CN111251082B - Slitting cutter equipment of polishing - Google Patents

Abstract

The invention relates to polishing equipment, in particular to slitting tool polishing equipment which comprises a clamping mechanism, a polishing mechanism, a platform mechanism, a variable speed driving mechanism and a cutting mechanism, wherein the equipment can clamp a tool to be polished, can polish, can take away heat generated by polishing, can adjust the speed of the equipment for polishing, can switch cutting modes, is connected with the platform mechanism, the polishing mechanism is connected with the cutting mechanism, the cutting mechanism is connected with the platform mechanism, the polishing mechanism is connected with the variable speed driving mechanism, and the variable speed driving mechanism is connected with the platform mechanism.

Description

Slitting cutter equipment of polishing

Technical Field

The invention relates to polishing equipment, in particular to polishing equipment for a slitting tool.

Background

In the grinding process of the slitting cutter, a large amount of heat can be generated, the driven grinding equipment does not have a passive cooling function, the grinding speed is not well adjusted, and therefore the slitting cutter grinding equipment is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing the slitting tool polishing equipment, the equipment can clamp a tool to be polished, the equipment can polish, the equipment can take away heat generated by polishing, the equipment can adjust the speed of polishing, and the equipment can switch cutting modes.

In order to solve the technical problem, the invention relates to a polishing device, in particular to a slitting tool polishing device which comprises a clamping mechanism, a polishing mechanism, a platform mechanism, a variable speed driving mechanism and a cutting mechanism.

The clamping mechanism comprises a corner support, a hinged arm I, a hinged arm II, a hinged block, a hydraulic rod, a hydraulic cylinder, a support, a hinged seat, a hinged arm III, a stepped sliding seat, a pushing hydraulic cylinder, a pushing hydraulic rod, a perforated sliding seat, a stepped groove, a bulge, a pressing disc, a threaded rod with a limit groove and a threaded hole, wherein the corner support is hinged with the hinged arm, the hinged arm is hinged with the hinged arm I, the hinged arm I is hinged with the hinged arm II, the hinged arm II is hinged with the hinged block, the hinged block is connected with the hydraulic rod, the hydraulic rod is connected with the hydraulic cylinder, the hydraulic cylinder is hinged with the corner support, the hinged arm II is hinged with the support, the support is connected with the corner support, the hinged seat is hinged with the hinged arm III, the hinged arm III is hinged with the stepped sliding seat, the stepped sliding seat is connected with the stepped groove in a, promote the hydraulic stem and link to each other with the ladder sliding seat, promote the hydraulic stem and link to each other with the promotion pneumatic cylinder, promote hydraulic stem and foraminiferous sliding seat sliding connection, protruding and turning support links to each other, compress tightly the dish and take the spacing groove threaded rod to link to each other, take spacing groove threaded rod and screw hole threaded connection, the screw hole is attacked on the turning supports.

The polishing mechanism comprises a rotating arm mechanism, an active polishing seat mechanism, a polishing plate mechanism, a limiting mechanism, a supporting plate with a square hole, a fixing mechanism, an air box mechanism, a filter screen plate mechanism, a passive polishing seat mechanism and a transmission gear mechanism, wherein the rotating arm mechanism is connected with the active polishing seat mechanism in a sliding manner, the active polishing seat mechanism is connected with the polishing plate mechanism, the polishing plate mechanism is connected with the supporting plate with the square hole, the supporting plate with the square hole is connected with the limiting mechanism, the limiting mechanism is contacted with the fixing mechanism, the fixing mechanism is connected with the polishing plate mechanism, the fixing mechanism is connected with the active polishing seat mechanism, the air box mechanism is connected with the filter screen plate mechanism in a sliding manner, the passive polishing seat mechanism is connected with the polishing plate mechanism, the passive polishing seat mechanism is connected with the fixing mechanism, the passive polishing seat mechanism is connected with the supporting plate with the square hole, and, the transmission gear mechanism is meshed with the driven polishing seat mechanism; the rotating arm mechanism comprises a shaft, a belt pulley, a bevel gear, a belt, a rotating arm body, two wheels, a belt pulley I, a gear shaft and a bevel gear I, wherein the shaft is connected with the belt pulley, the shaft is connected with the bevel gear, the belt pulley is flexibly connected with the belt, the belt is flexibly connected with the belt pulley I, the belt pulley I is connected with the gear shaft, the gear shaft is connected with the bevel gear I, the gear shaft is connected with the rotating arm body, and the rotating arm body is connected with the two wheels; the active polishing seat mechanism comprises a movable arm, a strip-shaped groove, a square seat, a rack, a crosshead shoe, a support seat I and a fixed hole, wherein the movable arm is connected with the square seat; the polishing plate mechanism comprises a polishing plate body and a matching hole, the matching hole is formed in the polishing plate body, and the polishing plate body is in contact with the supporting seat I; the limiting mechanism comprises a handle, a square rod, a spring and a wedge block, the handle is connected with the square rod, the square rod is connected with the wedge block, the spring is sleeved on the square rod, the square rod is in sliding connection with a supporting plate with a square hole, and the spring is abutted against the wedge block and the supporting plate with the square hole; the fixing mechanism comprises a limiting column, a connecting plate I and a matching wedge block, the limiting column is connected with the connecting plate I, the connecting plate I is connected with the matching wedge block, the matching wedge block is in contact with the wedge block, the limiting column is inserted into the matching hole, and the limiting column is inserted into the fixing hole; the air box mechanism comprises a bearing block I, an air box body, an air inlet, an embedded groove and an air outlet, wherein the bearing block I is connected with the air box body; the filter screen plate mechanism comprises a handle I and three filter screen plates, the handle I is connected with the three filter screen plates, and the three filter screen plates are in sliding connection with the embedded groove; the passive polishing seat mechanism comprises a passive rack, a crosshead shoe I, a supporting seat II and a limiting hole I, the passive rack is connected with the crosshead shoe I, the crosshead shoe I is connected with the supporting seat II, the supporting seat II is connected with the limiting hole I, a limiting column is inserted into the limiting hole I, and the polishing plate body is contacted with the supporting seat II; the transmission gear mechanism comprises a gear I, a gear shaft I and an impeller, the gear I is meshed with the driven rack, the gear I is meshed with the rack, the gear I is connected with the gear shaft I, the gear shaft I is connected with the impeller, and the gear shaft I is connected with the bearing seat I in a bearing connection mode.

