cutter to move towards the discharge port 12, so that the whole cutter side wall is subjected to polishing treatment, and the uniformity of the polishing effect of the cutter side wall is ensured.

The third fixing assembly comprises a seventeenth movable groove arranged on the side wall of the first connecting rod 36, a sixth connecting spring 363 arranged on the inner wall of the seventeenth movable groove, a ratchet plate 362 arranged at one end of the sixth connecting spring 363, an electromagnet arranged in the seventeenth movable groove and a ratchet 14 arranged on the inner wall of the second movable groove; a reset component matched with the third push block 343 is arranged on the moving rod 37, and comprises an eighteenth movable groove arranged on the moving rod 37, a fourth movable block 375 arranged in the eighteenth movable groove, a seventh connecting spring 376 arranged on the fourth movable block 375, a fifth movable block 377 arranged at one end of the seventh connecting spring 376, a nineteenth movable groove arranged on the first slider 371, a fifth driving wheel 372 arranged in the nineteenth movable groove, a fifth connecting rope wound on the fifth driving wheel 372, a sixth reset spring 374 arranged at one end of the moving rod 37, a nineteenth movable groove arranged on the inner wall of the tenth movable groove, an eighth connecting spring 181 arranged on the inner wall of the nineteenth movable groove, and a third limiting block 18 arranged at one end of the eighth connecting spring 181; one end of the fifth connecting rope is fixedly connected to the fourth movable block 375, and the nineteenth movable groove is communicated with the seventeenth movable groove; when the third driving wheel 381 is in contact with the second driving wheel 39, the second driving wheel 39 drives the first connecting rod 36 to move towards the outside of the second movable groove, and when the ratchet 14 moves on the ratchet plate 362, the first connecting rod 36 is fixed by the cooperation of the ratchet plate 362 and the ratchet 14, so that the fixing plate 3 is used for providing supporting force for the cutter, and the fixing effect of the fixing plate 3 on the cutter is ensured; after the cutter is completely moved out of the feed port 11, the electromagnet is electrified to attract the ratchet plate 362 to move, the ratchet plate 362 is disconnected from the ratchet 14, and the eighth return spring 361 pulls the moving rod 37 to move back to complete the return of the fixing plate 3; when the moving rod 37 moves into the tenth moving slot, the moving rod drives the fourth moving block 375 and the fifth moving block 377 to move together, the fifth moving block 377 passes through the third limiting block 18, when the electromagnet attracts the ratchet plate 362 to enter the seventeenth moving slot, the air in the seventeenth moving slot enters the nineteenth moving slot, the air pressure pushes the third limiting block 18 to enter the eighteenth moving slot, the motor stops working, the sixth return spring 374 pushes the moving rod 37 to move back, the third limiting block 18 is positioned at one side of the fifth moving block 377, when the moving rod 37 moves in the tenth moving slot, the second pushing block 34 abuts against the ninth moving slot, the second pushing block 34 cannot move relative to the moving rod 37, the fourth moving block 375 cannot pull the fifth connecting rope to move, the fifth moving block 375 moves relative to the fourth moving block, when the second pushing block 34 moves out from the ninth moving slot, the second pushing block 34 loses the limiting position 377, the seventh connecting spring 376 pulls the fourth movable block 375 to move, the fourth movable block 375 pulls the fifth connecting rope to move, the fifth connecting rope drives the fifth driving wheel 372 to rotate when being wound out of the fifth driving wheel 372, the fifth driving wheel 372 drives the second push block 34 to move when being rotated, the second push block 34 moves from the rear side of the moving rod 37, and the first limiting block 292 is inserted into the first limiting groove again to fix the second push block 34; when the fixed plate 3 and the first fixed block 15 are matched to fix the cutter, the second pushing block 34 moves relative to the moving rod 37, and the second pushing block 34 drives the fifth driving wheel 372 to rotate when moving, so that the fifth connecting rope is wound on the fifth driving wheel 372 again.

A third cavity is formed in the side wall of the sixteenth movable groove, a seventh connecting rod 382 is arranged on the third movable block 38, the seventh connecting rod 382 penetrates through the third cavity, a fifth push block 383 is arranged at one end of the seventh connecting rod 382, a twentieth movable groove is formed in the side wall of the third cavity, a sixth push block 330 is arranged in the twentieth movable groove, and a second guide groove is formed in the sixth push block 330; a twenty-first movable groove is formed in the inner wall of the second movable groove, a ninth connecting spring 143 is arranged on the inner wall of the twenty-first movable groove, a fourth push plate 142 is arranged at one end of the ninth connecting spring 143, a twenty-second movable groove is formed in the inner wall of the first through groove, a movable plate 17 is arranged in the twenty-second movable groove, a tenth connecting spring 171 and a second sliding groove are arranged on the movable plate 17, the first movable rod 273 is inserted into the second sliding groove, a sixth connecting rope is arranged on the fourth push plate 142, and one end of the sixth connecting rope is fixedly connected to the movable plate 17; when the third movable block 38 moves, the seventh connecting rod 382 actuates the fifth pushing block 383 to move, the fifth pushing block 383 abuts against the side wall of the second guide groove, when the fifth pushing block 383 moves, the sixth pushing block 330 is pushed out from the twentieth movable groove, the sixth pushing block 330 pushes the fourth pushing plate 142 into the twenty-first movable groove, the sixth connecting rope pulls the movable plate 17 to move, the movable plate 17 drives the first movable rod 273 to move, so that the transmission belt 281 is in a rotatable state, and the third transmission wheel 381 can normally push the cutter to move when driving the movable rod 37 to move.

