CN111283432A - Polishing and cutting integrated equipment - Google Patents

Abstract

The invention relates to polishing equipment, in particular to polishing and cutting integrated equipment which comprises a feeding mechanism, a polishing executing mechanism, a sliding cutting mechanism and a safety driving mechanism.

Description

Polishing and cutting integrated equipment

Technical Field

The invention relates to polishing equipment, in particular to polishing and cutting integrated equipment.

Background

In the steel plate treatment, operations such as grinding and cutting are needed, grinding and cutting functions of the traditional equipment are isolated from each other, and the traditional equipment has no cooling function, so that the grinding and cutting integrated equipment is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing the polishing and cutting integrated equipment, the equipment can automatically send steel plates, the equipment can perform cooling treatment while polishing, the equipment can be switched to a cutting mode, and the equipment can run safely.

In order to solve the technical problems, the invention relates to a polishing device, and particularly relates to a polishing and cutting integrated device.

The feeding mechanism is connected with the executing mechanism, the executing mechanism is connected with the sliding cutting mechanism, and the polishing executing mechanism is connected with the safety driving mechanism.

As a further optimization of the technical scheme, the feeding mechanism of the polishing and cutting integrated equipment comprises a belt bearing seat frame body, a driven belt shaft friction roller, a belt pulley, a belt I, a belt pulley I, a driven belt shaft friction roller I, a transmission belt pulley, a transmission belt shaft friction roller, a bearing frame, a through groove, a transmission gear, a gear A, a coupler, a motor, a driving belt shaft roller and a belt pulley C, wherein the belt bearing seat frame body and the driven belt shaft friction roller are connected in a bearing mode, the driven belt shaft friction roller is connected with the belt pulley, the belt pulley is flexibly connected with the belt, the belt I is flexibly connected with the belt pulley I, the belt pulley I is connected with the driven belt shaft friction roller I, the driven belt shaft friction roller I is connected with the belt bearing seat frame body in a bearing mode, the transmission belt pulley is flexibly connected with the belt I, the transmission belt pulley is connected with the transmission belt shaft friction, the transmission belt shaft friction roller is connected with the belt bearing seat frame body through a bearing, the transmission belt shaft friction roller is arranged on the bearing frame body through a groove, the transmission belt shaft friction roller is connected with a transmission gear, the transmission gear is meshed with a gear A, the driving belt shaft roller is connected with a motor through a coupler, the driving belt shaft roller is connected with the gear A, the driving belt shaft roller is connected with the belt bearing seat frame body through a bearing, a belt pulley C is connected with the driving belt shaft roller, and the belt pulley C is flexibly connected with a belt.

As a further optimization of the technical scheme, the polishing execution mechanism of the polishing and cutting integrated equipment comprises a base mechanism, a polishing block mechanism, a reciprocating mechanism, a locking mechanism, a socket mechanism, an incomplete ratchet wheel with a shaft, an air inlet pipe, a pressure cavity, an incomplete ratchet wheel with a shaft I, a gear I with a shaft, a gear II with a shaft, a bearing seat A, an air outlet pipe support, a matching hole, a sliding cavity, an air outlet one-way valve and an air inlet one-way valve, wherein the base mechanism is connected with the reciprocating mechanism, the polishing block mechanism is connected with the reciprocating mechanism, the locking mechanism is connected with the socket mechanism, the socket mechanism is connected with the reciprocating mechanism, the socket mechanism is connected with the polishing block mechanism, the incomplete ratchet wheel with the shaft is meshed with the reciprocating mechanism, the incomplete ratchet wheel with the bearing seat A is connected in a bearing, the bearing seat A is connected with the base mechanism, the incomplete ratchet wheel with the shaft is meshed with the gear II, the gear II is meshed with the gear with the shaft, the gear with the shaft is connected with the bearing seat A in a bearing mode, the gear with the shaft is meshed with the gear I with the shaft, the gear I with the shaft is connected with the bearing seat A in a bearing mode, the gear I with the shaft is meshed with the gear I, the gear I with the incomplete ratchet wheel with the shaft is connected with the incomplete ratchet wheel I with the shaft, the incomplete ratchet wheel I with the shaft is connected with the bearing seat A in a bearing mode, the incomplete ratchet wheel I with the shaft is meshed with the reciprocating mechanism, the air inlet pipe is connected with the pressure cavity, the pressure cavity is connected with the base mechanism, the air outlet pipe is connected with the air outlet pipe support, the air outlet pipe support is connected with the base mechanism, the matching hole is formed in the pressure cavity, the sliding cavity is arranged in the pressure cavity, the; the base mechanism comprises a hinge seat, a base body, a sliding support, a supporting seat, a bearing seat II and a stepped groove, wherein the hinge seat is connected with the base body, the base body is connected with the sliding support, the supporting seat is connected with the base body, the supporting seat is connected with the bearing seat A, the base body is connected with a pressure cavity, a frame body with the bearing seat is connected with the base body, a bearing frame is connected with the base body, a motor is connected with the base body, the bearing seat II is connected with the base body, and the stepped groove is formed in the base body; the sanding block mechanism comprises a sanding block body and a lock hole, and the lock hole is formed in the sanding block body; the reciprocating mechanism comprises a piston, a piston rod, a linkage seat, a connecting seat I, a rack, a spring, a slide rod, a ratchet bar, a slide rod I, a polishing supporting seat, a slide hole I and a locking matching hole, wherein the piston is connected with the piston rod, the piston is connected with a slide cavity in a sliding manner, the piston rod is connected with the linkage seat in a sliding manner, the linkage seat is connected with the connecting seat I, the connecting seat I is connected with the rack, the connecting seat I is connected with the slide rod, the spring is sleeved on the slide rod, the slide rod is connected with a sliding support in a sliding manner, the slide rod is connected with the ratchet bar, the ratchet bar is connected with the slide rod I, the slide rod I is connected with the polishing supporting seat, the slide hole I is formed in the polishing supporting seat, the locking matching hole is formed in the polishing supporting seat, the ratchet bar is meshed with an incomplete ratchet wheel with; the locking mechanism comprises a limiting rod I, a limiting plate, a locking spring, an upper limiting plate and a handle, the limiting rod I is connected with the limiting plate, the locking spring is sleeved on the limiting rod I, the limiting rod I is connected with the upper limiting plate, the upper limiting plate is connected with the handle, the limiting rod I is connected with the sliding hole I in a sliding mode, and the locking spring abuts against the polishing supporting seat; socket mechanism includes inserted bar, inserted bar seat, jack, draws the seat, and the inserted bar links to each other with the inserted bar seat, and the jack setting is on the inserted bar seat, and the inserted bar seat links to each other with drawing the seat, jack and gag lever post I sliding connection, inserted bar and locking mating holes sliding connection, inserted bar and lockhole sliding connection.