The platform mechanism comprises a base, supporting legs, a middle platform, a bearing seat II, a groove, a bearing seat A, a platform with supporting legs, a cross groove, a vertical square groove, a vertical strip-shaped groove, a bearing seat B and a bearing seat C, wherein the base is connected with the supporting legs, the supporting legs are connected with the middle platform, the middle platform is connected with the bearing seat II, the groove is formed in the middle platform, the bearing seat A is connected with the middle platform, the platform with supporting legs is connected with an air box body, the cross groove is symmetrically formed in the platform with supporting legs, a cross slide block is connected with the cross groove in a sliding mode, the cross slide block I is connected with the cross groove in a sliding mode, the vertical square groove is formed in the platform with supporting legs, a corner support is connected with the vertical square groove in a sliding mode, the vertical strip-shaped groove is formed in, the bearing pedestal C is connected with the gear shaft through a bearing, and the gear shaft I is connected with the bearing pedestal B through a bearing.

The speed change driving mechanism comprises a belt shaft driving bevel gear, a driving bearing seat, a coupling I, a motor I, a fixed square column, a reset spring, a seat body, an L support, a square seat, a speed regulation hydraulic cylinder, a speed regulation hydraulic rod, a connecting seat A, a sliding support and a square hole I, wherein the belt shaft driving bevel gear is meshed with the bevel gear I, the belt shaft driving bevel gear is connected with the driving bearing seat in a bearing way, the driving bearing seat is connected with the sliding support, the belt shaft driving bevel gear is connected with the motor I through the coupling I, the motor I is connected with the sliding support, the fixed square column is connected with the seat body, the seat body is connected with the L support, the L support is connected with the square seat, the square seat is connected with the speed regulation hydraulic cylinder, the speed regulation hydraulic cylinder is connected with the speed regulation hydraulic rod, the speed regulation hydraulic rod is connected with the connecting seat A, the connecting seat A is connected with the, the reset spring is sleeved on the fixed square column, the reset spring is abutted on the sliding support and the seat body, and the base is connected with the L support.

The cutting mechanism comprises a hydraulic cylinder support, a hydraulic cylinder A, a hydraulic rod A, a pulley seat, a pulley, a special-shaped column with a disc, a sliding bevel gear, a support spring, a belt pulley with a shaft, a belt A, a cutting bearing seat, a cutting belt pulley, a cutting knife with a shaft and a special-shaped hole, wherein the hydraulic cylinder support is connected with the hydraulic cylinder A, the hydraulic cylinder A is connected with the hydraulic rod A, the hydraulic rod A is connected with the pulley seat, the pulley seat is connected with the pulley, the pulley is contacted with the sliding bevel gear, the special-shaped hole is formed in the sliding bevel gear, the special-shaped hole is connected with the special-shaped column with the disc in a sliding way, the special-shaped column with the belt pulley with the shaft is connected with the belt pulley with the shaft, the support spring is abutted against the sliding bevel gear and the belt pulley with the cutting bearing seat in a connection way, the connection mode of the cutter with the shaft and the bearing seat II is bearing connection.

The clamping mechanism is connected with the platform mechanism, the polishing mechanism is connected with the cutting mechanism, the cutting mechanism is connected with the platform mechanism, the polishing mechanism is connected with the variable-speed driving mechanism, and the variable-speed driving mechanism is connected with the platform mechanism.

As a further optimization of the technical scheme, the material of the belt shaft cutting knife of the slitting tool polishing equipment is stainless steel.

The slitting tool polishing equipment has the beneficial effects that:

according to the strip cutter polishing equipment, the equipment can clamp a cutter to be polished, the equipment can polish, the equipment can take away heat generated by polishing, the equipment can adjust the speed of polishing, and the equipment can switch cutting modes.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural diagram of a slitting tool grinding device according to the first embodiment of the invention.

Fig. 2 is a schematic structural diagram of a slitting tool polishing device according to a second embodiment of the present invention.

Fig. 3 is a first structural schematic diagram of the clamping mechanism 1 of the slitting tool grinding device according to the present invention.

Fig. 4 is a schematic structural diagram of a clamping mechanism 1 of a slitting tool grinding device according to the second embodiment of the present invention.

Fig. 5 is a first structural schematic diagram of a polishing mechanism 2 of a slitting tool polishing device according to the present invention.

Fig. 6 is a schematic structural diagram of a second polishing mechanism 2 of the slitting tool polishing device according to the present invention.

Fig. 7 is a schematic structural diagram of a rotating arm mechanism 2-1 of a slitting tool grinding device according to the present invention.

Fig. 8 is a schematic structural diagram of an active grinding seat mechanism 2-2 of a slitting tool grinding device according to the present invention.

Fig. 9 is a schematic structural diagram of a polishing plate mechanism 2-3 of the slitting tool polishing device according to the invention.

Fig. 10 is a schematic structural diagram of a limiting mechanism 2-4 of the slitting tool grinding device according to the invention.

Fig. 11 is a schematic structural diagram of a fixing mechanism 2-6 of a slitting tool grinding device according to the invention.

Fig. 12 is a schematic structural view of the bellows mechanism 2-7 of the slitting tool grinding device according to the invention.

Fig. 13 is a schematic structural diagram of a filter screen plate mechanism 2-8 of a slitting tool grinding device according to the invention.

Fig. 14 is a schematic structural diagram of the passive grinding seat mechanisms 2-9 of the slitting tool grinding device according to the invention.

Fig. 15 is a schematic structural diagram of a transmission gear mechanism 2-10 of a slitting tool grinding device according to the invention.

Fig. 16 is a first structural schematic diagram of the platform mechanism 3 of the slitting tool grinding device according to the present invention.

Fig. 17 is a second structural schematic diagram of the platform mechanism 3 of the slitting tool grinding device according to the present invention.

Fig. 18 is a first structural schematic diagram of the variable speed driving mechanism 4 of the slitting tool grinding device according to the present invention.

Fig. 19 is a second schematic structural diagram of the variable speed driving mechanism 4 of the slitting tool grinding device according to the present invention.

Fig. 20 is a first structural schematic diagram of the cutting mechanism 5 of the slitting tool grinding device according to the present invention.

Fig. 21 is a second schematic structural diagram of the cutting mechanism 5 of the slitting tool grinding device according to the present invention.