A first fixing component and a second fixing component are also arranged in the discharge port 12, a twenty-third movable groove is formed in the first fixing block 16 on the first fixing component in the discharge port 12, an eleventh connecting spring 163 is arranged on the inner wall of the twenty-third movable groove, and a stop block 162 is arranged on the eleventh connecting spring 163; when the cutter is placed in the feed port 11, the cutter is pushed into the box body 1 until the cutter abuts against the stop block 162, the stop block 162 is utilized to position the cutter, one end of the cutter is prevented from directly moving into the discharge port 12, and the whole side wall of the cutter is guaranteed to be polished; the first fixing block 16 on the first fixing component in the discharge port 12 moves together with the first fixing block 15 in the feed port 11, the side wall of the stop block 162 is provided with a first chute, and when the pushing component pushes the cutter to move towards the direction of the discharge port 12, the cutter pushes the stop block 162 to move by abutting against the first chute on the stop block 162, so that the cutter normally enters the discharge port 12, the whole cutter passes through the polishing belt 131, and the polishing treatment on the whole side wall of the cutter is completed.

The drawings of the invention are only schematic and the specific dimensions are subject to practical implementation.

Claims (10)

1. An intelligent cutter production facility based on information fusion includes:

the box body is used for accommodating the machined tool;

the feeding hole is formed in the side wall of one side of the box body;

the discharge port is arranged on the side wall of the other side of the box body;

the polishing device is arranged in the box body and is used for polishing the machined tool;

the method is characterized in that: the intelligent cutter production equipment based on information fusion further comprises:

the first fixing assembly is used for transversely fixing a cutter to be machined;

the second fixing component is used for longitudinally fixing the cutter to be machined;

and the pushing assembly is used for pushing the cutter to be processed to move to the discharge hole from the feed port.

2. The intelligent tool production equipment based on information fusion of claim 1, wherein: first fixed subassembly is including locating the first movable groove of feed inlet bottom, locating first coupling spring on the first movable groove inner wall, locating the first fixed block of first coupling spring one end, locating first link block on the box inner wall, locating second movable groove on the first link block, locating head rod in the second movable groove, locating the fixed plate of head rod one end, locating the eighth reset spring of the head rod other end, locating the first connecting plate of fixed plate one end and locating the second connecting plate of the fixed plate other end.

3. The intelligent tool production equipment based on information fusion of claim 1, wherein: the fixed subassembly of second is including locating the first logical groove at feed inlet top, locate first push rod that leads to the inslot, locate the hydraulic stem at feed inlet top, locate the second fixed block at feed inlet top, locate the first recess of second fixed block bottom, locate the second coupling spring at first recess top, locate the clamp plate of second coupling spring bottom and locate coupling assembling on the second fixed block.

4. The intelligent tool production equipment based on information fusion of claim 3, wherein: the connecting assembly comprises a third movable groove arranged at the bottom of the second fixed block, a first movable block arranged in the third movable groove, a fourth movable groove arranged on the first movable block, a movable plate arranged in the fourth movable groove, a clamping block arranged at the bottom of the movable plate, a first reset spring arranged on the side wall of the movable plate, a second push rod penetrating the fourth movable groove, a second through groove arranged at the top of the third movable groove, a first push block arranged at the bottom of the second push rod, a first transverse plate arranged on the second push rod and a first supporting spring arranged at the bottom of the first transverse plate; the moving plate is provided with a first guide groove; the second push rod is provided with a third connecting plate, the first push rod penetrates through the third connecting plate, the top of the first push rod is provided with a first push plate, and a second support spring is arranged at the bottom of the first push plate.

5. The intelligent tool production equipment based on information fusion as claimed in claim 4, wherein: the clamping block is provided with an adjusting component matched with the pushing component; the adjusting assembly comprises a fifth movable groove arranged on the clamping block, two groups of first driving wheels arranged in the fifth movable groove, a driving belt wound on the two groups of first driving wheels, a first through hole arranged on the first driving wheel, an installation block penetrating the first through hole, a sixth movable groove arranged on the installation block, a first cavity, a third connecting spring arranged on the inner wall of the sixth movable groove, a first limiting block arranged at one end of the third connecting spring, a first limiting groove arranged on the inner wall of the first through hole, a first rotating roller arranged in the first cavity and a first connecting rope used for connecting the first rotating roller and the first limiting block; and a first transmission assembly used for driving the first rotating roller to rotate is arranged in the feeding hole.