As a further optimization of the technical scheme, the sliding cutting mechanism of the polishing and cutting integrated equipment comprises a hydraulic cylinder, a hydraulic rod, a pushing seat, a stepped seat, a cutting knife shaft, a bevel gear, a gear C, a gear shaft and a bevel gear a, wherein the hydraulic cylinder is connected with the base body, the hydraulic cylinder is connected with the hydraulic rod, the hydraulic rod is connected with the pushing seat, the pushing seat is connected with the stepped seat, the cutting knife is connected with the cutting knife shaft, the cutting knife shaft is connected with the stepped seat in a bearing manner, the cutting knife shaft is connected with the bevel gear, the bevel gear is connected with the bevel gear a, the bevel gear a is connected with the gear shaft, the gear shaft is connected with the gear C, the gear C is meshed with the rack, the gear shaft is connected with the bearing base II in a bearing manner, and the stepped seat is in sliding connection with.

As a further optimization of the technical scheme, the safety driving mechanism of the polishing and cutting integrated equipment comprises a sliding motor mechanism, a stepped groove I, a transverse sliding groove, a seat body I, a pulling mechanism, an inner sliding rod and an inner spring, wherein the sliding motor mechanism is connected with the stepped groove I in a sliding manner, the stepped groove I is formed in the seat body I, the seat body I is connected with a base body, the pulling mechanism is hinged with the seat body I, the inner sliding rod is connected with the seat body I, the inner spring is sleeved on the inner sliding rod, the inner spring abuts against the sliding motor mechanism, the sliding motor mechanism is connected with the inner sliding rod in a sliding manner, and a disc with a convex block is connected with a gear with a shaft; the sliding motor mechanism comprises a disk with a convex block, a sliding motor body, a stepped sliding block II, a pulley and a hole, wherein the disk with the convex block is connected with the sliding motor body, the sliding motor body is connected with the stepped sliding block II, the pulley is connected with a bearing of the stepped sliding block II, the hole is formed in the stepped sliding block II, the stepped sliding block II is connected with a stepped groove I in a sliding mode, the stepped sliding block II is connected with a transverse sliding groove in a sliding mode, and the hole is connected with an inner sliding rod in a sliding mode; the pulling mechanism comprises a pulling hydraulic cylinder, a pulling hydraulic rod, a pulling hinging block and a hinged arm, the pulling hydraulic cylinder is hinged to the hinging seat, the pulling hydraulic cylinder is connected with the pulling hydraulic rod, the pulling hydraulic rod is connected with the pulling hinging block, the pulling hinging block is hinged to the hinged arm, and the hinged arm is hinged to the base body I.

As a further optimization of the technical scheme, the gear with the shaft is provided with a hole matched with the convex block on the disc with the convex block.

The polishing and cutting integrated equipment has the beneficial effects that:

according to the polishing and cutting integrated equipment, the equipment can automatically send the steel plate, the equipment can perform cooling treatment while polishing, the equipment can be switched to a cutting mode, and the equipment can safely operate.

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 grinding and cutting integrated device of the present invention.

Fig. 2 is a schematic structural diagram of a grinding and cutting integrated device of the present invention.