In the figure: a clamping mechanism 1; corner support 1-1; an articulated arm 1-2; articulated arm I1-3; articulated arm II 1-4; hinge blocks 1-5; 1-6 of a hydraulic rod; 1-7 of a hydraulic cylinder; 1-8 of support; hinge seats 1-9; articulated arm III 1-10; 1-11 of a stepped sliding seat; pushing the hydraulic cylinder 1-12; pushing hydraulic rods 1-13; 1-14 of sliding seats with holes; 1-15 parts of a stepped groove; 1-16 of bulges; a compaction disk 1-17; 1-18 threaded rods with limiting grooves; threaded holes 1-19; a polishing mechanism 2; a rotating arm mechanism 2-1; shaft 2-1-1; a belt pulley 2-1-2; bevel gears 2-1-3; 2-1-4 parts of a belt; 2-1-5 of a rotating arm body; 2-1-6 of double wheels; pulley I2-1-7; 2-1-8 parts of a gear shaft; bevel gears I2-1-9; an active polishing seat mechanism 2-2; 2-2-1 of a movable arm; 2-2-2 of a strip groove; 2-2-3 of a square base; 2-2-4 of a rack; 2-2-5 parts of a crosshead shoe; supporting seat I2-2-6; 2-2-7 of a fixing hole; a polishing plate mechanism 2-3; grinding the plate body 2-3-1; 2-3-2 of a matching hole; 2-4 of a limiting mechanism; 2-4-1 of a handle; 2-4-2 parts of a square rod; 2-4-3 of a spring; 2-4-4 parts of a wedge block; 2-5 of a supporting plate with a square hole; 2-6 parts of a fixing mechanism; 2-6-1 of a limiting column; connecting plate I2-6-2; matching with 2-6-3 wedge blocks; 2-7 of an air box mechanism; bearing seat I2-7-1; 2-7-2 of a bellows body; 2-7-3 of an air inlet; 2-7-4 of an embedded groove; 2-7-5 of an air outlet; 2-8 parts of a filter screen plate mechanism; handle I2-8-1; three layers of filter screen plates 2-8-2; a passive polishing seat mechanism 2-9; a passive rack 2-9-1; a crosshead shoe I2-9-2; supporting seat II 2-9-3; a limiting hole I2-9-4; a transmission gear mechanism 2-10; gear I2-10-1; a gear shaft I2-10-2; 2-10-3 parts of an impeller; a stage mechanism 3; a base 3-1; 3-2 parts of supporting legs; 3-3 of an intermediate platform; bearing seat II 3-4; 3-5 of slotting; bearing seat A3-6; 3-7 of a platform with supporting legs; 3-8 parts of a cross groove; 3-9 parts of vertical square groove; 3-10 parts of vertical strip-shaped groove; bearing seat B3-11; bearing seat C3-12; a shift drive mechanism 4; a driving bevel gear 4-1 with a shaft; a driving bearing seat 4-2; a coupler I4-3; motor I4-4; 4-5 of a fixed square column; 4-6 of a return spring; 4-7 of a seat body; l support is 4-8; 4-9 parts of a square base; 4-10 parts of a speed-regulating hydraulic cylinder; 4-11 parts of a speed-regulating hydraulic rod; connecting seat A4-12; 4-13 of a sliding support; square holes I4-14; a cutting mechanism 5; a hydraulic cylinder support 5-1; a hydraulic cylinder A5-2; a hydraulic lever A5-3; 5-4 parts of a pulley seat; 5-5 of a pulley; 5-6 of special-shaped columns with discs; 5-7 of a sliding bevel gear; 5-8 parts of supporting springs; belt pulley 5-9 with shaft; belt A5-10; cutting the bearing seat 5-11; 5-12 of a cutting belt pulley; 5-13 parts of a cutter with a shaft; shaped holes 5-14.

Detailed Description

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, and fig. 21, and the present invention relates to a grinding apparatus, and more specifically, to a slitting tool grinding apparatus, including a clamping mechanism 1, a grinding mechanism 2, a table mechanism 3, a variable speed drive mechanism 4, and a cutting mechanism 5, which can clamp a tool to be ground, which can grind, which can take away heat generated by grinding, which can adjust the speed of the apparatus, and which can switch the cutting mode.

The clamping mechanism 1 comprises corner supports 1-1, an articulated arm 1-2, an articulated arm I1-3, an articulated arm II1-4, an articulated block 1-5, a hydraulic rod 1-6, a hydraulic cylinder 1-7, a support 1-8, an articulated seat 1-9, an articulated arm III1-10, a stepped sliding seat 1-11, a pushing hydraulic cylinder 1-12, a pushing hydraulic rod 1-13, a perforated sliding seat 1-14, a stepped groove 1-15, a bulge 1-16, a pressing disc 1-17, a threaded rod 1-18 with a limit groove and a threaded hole 1-19, wherein the corner supports 1-1 are articulated with the articulated arm 1-2, the articulated arm 1-2 is articulated with the articulated arm I1-3, the articulated arm I1-3 is articulated with the articulated arm II1-4, and the articulated arm II1-4 is articulated with the articulated arm block 1-5, the articulated blocks 1-5 are connected with hydraulic rods 1-6, the hydraulic rods 1-6 are connected with hydraulic cylinders 1-7, the hydraulic cylinders 1-7 are articulated with corner supports 1-1, the articulated arms II1-4 are articulated with supports 1-8, the supports 1-8 are connected with the corner supports 1-1, the articulated seats 1-9 are articulated with the articulated arms III1-10, the articulated arms III1-10 are articulated with stepped sliding seats 1-11, the stepped sliding seats 1-11 are slidably connected with stepped grooves 1-15, the stepped grooves 1-15 are opened on the perforated sliding seats 1-14, the pushing hydraulic rods 1-13 are connected with the stepped sliding seats 1-11, the pushing hydraulic rods 1-13 are connected with the pushing hydraulic cylinders 1-12, pushing a hydraulic rod 1-13 to be connected with a sliding seat 1-14 with a hole in a sliding way, connecting a bulge 1-16 with a corner support 1-1, connecting a pressing disc 1-17 with a threaded rod 1-18 with a limit groove, connecting the threaded rod 1-18 with the limit groove with a threaded hole 1-19 in a threaded way, tapping the threaded hole 1-19 on the corner support 1-1, firstly sleeving a cutter to be polished on the threaded rod 1-18 with the limit groove, then screwing the threaded rod 1-18 with the limit groove into the threaded hole 1-19 until the pressing disc 1-17 presses the cutter on the corner support 1-1, then injecting hydraulic oil into a hydraulic cylinder 1-7, driving the hydraulic rod 1-6 to retract into the hydraulic cylinder 1-7, driving the hydraulic rod 1-6 to drive a hinge block 1-5 to move downwards, the hinged block 1-5 moves downwards to drive the hinged arm II1-4 to swing downwards, the hinged arm II1-4 swings downwards to drive the hinged points of the hinged arm I1-3 and the hinged arm 1-2 to move towards the direction close to the hydraulic cylinder 1-7, so that the hinged arm 1-2 can be embedded into the limit groove on the threaded rod 1-18 with the limit groove, a cutter can be clamped without loosening, the cutter needs to be taken down, hydraulic oil only needs to be injected into the hydraulic cylinder 1-7 in the reverse direction, and then the cutter can be taken down by reversely screwing the threaded rod 1-18 with the limit groove.