6. The intelligent tool production equipment based on information fusion of claim 5, wherein: the first transmission assembly comprises a first transmission cavity arranged on the side wall of the first cavity, a transmission plate arranged in the first transmission cavity, an eighth connecting rod arranged on the transmission plate, a third push rod arranged on the eighth connecting rod, a second reset spring, a second transmission cavity arranged on the first movable block, a fourth push rod arranged in the second transmission cavity, and a second connecting rod arranged on the fourth push rod, locate seventh movable groove on the second fixed block, locate second movable block in the seventh movable groove, locate the third connecting rod of second movable block bottom, locate spread groove on the second connecting rod, locate eighth movable groove in the first push pedal, locate fourth coupling spring on the eighth movable groove inner wall, locate the first carriage release lever of fourth coupling spring one end and be used for connecting first carriage release lever with the second of second movable block is connected the rope.

7. The intelligent tool production equipment based on information fusion of claim 2, wherein: the pushing assembly comprises a ninth movable groove arranged on the first connecting plate, a tenth movable groove arranged at one end of the ninth movable groove, a second moving rod arranged in the tenth movable groove in a penetrating manner, a second pushing block arranged at one end of the second moving rod, a first sliding block arranged on the second moving rod, a first sliding groove arranged on the second pushing block, a third reset spring arranged on the first sliding block, an eleventh movable groove arranged at the top of the first sliding groove, a fifth connecting spring arranged at the top of the eleventh movable groove, a second limiting block arranged at the bottom of the fifth connecting spring, a second limiting groove arranged on the first sliding block, a twelfth movable groove arranged at the top of the second pushing block, a third pushing block arranged in the twelfth movable groove, a fourth reset spring arranged on the third pushing block, a third connecting rope used for connecting the third pushing block and the second limiting block, and a third connecting rope used for pushing the third pushing block to move And a second transmission assembly.

8. The intelligent tool production equipment based on information fusion of claim 7, wherein: the second transmission assembly comprises a thirteenth movable groove formed in the first connecting plate, a fourth pushing block arranged in the thirteenth movable groove, a fifth reset spring arranged on the fourth pushing block, a fourteenth movable groove formed in the top of the ninth movable groove, a second pushing plate arranged in the fourteenth movable groove, a fourth connecting rod arranged on the second pushing plate, a second connecting block arranged on the fourth connecting rod and a fifth connecting rod used for connecting the second connecting block with the fourth pushing block, wherein one end of the fifth connecting rod is movably connected to the second connecting block, and the other end of the fifth connecting rod is movably connected to the fourth pushing block.

9. The intelligent tool production equipment based on information fusion of claim 1, wherein: a third transmission assembly for driving the second moving rod to move is arranged on the first connecting rod, and the third transmission assembly can drive the first connecting rod to move in the second movable groove; the third transmission assembly comprises a fifteenth movable groove arranged on the first connecting rod, a second transmission wheel arranged in the fifteenth movable groove, a second cavity arranged on the side wall of the fifteenth movable groove, a sixteenth movable groove arranged at the bottom of the second cavity, a third movable block arranged in the sixteenth movable groove, a third transmission wheel arranged on the third movable block, a third fixed assembly arranged on the first connecting rod, a fourth transmission wheel arranged in the second cavity, a third transmission cavity used for communicating the tenth movable groove with the second cavity, a transmission roller arranged in the third transmission cavity and a fourth connecting rope used for connecting the third movable block with the second connecting block.

10. The intelligent tool production equipment based on information fusion of claim 9, wherein: the third fixing assembly comprises a seventeenth movable groove arranged on the side wall of the first connecting rod, a sixth connecting spring arranged on the inner wall of the seventeenth movable groove, a ratchet plate arranged at one end of the sixth connecting spring, an electromagnet arranged in the seventeenth movable groove and a ratchet arranged on the inner wall of the second movable groove; a reset assembly matched with the third push block is arranged on the second moving rod and comprises an eighteenth moving groove arranged on the second moving rod, a fourth moving block arranged in the eighteenth moving groove, a seventh connecting spring arranged on the fourth moving block, a fifth moving block arranged at one end of the seventh connecting spring, a nineteenth moving groove arranged on the first sliding block, a fifth driving wheel arranged in the nineteenth moving groove, a fifth connecting rope wound on the fifth driving wheel, a sixth reset spring arranged at one end of the second moving rod, a nineteenth moving groove arranged on the inner wall of the tenth moving groove, an eighth connecting spring arranged on the inner wall of the nineteenth moving groove and a third limiting block arranged at one end of the eighth connecting spring; one end of the fifth connecting rope is fixedly connected to the fourth movable block, and the nineteenth movable groove is communicated with the seventeenth movable groove.

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