Fig. 3 is a first structural schematic diagram of a feeding mechanism 1 of the grinding and cutting integrated equipment.

Fig. 4 is a second structural schematic diagram of the feeding mechanism 1 of the grinding and cutting integrated device of the invention.

Fig. 5 is a first structural schematic diagram of a polishing actuator 2 of the polishing and cutting integrated device of the invention.

Fig. 6 is a second schematic structural diagram of a polishing actuator 2 of the polishing and cutting integrated device of the present invention.

Fig. 7 is a third schematic structural diagram of a polishing actuator 2 of the polishing and cutting integrated device of the invention.

Fig. 8 is a fourth schematic structural diagram of a polishing actuator 2 of the polishing and cutting integrated device of the invention.

Fig. 9 is a schematic structural diagram five of the polishing actuating mechanism 2 of the polishing and cutting integrated device of the invention.

Fig. 10 is a schematic structural diagram of a base mechanism 2-1 of the grinding and cutting integrated equipment.

Fig. 11 is a schematic structural diagram of a sanding block mechanism 2-2 of the sanding and cutting integrated device.

Fig. 12 is a schematic structural diagram of a reciprocating mechanism 2-3 of the grinding and cutting integrated equipment.

Fig. 13 is a schematic structural diagram of a locking mechanism 2-4 of the grinding and cutting integrated equipment.

Fig. 14 is a schematic structural diagram of the socket mechanism 2-5 of the grinding and cutting integrated equipment.

Fig. 15 is a schematic structural diagram of a sliding cutting mechanism 3 of an integrated grinding and cutting device according to the present invention.

Fig. 16 is a first structural schematic diagram of the safety driving mechanism 4 of the grinding and cutting integrated device of the invention.

Fig. 17 is a second structural schematic diagram of the safety driving mechanism 4 of the grinding and cutting integrated device of the invention.

Fig. 18 is a schematic structural diagram of a sliding motor mechanism 4-1 of the grinding and cutting integrated device.

Fig. 19 is a schematic structural diagram of a pulling mechanism 4-5 of the grinding and cutting integrated equipment.

In the figure: a feeding mechanism 1; a frame body 1-1 with a bearing seat; a driven belt shaft friction roller 1-2; 1-3 of belt pulleys; 1-4 parts of a belt; belt I1-5; pulley I1-6; a driven belt shaft friction roller I1-7; 1-8 parts of a transmission belt pulley; a transmission belt shaft friction roller 1-9; 1-10 of a bearing frame; through slots 1-11; transmission gears 1-12; gear a 1-13; 1-14 of a coupler; 1-15 of a motor; driving belt shaft rollers 1-16; pulley C1-17; a polishing actuating mechanism 2; a base mechanism 2-1; a hinged seat 2-1-1; a base body 2-1-2; 2-1-3 of a sliding support; 2-1-4 parts of a supporting seat; bearing seats II 2-1-5; 2-1-6 of a stepped groove; a sanding block mechanism 2-2; 2-2-1 of a polishing block body; 2-2-2 of a lock hole; a reciprocating mechanism 2-3; a piston 2-3-1; a piston rod 2-3-2; 2-3-3 of a linkage seat; connecting seat I2-3-4; 2-3-5 of a rack; 2-3-6 parts of a spring; 2-3-7 slide bars; 2-3-8 parts of ratchet bar; slide bar I2-3-9; polishing the support seat by 2-3-10; a slide hole I2-3-11; 2-3-12 of locking matching holes; 2-4 of a locking mechanism; a limiting rod I2-4-1; 2-4-2 parts of a limiting plate; 2-4-3 parts of a locking spring; an upper limiting plate 2-4-4; 2-4-5 of a handle; 2-5 of a socket mechanism; 2-5-1 of an inserted link; 2-5-2 parts of a plug rod seat; 2-5-3 of a jack; 2-5-4 of a pull seat; 2-6 of incomplete ratchet wheel with shaft; 2-7 of an air inlet pipe; 2-8 of pressure cavity; the incomplete ratchet wheel I2-9 with a shaft; gear I2-10; a belt shaft gear I2-11; 2-12 parts of a gear with a shaft; gear II 2-13; bearing seat A2-14; 2-15 parts of an air outlet pipe; the outlet pipe supports 2-16; 2-17 of a matching hole; 2-18 of a sliding cavity; 2-19 parts of an air outlet one-way valve; 2-20 parts of an air inlet check valve; a sliding cutting mechanism 3; a hydraulic cylinder 3-1; 3-2 of a hydraulic rod; pushing the seat 3-3; 3-4 of step seats; 3-5 of a cutting knife; 3-6 parts of a cutting knife shaft; bevel gears 3-7; gear C3-8; gear shafts 3-9; bevel gear A3-10; a safety drive mechanism 4; a sliding motor mechanism 4-1; a disk with bumps 4-1-1; a sliding motor body 4-1-2; a step slide block II 4-1-3; 4-1-4 of a pulley; 4-1-5 of holes; the stepped groove I4-2; 4-3 of a horizontal chute; a seat body I4-4; 4-5 of a pulling mechanism; pulling a hydraulic cylinder 4-5-1; pulling a hydraulic rod 4-5-2; pulling the hinged block 4-5-3; articulated arm 4-5-4; 4-6 parts of an inner sliding rod; and 4-7 of an inner spring.