The polishing mechanism 2 comprises a rotating arm mechanism 2-1, an active polishing seat mechanism 2-2, a polishing plate mechanism 2-3, a limiting mechanism 2-4, a supporting plate with a square hole 2-5, a fixing mechanism 2-6, an air box mechanism 2-7, a filter screen plate mechanism 2-8, a passive polishing seat mechanism 2-9 and a transmission gear mechanism 2-10, wherein the rotating arm mechanism 2-1 is connected with the active polishing seat mechanism 2-2 in a sliding manner, the active polishing seat mechanism 2-2 is connected with the polishing plate mechanism 2-3, the polishing plate mechanism 2-3 is connected with the supporting plate with the square hole 2-5, the supporting plate with the square hole 2-4 is connected with the limiting mechanism 2-4, the limiting mechanism 2-4 is in contact with the fixing mechanism 2-6, and the fixing mechanism 2-6 is connected with the polishing plate mechanism 2-3, the fixing mechanism 2-6 is connected with the active polishing seat mechanism 2-2, the air box mechanism 2-7 is connected with the filter screen plate mechanism 2-8 in a sliding mode, the passive polishing seat mechanism 2-9 is connected with the polishing plate mechanism 2-3, the passive polishing seat mechanism 2-9 is connected with the fixing mechanism 2-6, the passive polishing seat mechanism 2-9 is connected with the supporting plate 2-5 with a square hole, the transmission gear mechanism 2-10 is meshed with the active polishing seat mechanism 2-2, and the transmission gear mechanism 2-10 is meshed with the passive polishing seat mechanism 2-9; the rotating arm mechanism 2-1 comprises a shaft 2-1-1, a belt pulley 2-1-2, a bevel gear 2-1-3, a belt 2-1-4, a rotating arm body 2-1-5, a double wheel 2-1-6, a belt pulley I2-1-7, a gear shaft 2-1-8, a bevel gear I2-1-9, the shaft 2-1-1 is connected with the belt pulley 2-1-2, the shaft 2-1-1 is connected with the bevel gear 2-1-3, the belt pulley 2-1-2 is flexibly connected with the belt 2-1-4, the belt 2-1-4 is flexibly connected with the belt pulley I2-1-7, the belt pulley I2-1-7 is connected with the gear shaft 2-1-8, the gear shaft 2-1-8 is connected with the bevel gear I2-1-9, the gear shaft 2-1-8 is connected with the rotating arm body 2-1-5, the rotating arm body 2-1-5 is connected with the double wheel 2-1-6, the motor I4-4 is operated to drive the coupler I4-3 to rotate, the coupler I4-3 rotates to drive the driving bevel gear 4-1 with a shaft to rotate, the driving bevel gear 4-1 with a shaft drives the bevel gear I2-1-9 to rotate, the bevel gear I2-1-9 rotates to drive the rotating arm body 2-1-5 to rotate through the gear shaft 2-1-8, the rotating arm body 2-1-5 rotates to drive the double wheel 2-1-6 to do circular motion, the double wheels 2-1-6 can drive the driving polishing seat mechanism 2-2 to reciprocate through the matching with the strip-shaped grooves 2-2-2, the driving polishing seat mechanism 2-2 can drive the gear I2-10-1 to reciprocate through the reciprocating motion, the gear I2-10-1 can drive the driven polishing seat mechanism 2-9 to reciprocate through the meshing with the driven rack 2-9-1 through the reciprocating motion, and thus the driven polishing seat mechanism 2-9 and the driving polishing seat mechanism 2-2 which reciprocate can drive the polishing plate bodies 2-3-1 at two sides to reciprocate oppositely, so that the tool can be polished; the active polishing seat mechanism 2-2 comprises a movable arm 2-2-1, a strip-shaped groove 2-2-2, a square seat 2-2-3, a rack 2-2-4, a cross slide block 2-2-5, a supporting seat I2-2-6 and a fixing hole 2-2-7, wherein the movable arm 2-2-1 is connected with the square seat 2-2-3, the strip-shaped groove 2-2-2 is arranged on the movable arm 2-2-1, a double wheel 2-1-6 is connected with the strip-shaped groove 2-2-2 in a sliding manner, the square seat 2-2-3 is connected with the rack 2-2-4, the cross rack 2-2-4 is connected with the cross slide block 2-2-5, the cross slide block 2-2-5 is connected with the supporting seat I2-2-6, the fixing hole 2-2-7 is arranged on the supporting seat I2-2-6; the polishing plate mechanism 2-3 comprises a polishing plate body 2-3-1 and a matching hole 2-3-2, wherein the matching hole 2-3-2 is formed in the polishing plate body 2-3-1, and the polishing plate body 2-3-1 is in contact with a supporting seat I2-2-6; the limiting mechanism 2-4 comprises a handle 2-4-1, a square rod 2-4-2, a spring 2-4-3 and a wedge block 2-4-4, the handle 2-4-1 is connected with the square rod 2-4-2, the square rod 2-4-2 is connected with the wedge block 2-4-4, the spring 2-4-3 is sleeved on the square rod 2-4-2, the square rod 2-4-2 is slidably connected with a supporting plate 2-5 with square holes, and the spring 2-4-3 is abutted against the wedge block 2-4-4 and the supporting plate 2-5 with square holes; the fixing mechanism 2-6 comprises a limiting column 2-6-1, a connecting plate I2-6-2 and a matching wedge block 2-6-3, the limiting column 2-6-1 is connected with the connecting plate I2-6-2, the connecting plate I2-6-2 is connected with the matching wedge block 2-6-3, the matching wedge block 2-6-3 is contacted with the wedge block 2-4-4, the limiting column 2-6-1 is inserted into the matching hole 2-3-2, and the limiting column 2-6-1 is inserted into the fixing hole 2-2-7; the air box mechanism 2-7 comprises a bearing seat I2-7-1, an air box body 2-7-2, an air inlet 2-7-3, an embedded groove 2-7-4 and an air outlet 2-7-5, wherein the bearing seat I2-7-1 is connected with the air box body 2-7-2, the air inlet 2-7-3 is arranged on the air box body 2-7-2, the embedded groove 2-7-4 is arranged on the air box body 2-7-2, and the air outlet 2-7-5 is arranged on the air box body 2-7-2; the filter screen plate mechanism 2-8 comprises a handle I2-8-1 and a three-layer filter screen plate 2-8-2, the handle I2-8-1 is connected with the three-layer filter screen plate 2-8-2, and the three-layer filter screen plate 2-8-2 is connected with the embedded groove 2-7-4 in a sliding manner; the passive polishing seat mechanism 2-9 comprises a passive rack 2-9-1, a crosshead shoe I2-9-2, a supporting seat II2-9-3 and a limiting hole I2-9-4, the passive rack 2-9-1 is connected with the crosshead shoe I2-9-2, the crosshead shoe I2-9-2 is connected with the supporting seat II2-9-3, the supporting seat II2-9-3 is connected with the limiting hole I2-9-4, a limiting column 2-6-1 is inserted into the limiting hole I2-9-4, and the polishing plate body 2-3-1 is contacted with the supporting seat II 2-9-3; the transmission gear mechanism 2-10 comprises a gear I2-10-1, a gear shaft I2-10-2 and an impeller 2-10-3, the gear I2-10-1 is meshed with a driven rack 2-9-1, the gear I2-10-1 is meshed with a rack 2-2-4, the gear I2-10-1 is connected with the gear shaft I2-10-2, the gear shaft I2-10-2 is connected with the impeller 2-10-3, the gear shaft I2-10-2 is connected with a bearing seat I2-7-1 in a bearing connection mode, the gear I2-10-1 rotates in a reciprocating mode to drive the impeller 2-10-3 to rotate in a reciprocating mode, the impeller 2-10-3 rotates in a reciprocating mode to form alternating positive pressure wind and negative pressure wind, when the pressure is negative, the heat generated by grinding can be sucked from the air inlet 2-7-3, then the impurities are filtered by the three layers of filter screen plates 2-8-2, and when the pressure is positive, the air is blown out from the air inlet 2-7-3 to directly cool the grinding.

The platform mechanism 3 comprises a base 3-1, supporting legs 3-2, a middle platform 3-3, a bearing seat II3-4, a slot 3-5, a bearing seat A3-6, a platform with supporting legs 3-7, a cross slot 3-8, a vertical square slot 3-9, a vertical strip-shaped slot 3-10, a bearing seat B3-11 and a bearing seat C3-12, wherein the base 3-1 is connected with the supporting legs 3-2, the supporting legs 3-2 are connected with the middle platform 3-3, the middle platform 3-3 is connected with the bearing seat II3-4, the slot 3-5 is arranged on the middle platform 3-3, the bearing seat A3-6 is connected with the middle platform 3-3, the platform with supporting legs 3-7 is connected with an air box body 2-7-2, the cross grooves 3-8 are symmetrically formed in the landing leg platform 3-7, the cross sliding blocks 2-2-5 are connected with the cross grooves 3-8 in a sliding mode, the cross sliding blocks I2-9-2 are connected with the cross grooves 3-8 in a sliding mode, the vertical square grooves 3-9 are formed in the landing leg platform 3-7, the corner supports 1-1 are connected with the vertical square grooves 3-9 in a sliding mode, the vertical strip-shaped grooves 3-10 are formed in the landing leg platform 3-7, the protrusions 1-16 are connected with the vertical strip-shaped grooves 3-10 in a sliding mode, the bearing seats B3-11 are connected with the landing leg platform 3-7, the bearing seats C3-12 are connected with the middle platform 3-3, the bearing seats C3-12 are connected with the gear shafts 2-1-8 in a bearing mode, and the gear shafts I2-10-2 are connected with the bearing seats B3-11 in.

The variable-speed driving mechanism 4 comprises a driving bevel gear with a shaft 4-1, a driving bearing seat 4-2, a coupling I4-3, a motor I4-4, a fixed square column 4-5, a return spring 4-6, a seat body 4-7, an L support 4-8, a square seat 4-9, a speed-regulating hydraulic cylinder 4-10, a speed-regulating hydraulic rod 4-11, a connecting seat A4-12, a sliding support 4-13 and a square hole I4-14, wherein the driving bevel gear with the shaft 4-1 is meshed with the bevel gear I2-1-9, the driving bevel gear with the shaft 4-1 is connected with the driving bearing seat 4-2 in a bearing manner, the driving bearing seat 4-2 is connected with the sliding support 4-13, the driving bevel gear with the shaft 4-1 is connected with the motor I4-4 through the coupling I4-3, the motor I4-4 is connected with the sliding support 4-13, the fixed square column 4-5 is connected with the seat body 4-7, the seat body 4-7 is connected with the L support 4-8, the L support 4-8 is connected with the square seat 4-9, the square seat 4-9 is connected with the speed-adjusting hydraulic cylinder 4-10, the speed-adjusting hydraulic cylinder 4-10 is connected with the speed-adjusting hydraulic rod 4-11, the speed-adjusting hydraulic rod 4-11 is connected with the connecting seat A4-12, the connecting seat A4-12 is connected with the sliding support 4-13, the square hole I4-14 is opened on the sliding support 4-13, the square hole I4-14 is connected with the fixed square column 4-5 in a sliding manner, the return spring 4-6 is sleeved on the fixed square column 4-5, the return spring 4-6 is abutted against the sliding support 4-13 and the seat body 4-7, the base 3-1 is connected with the L-shaped support 4-8, the speed-regulating hydraulic rod 4-11 can move towards the extending direction of the speed-regulating hydraulic cylinder 4-10 by injecting hydraulic oil into the speed-regulating hydraulic cylinder 4-10 under the driving of the hydraulic oil, the speed-regulating hydraulic rod 4-11 can drive the sliding support 4-13 to move through the connecting seat A4-12, the sliding support 4-13 can drive the driving bevel gear 4-1 with a shaft to move, the driving bevel gear 4-1 with the shaft can change the meshing position with the bevel gear I2-1-9 by moving the driving bevel gear 4-1 with the shaft, and therefore the transmission ratio is changed, and the polishing speed is changed.

The cutting mechanism 5 comprises a hydraulic cylinder support 5-1, a hydraulic cylinder A5-2, a hydraulic rod A5-3, a pulley seat 5-4, a pulley 5-5, a special-shaped column with a disc 5-6, a sliding bevel gear 5-7, a support spring 5-8, a belt pulley with a shaft 5-9, a belt A5-10, a cutting bearing seat 5-11, a cutting belt pulley 5-12, a cutting knife with a shaft 5-13 and a special-shaped hole 5-14, wherein the hydraulic cylinder support 5-1 is connected with the hydraulic cylinder A5-2, the hydraulic cylinder A5-2 is connected with the hydraulic rod A5-3, the hydraulic rod A5-3 is connected with the pulley seat 5-4, the pulley seat 5-4 is connected with the pulley 5-5, the pulley 5-5 is in contact with the sliding bevel gear 5-7, the special-shaped hole 5 is opened on the sliding bevel gear 5-7, the special-shaped holes 5-14 are slidably connected with special-shaped columns with disks 5-6, the special-shaped columns with disks 5-6 are connected with belt pulleys 5-9 with shafts, supporting springs 5-8 are abutted against sliding bevel gears 5-7 and belt pulleys 5-9 with shafts, the belt pulleys 5-9 with shafts are connected with cutting bearing seats 5-11 in a bearing mode, the belt pulleys 5-9 with shafts are flexibly connected with a belt A5-10, the belt A5-10 is flexibly connected with cutting belt pulleys 5-12, the cutting belt pulleys 5-12 are connected with cutting knives 5-13 with shafts, the cutting knives 5-13 with shafts are connected with bearing seats II3-4 in a bearing mode, when cutting is needed, oil is filled into the hydraulic cylinder A5-2, the hydraulic rod A5-3 retracts into the hydraulic cylinder A5-2, and the sliding bevel gears 5-7 are close to the hydraulic cylinder A5 under the elastic force of the supporting springs 5-8 2 in such a way that the sliding bevel gear 5-7 meshes with the bevel gear 2-1-3, therefore, when the gear shaft 2-1-8 rotates, the gear shaft can drive the belt pulley I2-1-7 and the belt 2-1-4 to transmit and drive the belt pulley 2-1-2 to rotate, the belt pulley 2-1-2 rotates to drive the bevel gear 2-1-3 to rotate, the bevel gear 2-1-3 rotates to drive the sliding bevel gear 5-7 to rotate, and the sliding bevel gear 5-7 rotates to drive the shaft-equipped cutting knife 5-13 to rotate through the disc-equipped special-shaped column 5-6, the shaft-equipped belt pulley 5-9, the belt A5-10 and the cutting belt pulley 5-12, so that the shaft-equipped cutting knife 5-13 can be used for cutting.