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, and fig. 19, and the present invention relates to a grinding apparatus, and more specifically, to a grinding and cutting integrated apparatus, which includes a feeding mechanism 1, a grinding actuator 2, a sliding cutting mechanism 3, and a safety driving mechanism 4, and is capable of automatically feeding a steel plate, performing a temperature reduction process while grinding the apparatus, switching the apparatus to a cutting mode, and safely operating the apparatus.

The feeding mechanism 1 is connected with the executing mechanism 2, the executing mechanism 2 is connected with the sliding cutting mechanism 3, and the polishing executing mechanism 2 is connected with the safety driving mechanism 4.

The second embodiment is as follows:

the following describes the present embodiment 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, and fig. 19, and the present embodiment further describes the present embodiment, where the feeding mechanism 1 includes a belt bearing frame body 1-1, a driven belt shaft friction roller 1-2, a belt pulley 1-3, a belt 1-4, a belt I1-5, a belt pulley I1-6, a driven belt shaft friction roller I1-7, a driving belt pulley 1-8, a driving belt shaft friction roller 1-9, a bearing frame 1-10, a through groove 1-11, a driving gear 1-12, a gear a1-13, a coupling 1-14, a motor 1-15, a driving belt shaft roller 1-16, A belt pulley C1-17, a belt bearing seat frame body 1-1 and a driven belt bearing seat friction roller 1-2 are connected by a bearing, the driven belt bearing seat friction roller 1-2 is connected with a belt pulley 1-3, the belt pulley 1-3 is flexibly connected with a belt 1-4, a belt I1-5 is flexibly connected with a belt pulley I1-6, a belt pulley I1-6 is connected with a driven belt bearing seat friction roller I1-7, the driven belt bearing seat friction roller I1-7 is connected with a belt bearing seat frame body 1-1 by a bearing, a transmission belt pulley 1-8 is flexibly connected with a belt I1-5, a transmission belt pulley 1-8 is connected with a transmission belt bearing seat friction roller 1-9, the transmission belt bearing seat friction roller 1-9 is connected with a belt bearing seat frame body 1-1 by a bearing, the belt-driven shaft friction roller 1-9 is connected with a transmission gear 1-12, the transmission gear 1-12 is meshed with a gear A1-13, a driving belt shaft roller 1-16 is connected with a motor 1-15 through a coupler 1-14, the driving belt shaft roller 1-16 is connected with a gear A1-13, the driving belt shaft roller 1-16 is connected with a belt bearing support body 1-1 through a bearing, a belt pulley C1-17 is connected with the driving belt shaft roller 1-16, a belt pulley C1-17 is flexibly connected with a belt 1-4, the motor 1-15 operates to drive the coupler 1-14 to rotate, the rotation of the coupler 1-14 drives the gear A1-13 to rotate, the rotation of the gear A1-13 drives the transmission gear 1-12 to rotate reversely, the gear A1-13 can drive the driving belt shaft roller 1-16 to rotate clockwise, the transmission gear 1-12 can drive the transmission belt shaft friction roller 1-9 to rotate anticlockwise, the driving belt shaft roller 1-16 can drive all the driven belt shaft friction rollers 1-2 to rotate through the belt pulley C1-17, the belt 1-4 and the belt pulley 1-3, the transmission gear 1-12 can drive the transmission belt shaft friction roller 1-9 to rotate, the transmission belt shaft friction rollers 1-9 can drive all the driven belt shaft friction rollers I1-7 to rotate through the transmission belt pulley 1-8 and the belt I1-5, and as the driven belt shaft friction rollers I1-7 are opposite to the belt shaft friction rollers 1-9, the forces in the same direction are applied to the upper surface and the lower surface of the steel plate, therefore, the steel plate can be driven to move in the direction of 1-11 through the groove, and subsequent grinding is facilitated.

The third concrete implementation mode:

the 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, and fig. 19, and the embodiment further describes the first embodiment, where the polishing actuator 2 includes a base mechanism 2-1, a polishing block mechanism 2-2, a reciprocating mechanism 2-3, a locking mechanism 2-4, a socket mechanism 2-5, a incomplete ratchet with shaft 2-6, an air inlet pipe 2-7, a pressure chamber 2-8, an incomplete ratchet with shaft I2-9, a gear I2-10, a gear with shaft I2-11, a gear with shaft 2-12, a gear II2-13, a bearing seat a2-14, an air outlet pipe 2-15, an air outlet pipe support 2-16, a bearing seat a, The grinding machine comprises a matching hole 2-17, a sliding cavity 2-18, an air outlet one-way valve 2-19 and an air inlet one-way valve 2-20, a base mechanism 2-1 is connected with a reciprocating mechanism 2-3, a grinding block mechanism 2-2 is connected with the reciprocating mechanism 2-3, a locking mechanism 2-4 is connected with a socket mechanism 2-5, a socket mechanism 2-5 is connected with the reciprocating mechanism 2-3, a socket mechanism 2-5 is connected with the grinding block mechanism 2-2, an incomplete ratchet 2-6 with a shaft is meshed with the reciprocating mechanism 2-3, the incomplete ratchet 2-6 with the shaft is connected with a bearing seat A2-14 in a bearing connection mode, the bearing seat A2-14 is connected with the base mechanism 2-1, the belt shaft incomplete ratchet wheel 2-6 is meshed with a gear II2-13, the gear II2-13 is meshed with a belt shaft gear 2-12, the belt shaft gear 2-12 is connected with a bearing seat A2-14 in a bearing mode, the belt shaft gear 2-12 is meshed with a belt shaft gear I2-11, the belt shaft gear I2-11 is connected with a bearing seat A2-14 in a bearing mode, the belt shaft gear I2-11 is meshed with a gear I2-10, the gear I2-10 is connected with a belt shaft incomplete ratchet wheel I2-9, the belt shaft incomplete ratchet wheel I2-9 is connected with a bearing seat A2-14 in a bearing mode, the belt shaft incomplete ratchet wheel I2-9 is meshed with a reciprocating mechanism 2-3, an air inlet pipe 2-7 is connected with a pressure cavity 2-8, a pressure cavity 2-8 is connected with a base mechanism 2-1, the gas outlet pipe 2-15 is connected with the pressure cavity 2-8, the gas outlet pipe 2-15 is connected with the gas outlet pipe support 2-16, the gas outlet pipe support 2-16 is connected with the base mechanism 2-1, the matching hole 2-17 is arranged on the pressure cavity 2-8, the sliding cavity 2-18 is arranged in the pressure cavity 2-8, the gas outlet one-way valve 2-19 is arranged in the gas outlet pipe 2-15, and the gas inlet one-way valve 2-20 is arranged in the gas inlet pipe 2-7; the base mechanism 2-1 comprises a hinged seat 2-1-1, a base body 2-1-2, a sliding support 2-1-3, a supporting seat 2-1-4, a bearing seat II2-1-5 and a stepped groove 2-1-6, the hinged seat 2-1-1 is connected with the base body 2-1-2, the base body 2-1-2 is connected with the sliding support 2-1-3, the supporting seat 2-1-4 is connected with the base body 2-1-2, the supporting seat 2-1-4 is connected with a bearing seat A2-14, the base body 2-1-2 is connected with a pressure cavity 2-8, a bearing seat body 1-1 with a shaft is connected with the base body 2-1-2, a bearing frame 1-10 is connected with the base body 2-1-2, the motor 1-15 is connected with the base body 2-1-2, the bearing seat II2-1-5 is connected with the base body 2-1-2, and the stepped groove 2-1-6 is formed in the base body 2-1-2; the polishing block mechanism 2-2 comprises a polishing block body 2-2-1 and a lock hole 2-2-2, wherein the lock hole 2-2-2 is arranged on the polishing block body 2-2-1; the reciprocating mechanism 2-3 comprises a piston 2-3-1, a piston rod 2-3-2, a linkage seat 2-3-3, a connecting seat I2-4, a rack 2-3-5, a spring 2-3-6, a slide rod 2-3-7, a ratchet rack 2-3-8, a slide rod I2-3-9, a polishing supporting seat 2-3-10, a slide hole I2-3-11 and a locking matching hole 2-3-12, the piston 2-3-1 is connected with the piston rod 2-3-2, the piston 2-3-1 is connected with a slide cavity 2-18 in a sliding way, the piston rod 2-3-2 is connected with a matching hole 2-17 in a sliding way, the piston rod 2-3-2 is connected with the linkage seat 2-3-3, the linkage seat 2-3-3 is connected with a connecting seat I2-3-4, the connecting seat I2-3-4 is connected with a rack 2-3-5, the connecting seat I2-3-4 is connected with a sliding rod 2-3-7, a spring 2-3-6 is sleeved on the sliding rod 2-3-7, the sliding rod 2-3-7 is connected with a sliding support 2-1-3 in a sliding way, the sliding rod 2-3-7 is connected with a ratchet rack 2-3-8, the ratchet rack 2-3-8 is connected with a sliding rod I2-3-9, the sliding rod I2-3-9 is connected with the sliding support 2-1-3 in a sliding way, the sliding rod I2-3-9 is connected with a polishing supporting seat 2-3-10, a sliding hole I2-3-11 is formed in the polishing supporting seat 2-3-10, the locking matching hole 2-3-12 is arranged on the polishing supporting seat 2-3-10, the ratchet bar 2-3-8 is meshed with the incomplete ratchet wheel 2-6 with the shaft, and the ratchet bar 2-3-8 is meshed with the incomplete ratchet wheel I2-9 with the shaft; the locking mechanism 2-4 comprises a limiting rod I2-4-1, a limiting plate 2-4-2, a locking spring 2-4-3, an upper limiting plate 2-4-4 and a handle 2-4-5, the limiting rod I2-4-1 is connected with the limiting plate 2-4-2, the locking spring 2-4-3 is sleeved on the limiting rod I2-4-1, the limiting rod I2-4-1 is connected with the upper limiting plate 2-4-4, the upper limiting plate 2-4-4 is connected with the handle 2-4-5, the limiting rod I2-4-1 is connected with a sliding hole I2-3-11 in a sliding mode, and the locking spring 2-4-3 abuts against a polishing supporting seat 2-3-10; the socket mechanism 2-5 comprises an inserted link 2-5-1, an inserted link seat 2-5-2, an inserting hole 2-5-3 and a pull seat 2-5-4, the inserted link 2-5-1 is connected with the inserted link seat 2-5-2, the inserting hole 2-5-3 is arranged on the inserted link seat 2-5-2, the inserted link seat 2-5-2 is connected with the pull seat 2-5-4, the inserting hole 2-5-3 is connected with a limiting rod I2-4-1 in a sliding way, the inserted link 2-5-1 is connected with a locking matching hole 2-3-12 in a sliding way, the inserted link 2-5-1 is connected with a lock hole 2-2-2 in a sliding way, a disk with a lug 4-1-1 is driven to rotate by the operation of a sliding motor body 4-1-2, the rotation of the disk 4-1-1 with the lug can drive the gear 2-12 with the shaft to rotate, the rotation of the gear 2-12 with the shaft can drive the gear I2-11 with the shaft to rotate, the rotation of the gear 2-12 with the shaft and the gear I2-11 with the shaft can drive the gear II2-13 with the gear I2-10 to rotate, the rotation of the gear II2-13 with the gear I2-10 can drive the incomplete ratchet 2-6 with the shaft and the incomplete ratchet I2-9 with the shaft to rotate, the rotation of the incomplete ratchet 2-6 with the shaft and the incomplete ratchet I2-9 with the shaft can drive the ratchet 2-3-8 to move towards the direction of the grinding support seat 2-3-10, the ratchet 2-3-8 can drive the grinding support seat 2-3-10 to move, the grinding support seat 2-3-10 can drive the grinding block body 2-2-1 to move, the grinding block body 2-2-1 can grind the steel plate when moving, then the incomplete ratchet wheel 2-6 of the belt shaft and the incomplete ratchet wheel I2-9 of the belt shaft rotate to the place without teeth, the reset is carried out under the rebound action of the spring 2-3-6, the steel plate is polished for the second time, in the process, the ratchet bar 2-3-8 drives the piston 2-3-1 to reciprocate, when the piston 2-3-1 moves towards the grinding support seat 2-3-10, the gas in the sliding cavity 2-18 is compressed, the pressure is increased to open the gas outlet one-way valve 2-19, the gas is blown out from the gas outlet pipe 2-15, and the polished steel plate is cooled.