The clamping mechanism 1 is connected with the platform mechanism 3, the polishing mechanism 2 is connected with the cutting mechanism 5, the cutting mechanism 5 is connected with the platform mechanism 3, the polishing mechanism 2 is connected with the variable speed driving mechanism 4, and the variable speed driving mechanism 4 is connected with the platform mechanism 3.

The second embodiment is as follows:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, and fig. 21, and the present embodiment further describes the first embodiment, in which the material of the arbor cutters 5 to 13 is stainless steel.

The working principle of the device is as follows: the equipment can clamp a cutter to be polished, firstly, the cutter to be polished is sleeved on a threaded rod 1-18 with a limit slot, then, the threaded rod 1-18 with the limit slot is screwed into a threaded hole 1-19 until a pressing disc 1-17 presses the cutter on a corner support 1-1, then, hydraulic oil is injected into a hydraulic cylinder 1-7, under the driving of the hydraulic oil, the hydraulic rod 1-6 retracts into the hydraulic cylinder 1-7, the hydraulic rod 1-6 drives a hinge block 1-5 to move downwards, the hinge block 1-5 moves downwards to drive a hinge arm II1-4 to swing downwards, the hinge arm II1-4 swings downwards to drive hinge points of a hinge arm I1-3 and the hinge arm 1-2 to move towards the direction close to the hydraulic cylinder 1-7, so that the hinge arm 1-2 can be embedded into the limit slot on the threaded rod 1-18 with the limit slot, therefore, the cutter can be clamped without loosening, and can be taken down only by reversely injecting hydraulic oil into the hydraulic cylinders 1 to 7 and then reversely screwing the threaded rods 1 to 18 with the limiting grooves when the cutter needs to be taken down; the equipment can carry out polishing, a motor I4-4 runs to drive a coupler I4-3 to rotate, the coupler I4-3 rotates to drive a driving bevel gear 4-1 with a shaft to rotate, the driving bevel gear 4-1 with the shaft drives a bevel gear I2-1-9 to rotate, the bevel gear I2-1-9 rotates to drive a rotating arm body 2-1-5 to rotate through a gear shaft 2-1-8, the rotating arm body 2-1-5 rotates to drive a double wheel 2-1-6 to carry out circular motion, the double wheel 2-1-6 carries out circular motion to drive a driving polishing seat mechanism 2-2 to carry out reciprocating motion through the matching with a strip-shaped groove 2-2-2, the driving polishing seat mechanism 2-2 carries out reciprocating motion to drive a gear I2-10-1 to carry out reciprocating motion, the gear I2-10-1 rotates in a reciprocating manner to drive the passive polishing seat mechanism 2-9 to reciprocate by meshing with the passive rack 2-9-1, so that the passive polishing seat mechanism 2-9 and the active polishing seat mechanism 2-2 which reciprocate drive the polishing plate bodies 2-3-1 at two sides to reciprocate oppositely, and the tool can be polished; the equipment can take away heat generated by grinding, the gear I2-10-1 rotates in a reciprocating manner to drive the impeller 2-10-3 to rotate in a reciprocating manner, the impeller 2-10-3 rotates in a reciprocating manner to form alternate positive pressure air and negative pressure air, when negative pressure is generated, the heat generated by grinding can be sucked from the air inlet 2-7-3, then impurities are filtered by the three layers of filter screen plates 2-8-2, when positive pressure is generated, air is blown out from the air inlet 2-7-3 to directly cool the grinding; the device can carry out speed regulation grinding, hydraulic oil is injected into the speed regulation hydraulic cylinder 4-10, the speed regulation hydraulic rod 4-11 can move towards the extending direction from the speed regulation hydraulic cylinder 4-10 under the driving of the hydraulic oil, the speed regulation hydraulic rod 4-11 can drive the sliding support 4-13 to move through the connecting seat A4-12, the sliding support 4-13 can drive the driving bevel gear 4-1 with a shaft to move, the driving bevel gear 4-1 with the shaft can change the meshing position with the bevel gear I2-1-9 when moving, and the transmission ratio is changed, so that the grinding speed is changed; the device can switch cutting modes, when cutting is needed, oil is injected into the hydraulic cylinder A5-2 to enable the hydraulic rod A5-3 to retract into the hydraulic cylinder A5-2, the sliding bevel gear 5-7 moves towards the direction close to the hydraulic cylinder A5-2 under the action of the elastic force of the supporting spring 5-8, so that the sliding bevel gear 5-7 is meshed with the bevel gear 2-1-3, the gear shaft 2-1-8 drives the belt pulley I2-1-7 and the belt 2-1-4 to drive the belt pulley 2-1-2 to rotate, the belt pulley 2-1-2 rotates to drive the bevel gear 2-1-3 to rotate, the bevel gear 2-1-3 rotates to drive the sliding bevel gear 5-7 to rotate, the sliding bevel gear 5-7 rotates to drive the cutter 5-13 with the shaft to rotate through the special-shaped column 5-6 with the disc, the belt pulley 5-9 with the shaft, the belt A5-10 and the cutting belt pulley 5-12, and thus the cutter 5-13 with the shaft can be used for cutting.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (2)