The fourth concrete implementation mode:

referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, the present embodiment further illustrates the present embodiment, wherein the sliding cutting mechanism 3 includes a hydraulic cylinder 3-1, a hydraulic rod 3-2, a push seat 3-3, a step seat 3-4, a cutting knife 3-5, a cutting knife shaft 3-6, a bevel gear 3-7, a gear C3-8, a gear shaft 3-9, a bevel gear A3-10, the hydraulic cylinder 3-1 is connected with the base body 2-1-2, the hydraulic cylinder 3-1 is connected with the hydraulic rod 3-2, the hydraulic rod 3-2 is connected with the push seat 3-3, the push seat 3-3 is connected with the step seat 3-4, the cutting knife 3-5 is connected with the cutting knife shaft 3-6, the connection mode of the cutting knife shaft 3-6 and the step seat 3-4 is bearing connection, the cutting knife shaft 3-6 is connected with the bevel gear 3-7, the bevel gear 3-7 is connected with the bevel gear A3-10, the bevel gear A3-10 is connected with the gear shaft 3-9, the gear shaft 3-9 is connected with the gear C3-8, the gear C3-8 is meshed with the rack 2-3-5, the connection mode of the gear shaft 3-9 and the bearing seat II2-1-5 is bearing connection, the step seat 3-4 is connected with the step groove 2-1-6 in a sliding way, when the ordinary cutting is not needed, hydraulic oil can be injected into the hydraulic cylinder 3-1, the hydraulic rod 3-2 pushes the pushing seat 3-3 under the driving of the oil pressure, the pushing seat 3-3 can drive the step seat 3-4 to move, the step seat 3-4 can drive the bevel gear 3-7 to be disengaged from the bevel gear A3-10 when moving, so that cutting is not needed, the rack 2-3-5 which moves in a reciprocating mode can drive the gear C3-8 to rotate, the gear C3-8 rotates to drive the bevel gear A3-10 to idle, when cutting is needed, hydraulic oil is injected into the hydraulic cylinder 3-1 in a reverse direction, the bevel gear 3-7 is engaged with the bevel gear A3-10, the bevel gear A3-10 can drive the bevel gear 3-7 to rotate, and the bevel gear 3-7 rotates to drive the cutting knife 3-5 to rotate, so that cutting is conducted.

The fifth concrete implementation mode:

referring 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, the present embodiment further describes the first embodiment, where the safety driving mechanism 4 includes a sliding motor mechanism 4-1, a stepped slot I4-2, a transverse sliding slot 4-3, a seat body I4-4, a pulling mechanism 4-5, an inner sliding rod 4-6, and an inner spring 4-7, the sliding motor mechanism 4-1 is slidably connected to the stepped slot I4-2, the stepped slot I4-2 is opened on the seat body I4-4, the seat body I4-4 is connected to the base body 2-1-2, the pulling mechanism 4-5 is hinged to the seat body I4-4, the inner sliding rod 4-6 is connected to the seat body I4-4, the inner spring 4-7 is sleeved on the inner sliding rod 4-6, the inner spring 4-7 is propped against the sliding motor mechanism 4-1, and the sliding motor mechanism 4-1 is connected with the inner sliding rod 4-6 in a sliding manner; the sliding motor mechanism 4-1 comprises a disk with a bump 4-1-1, a sliding motor body 4-1-2, a step sliding block II4-1-3, a pulley 4-1-4 and a hole 4-1-5, the disk with the bump 4-1-1 is connected with the sliding motor body 4-1-2, the sliding motor body 4-1-2 is connected with a step sliding block II4-1-3, the pulley 4-1-4 is connected with a step sliding block II4-1-3 bearing, the hole 4-1-5 is opened on the step sliding block II4-1-3, the step sliding block II4-1-3 is connected with a step groove I4-2 in a sliding way, the step sliding block II4-1-3 is connected with a transverse sliding groove 4-3 in a sliding way, the hole 4-1-5 is connected with an inner sliding rod 4-6 in a sliding way, the disk 4-1-1 with the convex block is connected with the gear 2-12 with the shaft; the pulling mechanism 4-5 comprises a pulling hydraulic cylinder 4-5-1, a pulling hydraulic rod 4-5-2, a pulling hinged block 4-5-3 and a hinged arm 4-5-4, the pulling hydraulic cylinder 4-5-1 is hinged with the hinged seat 2-1-1, the pulling hydraulic cylinder 4-5-1 is connected with the pulling hydraulic rod 4-5-2, the pulling hydraulic rod 4-5-2 is connected with the pulling hinged block 4-5-3, the pulling hinged block 4-5-3 is hinged with the hinged arm 4-5-4, the hinged arm 4-5-4 is hinged with the seat body I4-4, when the equipment is in failure and is about to be stopped suddenly, hydraulic oil can be injected into the pulling hydraulic cylinder 4-5-1, under the driving of the oil pressure, the hydraulic rod 4-5-2 is pulled to retract towards the hydraulic cylinder 4-5-1, the articulated arm 4-5-4 is pulled by pulling the hydraulic rod 4-5-2 through the articulated block 4-5-3, the pulley 4-1-4 is pushed by the articulated arm 4-5-4, the pulley 4-1-4 drives the sliding motor body 4-1-2 to move, the sliding motor body 4-1-2 drives the disk 4-1-1 with the lug to be disconnected with the gear 2-12 with the shaft, thus, the equipment can stop running, the hydraulic cylinder 4-5-1 is pulled reversely to be filled with oil after the fault is eliminated, under the action of the elastic force of the inner spring 4-7, the sliding motor mechanism 4-1 is reset and operates again.

The sixth specific implementation mode:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, and 19, and the present embodiment further describes a first embodiment in which the shaft gear 2-12 is provided with a hole for engaging with the boss on the cam disk 4-1-1.