1. The utility model provides a slitting cutter equipment of polishing, includes clamping mechanism (1), grinding machanism (2), platform mechanism (3), variable speed drive mechanism (4), cutting mechanism (5), its characterized in that: the clamping mechanism (1) comprises a corner support (1-1), an articulated arm (1-2), an articulated arm I (1-3), an articulated arm II (1-4), an articulated block (1-5), a hydraulic rod (1-6), a hydraulic cylinder (1-7), a support (1-8), an articulated seat (1-9), an articulated arm III (1-10), a stepped sliding seat (1-11), a pushing hydraulic cylinder (1-12), a pushing hydraulic rod (1-13), a perforated sliding seat (1-14), a stepped groove (1-15), a bulge (1-16), a pressing disc (1-17), a threaded rod (1-18) with a limiting groove and a threaded hole (1-19), wherein the corner support (1-1) is articulated with the articulated arm (1-2), the articulated arm (1-2) is articulated with an articulated arm I (1-3), the articulated arm I (1-3) is articulated with an articulated arm II (1-4), the articulated arm II (1-4) is articulated with an articulated block (1-5), the articulated block (1-5) is connected with a hydraulic rod (1-6), the hydraulic rod (1-6) is connected with a hydraulic cylinder (1-7), the hydraulic cylinder (1-7) is articulated with a corner support (1-1), the articulated arm II (1-4) is articulated with a support (1-8), the support (1-8) is connected with the corner support (1-1), an articulated seat (1-9) is connected with the corner support (1-1), the articulated seat (1-9) is articulated with an articulated arm III (1-10), the articulated arm III (1-10) is articulated with a step sliding seat (1-11), the stepped sliding seat (1-11) is connected with the stepped groove (1-15) in a sliding mode, the stepped groove (1-15) is formed in the perforated sliding seat (1-14), the pushing hydraulic rod (1-13) is connected with the stepped sliding seat (1-11), the pushing hydraulic rod (1-13) is connected with the pushing hydraulic cylinder (1-12), the pushing hydraulic rod (1-13) is connected with the perforated sliding seat (1-14) in a sliding mode, the bulge (1-16) is connected with the corner support (1-1), the pressing disc (1-17) is connected with the threaded rod (1-18) with the limiting groove, the threaded rod (1-18) with the limiting groove is connected with the threaded hole (1-19) in a threaded mode, and the threaded hole (1-19) is tapped on the corner support (1-1);

the polishing mechanism (2) comprises a rotating arm mechanism (2-1), an active polishing seat mechanism (2-2), a polishing plate mechanism (2-3), a limiting mechanism (2-4), a supporting plate with a square hole (2-5), a fixing mechanism (2-6), an air box mechanism (2-7), a filter screen plate mechanism (2-8), a passive polishing seat mechanism (2-9) and a transmission gear mechanism (2-10), wherein the rotating arm mechanism (2-1) is connected with the active polishing seat mechanism (2-2) in a sliding manner, the active polishing seat mechanism (2-2) is connected with the polishing plate mechanism (2-3), the polishing plate mechanism (2-3) is connected with the supporting plate with the square hole (2-5), the supporting plate with the square hole (2-5) is connected with the limiting mechanism (2-4), the limiting mechanism (2-4) is contacted with the fixing mechanism (2-6), the fixing mechanism (2-6) is connected with the polishing plate mechanism (2-3), the fixing mechanism (2-6) is connected with the active polishing seat mechanism (2-2), the air box mechanism (2-7) is connected with the filter screen plate mechanism (2-8) in a sliding manner, the passive polishing seat mechanism (2-9) is connected with the polishing plate mechanism (2-3), the passive polishing seat mechanism (2-9) is connected with the fixing mechanism (2-6), the passive polishing seat mechanism (2-9) is connected with the supporting plate (2-5) with the square hole, the transmission gear mechanism (2-10) is meshed with the active polishing seat mechanism (2-2), and the transmission gear mechanism (2-10) is meshed with the passive polishing seat mechanism (2-9); the rotating arm mechanism (2-1) comprises a shaft (2-1-1), a belt pulley (2-1-2), a bevel gear (2-1-3), a belt (2-1-4), a rotating arm body (2-1-5), a double wheel (2-1-6), a belt pulley I (2-1-7), a gear shaft (2-1-8) and a bevel gear I (2-1-9), wherein the shaft (2-1-1) is connected with the belt pulley (2-1-2), the shaft (2-1-1) is connected with the bevel gear (2-1-3), the belt pulley (2-1-2) is flexibly connected with the belt (2-1-4), and the belt (2-1-4) is flexibly connected with the belt pulley I (2-1-7), the belt pulley I (2-1-7) is connected with a gear shaft (2-1-8), the gear shaft (2-1-8) is connected with a bevel gear I (2-1-9), the gear shaft (2-1-8) is connected with a rotating arm body (2-1-5), and the rotating arm body (2-1-5) is connected with a double wheel (2-1-6); the active polishing seat mechanism (2-2) comprises a movable arm (2-2-1), a strip-shaped groove (2-2-2), a square seat (2-2-3), a rack (2-2-4), a cross-shaped sliding block (2-2-5), a supporting seat I (2-2-6) and a fixed hole (2-2-7), wherein the movable arm (2-2-1) is connected with the square seat (2-2-3), the strip-shaped groove (2-2-2) is formed in the movable arm (2-2-1), a double wheel (2-1-6) is connected with the strip-shaped groove (2-2-2) in a sliding manner, the square seat (2-2-3) is connected with the rack (2-2-4), and the rack (2-2-4) is connected with the cross-shaped sliding block (2-2-5), the crosshead shoe (2-2-5) is connected with the supporting seat I (2-2-6), and the fixing hole (2-2-7) is arranged on the supporting seat I (2-2-6); the polishing plate mechanism (2-3) comprises a polishing plate body (2-3-1) and a matching hole (2-3-2), wherein the matching hole (2-3-2) is formed in the polishing plate body (2-3-1), and the polishing plate body (2-3-1) is in contact with the supporting seat I (2-2-6); the limiting mechanism (2-4) comprises a handle (2-4-1), a square rod (2-4-2), a spring (2-4-3) and a wedge block (2-4-4), the handle (2-4-1) is connected with the square rod (2-4-2), the square rod (2-4-2) is connected with the wedge block (2-4-4), the spring (2-4-3) is sleeved on the square rod (2-4-2), the square rod (2-4-2) is in sliding connection with a supporting plate (2-5) with a square hole, and the spring (2-4-3) is abutted against the wedge block (2-4-4) and the supporting plate (2-5) with the square hole; the fixing mechanism (2-6) comprises a limiting column (2-6-1), a connecting plate I (2-6-2) and a matching wedge block (2-6-3), the limiting column (2-6-1) is connected with the connecting plate I (2-6-2), the connecting plate I (2-6-2) is connected with the matching wedge block (2-6-3), the matching wedge block (2-6-3) is in contact with the wedge block (2-4-4), the limiting column (2-6-1) is inserted into the matching hole (2-3-2), and the limiting column (2-6-1) is inserted into the fixing hole (2-2-7); the air box mechanism (2-7) comprises a bearing seat I (2-7-1), an air box body (2-7-2), an air inlet (2-7-3), an embedded groove (2-7-4) and an air outlet (2-7-5), the bearing seat I (2-7-1) is connected with the air box body (2-7-2), the air inlet (2-7-3) is formed in the air box body (2-7-2), the embedded groove (2-7-4) is formed in the air box body (2-7-2), and the air outlet (2-7-5) is formed in the air box body (2-7-2); the filter screen plate mechanism (2-8) comprises a handle I (2-8-1) and three filter screen plates (2-8-2), the handle I (2-8-1) is connected with the three filter screen plates (2-8-2), and the three filter screen plates (2-8-2) are in sliding connection with the embedded groove (2-7-4); the passive polishing seat mechanism (2-9) comprises a passive rack (2-9-1), a crosshead shoe I (2-9-2), a supporting seat II (2-9-3) and a limiting hole I (2-9-4), the passive rack (2-9-1) is connected with the crosshead shoe I (2-9-2), the crosshead shoe I (2-9-2) is connected with the supporting seat II (2-9-3), the supporting seat II (2-9-3) is connected with the limiting hole I (2-9-4), a limiting column (2-6-1) is inserted into the limiting hole I (2-9-4), and the polishing plate body (2-3-1) is contacted with the supporting seat II (2-9-3); the transmission gear mechanism (2-10) comprises a gear I (2-10-1), a gear shaft I (2-10-2) and an impeller (2-10-3), the gear I (2-10-1) is meshed with a driven rack (2-9-1), the gear I (2-10-1) is meshed with a rack (2-2-4), the gear I (2-10-1) is connected with the gear shaft I (2-10-2), the gear shaft I (2-10-2) is connected with the impeller (2-10-3), and the gear shaft I (2-10-2) is connected with a bearing seat I (2-7-1) in a bearing connection mode;

the platform mechanism (3) comprises a base (3-1), supporting legs (3-2), a middle platform (3-3), a bearing seat II (3-4), a notch (3-5), a bearing seat A (3-6), a platform with supporting legs (3-7), a cross groove (3-8), a vertical square groove (3-9), a vertical strip-shaped groove (3-10), a bearing seat B (3-11) and a bearing seat C (3-12), wherein the base (3-1) is connected with the supporting legs (3-2), the supporting legs (3-2) are connected with the middle platform (3-3), the middle platform (3-3) is connected with the bearing seat II (3-4), the notch (3-5) is arranged on the middle platform (3-3), the bearing seat A (3-6) is connected with the middle platform (3-3), the platform (3-7) with the supporting legs is connected with the middle platform (3-3), the platform (3-7) with the supporting legs is connected with the air box body (2-7-2), the cross grooves (3-8) are symmetrically formed in the platform (3-7) with the supporting legs, the cross sliding blocks (2-2-5) are in sliding connection with the cross grooves (3-8), the cross sliding blocks I (2-9-2) are in sliding connection with the cross grooves (3-8), the vertical square grooves (3-9) are formed in the platform (3-7) with the supporting legs, the corner supports (1-1) are in sliding connection with the vertical square grooves (3-9), the vertical strip-shaped grooves (3-10) are formed in the platform (3-7) with the supporting legs, and the bulges (1-16) are in sliding connection with the vertical strip-shaped grooves (3-10), the bearing seat B (3-11) is connected with the platform (3-7) with the supporting legs, the bearing seat C (3-12) is connected with the middle platform (3-3), the bearing seat C (3-12) is connected with the gear shaft (2-1-8) in a bearing mode, and the gear shaft I (2-10-2) is connected with the bearing seat B (3-11) in a bearing mode;

the variable-speed driving mechanism (4) comprises a driving bevel gear with a shaft (4-1), a driving bearing seat (4-2), a coupler I (4-3), a motor I (4-4), a fixed square column (4-5), a return spring (4-6), a seat body (4-7), an L support (4-8), a square seat (4-9), a speed regulating hydraulic cylinder (4-10), a speed regulating hydraulic rod (4-11), a connecting seat A (4-12), a sliding support (4-13) and a square hole I (4-14), the driving bevel gear with the shaft (4-1) is meshed with the bevel gear I (2-1-9), the driving bevel gear with the shaft (4-1) is connected with the driving bearing seat (4-2) in a bearing connection mode, the driving bearing seat (4-2) is connected with the sliding support (4-13), a driving bevel gear (4-1) with a shaft is connected with a motor I (4-4) through a coupling I (4-3), the motor I (4-4) is connected with a sliding support (4-13), a fixed square column (4-5) is connected with a seat body (4-7), the seat body (4-7) is connected with an L support (4-8), the L support (4-8) is connected with a square seat (4-9), the square seat (4-9) is connected with a speed regulating hydraulic cylinder (4-10), the speed regulating hydraulic cylinder (4-10) is connected with a speed regulating hydraulic rod (4-11), the speed regulating hydraulic rod (4-11) is connected with a connecting seat A (4-12), the connecting seat A (4-12) is connected with the sliding support (4-13), a square hole I (4-14) is formed in the sliding support (4-13), the square hole I (4-14) is connected with the fixed square column (4-5) in a sliding manner, the reset spring (4-6) is sleeved on the fixed square column (4-5), the reset spring (4-6) abuts against the sliding support (4-13) and the seat body (4-7), and the base (3-1) is connected with the L support (4-8);

the cutting mechanism (5) comprises a hydraulic cylinder support (5-1), a hydraulic cylinder A (5-2), a hydraulic rod A (5-3), a pulley seat (5-4), a pulley (5-5), a special-shaped column with a disc (5-6), a sliding bevel gear (5-7), a support spring (5-8), a belt pulley with a shaft (5-9), a belt A (5-10), a cutting bearing seat (5-11), a cutting belt pulley (5-12), a cutting knife with a shaft (5-13) and a special-shaped hole (5-14), the hydraulic cylinder support (5-1) is connected with the hydraulic cylinder A (5-2), the hydraulic cylinder A (5-2) is connected with the hydraulic rod A (5-3), the hydraulic rod A (5-3) is connected with the pulley seat (5-4), pulley seats (5-4) are connected with pulleys (5-5), the pulleys (5-5) are in contact with sliding bevel gears (5-7), special-shaped holes (5-14) are formed in the sliding bevel gears (5-7), the special-shaped holes (5-14) are in sliding connection with special-shaped columns (5-6) with disks, the special-shaped columns (5-6) with disks are connected with belt pulley blocks (5-9) with shafts, supporting springs (5-8) are abutted against the sliding bevel gears (5-7) and the belt pulley blocks (5-9) with shafts, the belt pulley blocks (5-9) with shafts and cutting bearing seats (5-11) are connected in a bearing mode, the belt pulley blocks (5-9) with shafts and a belt A (5-10) are in flexible connection, and the belt A (5-10) and the cutting belt pulley blocks (5-12) are in flexible connection, the cutting belt pulley (5-12) is connected with the cutter (5-13) with the shaft, and the cutter (5-13) with the shaft is connected with the bearing seat II (3-4) in a bearing way;

clamping mechanism (1) link to each other with platform mechanism (3), grinding machanism (2) link to each other with cutting mechanism (5), cutting mechanism (5) link to each other with platform mechanism (3), grinding machanism (2) link to each other with variable speed actuating mechanism (4), variable speed actuating mechanism (4) link to each other with platform mechanism (3).

2. The slitting tool grinding device according to claim 1, wherein: the material of the cutter knife (5-13) with the shaft is stainless steel.

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