The working principle of the device is as follows: the equipment can automatically send steel plates, the motors 1-15 run to drive the couplers 1-14 to rotate, the couplers 1-14 rotate to drive the gears A1-13 to rotate, the gears A1-13 rotate to drive the transmission gears 1-12 to rotate in reverse, the gears A1-13 drive the driving belt shaft rollers 1-16 to rotate clockwise, the transmission gears 1-12 drive the transmission belt shaft friction rollers 1-9 to rotate anticlockwise, the driving belt shaft rollers 1-16 drive all the driven belt shaft friction rollers 1-2 to rotate through the belt pulleys C1-17, the belts 1-4 and the belt pulleys 1-3, the transmission gears 1-12 drive the transmission belt shaft friction rollers 1-9 to rotate, and the transmission belt shaft friction rollers 1-9 rotate through the transmission belt pulleys 1-8, The belt I1-5 drives all driven belt shaft friction rollers I1-7 to rotate, and because the driven belt shaft friction rollers I1-7 are opposite to the belt shaft friction rollers 1-9, the forces in the same direction are applied to the upper surface and the lower surface of the steel plate, so that the steel plate can be driven to move in the direction of the through groove 1-11, and subsequent polishing is facilitated; the equipment can carry out cooling treatment while grinding, the operation of the sliding motor body 4-1-2 drives the disk with the convex block 4-1-1 to rotate, the rotation of the disk with the convex block 4-1-1 can drive the gear with the shaft 2-12 to rotate, the rotation of the gear with the shaft 2-12 can drive the gear with the shaft I2-11 to rotate, the rotation of the gear with the shaft 2-12 and the gear with the shaft I2-11 can respectively drive the gear II2-13 and the gear I2-10 to rotate, the rotation of the gear II2-13 and the gear I2-10 can drive the incomplete ratchet 2-6 with the shaft and the incomplete ratchet I2-9 with the shaft to rotate, the rotation of the incomplete ratchet 2-6 with the shaft and the incomplete ratchet I2-9 with the shaft can drive the ratchet 2-3-8 to move towards the direction of the support seat for grinding 2-3-10, the ratchet bar 2-3-8 can drive the grinding support seat 2-3-10 to move, the grinding support seat 2-3-10 can drive the grinding block body 2-2-1 to move, the grinding block body 2-2-1 can grind a steel plate when moving, then the incomplete ratchet wheel with a shaft 2-6 and the incomplete ratchet wheel with a shaft I2-9 rotate to a place without teeth, the steel plate is reset under the resilience of the spring 2-3-6 and ground for the second time, in the process, the ratchet bar 2-3-8 can drive the piston 2-3-1 to reciprocate, when the piston 2-3-1 moves towards the grinding support seat 2-3-10, gas in the sliding cavity 2-18 is compressed, the pressure is increased to open the air outlet one-way valve 2-19, the air is blown out from the air outlet pipe 2-15, and the ground steel plate is cooled; the device can be switched to a cutting mode, when cutting is not needed at ordinary times, hydraulic oil can be injected into the hydraulic cylinder 3-1, the hydraulic rod 3-2 pushes the pushing seat 3-3 under the driving of the oil pressure, the pushing seat 3-3 can drive the step seat 3-4 to move, the step seat 3-4 can drive the bevel gear 3-7 to be disengaged from the bevel gear A3-10 when moving, so cutting is not needed, the rack 2-3-5 which reciprocates can drive the gear C3-8 to rotate, the gear C3-8 can drive the bevel gear A3-10 to idle, when cutting is needed, hydraulic oil is reversely injected into the hydraulic cylinder 3-1, the bevel gear 3-7 is engaged with the bevel gear A3-10, and the bevel gear A3-10 can drive the bevel gear 3-7 to rotate, the bevel gear 3-7 rotates to drive the cutting knife 3-5 to rotate, so that cutting is performed; the equipment can run safely, when the equipment is in failure and needs to be stopped suddenly, hydraulic oil can be injected into the pulling hydraulic cylinder 4-5-1, the pulling hydraulic rod 4-5-2 is pulled to retract towards the pulling hydraulic cylinder 4-5-1 under the driving of the hydraulic oil pressure, the pulling hydraulic rod 4-5-2 can pull the hinged arm 4-5-4 through the pulling hinged block 4-5-3, the hinged arm 4-5-4 can push the pulley 4-1-4, the pulley 4-1-4 can drive the sliding motor body 4-1-2 to move, the sliding motor body 4-1-2 can drive the disk with the lug 4-1-1 to be separated from the connection with the gear with the shaft 2-12, so that the equipment can be stopped to stop running, the hydraulic cylinder 4-5-1 is pulled reversely to inject oil after the fault is discharged, under the action of the elastic force of the inner spring 4-7, the sliding motor mechanism 4-1 is reset and operates again.

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 (6)

1. The utility model provides an integrative equipment of cutting of polishing, includes feeding mechanism (1), the actuating mechanism (2) of polishing, slip cutting mechanism (3), safety drive mechanism (4), its characterized in that: the feeding mechanism (1) is connected with the executing mechanism (2), the executing mechanism (2) is connected with the sliding cutting mechanism (3), and the polishing executing mechanism (2) is connected with the safety driving mechanism (4).

2. The grinding and cutting integrated equipment as claimed in claim 1, wherein: the feeding mechanism (1) comprises a belt bearing seat frame body (1-1), a driven belt shaft friction roller (1-2), belt pulleys (1-3), belts (1-4), belts I (1-5), belt pulleys I (1-6), a driven belt shaft friction roller I (1-7), transmission belt pulleys (1-8), a transmission belt shaft friction roller (1-9), a bearing frame (1-10), a through groove (1-11), transmission gears (1-12), gears A (1-13), a shaft coupling (1-14), a motor (1-15), a driving belt shaft roller (1-16) and belt pulleys C (1-17), wherein the connection mode of the belt bearing seat frame body (1-1) and the driven belt shaft friction roller (1-2) is bearing connection, a driven belt shaft friction roller (1-2) is connected with a belt pulley (1-3), the belt pulley (1-3) is flexibly connected with a belt (1-4), a belt I (1-5) is flexibly connected with a belt pulley I (1-6), the belt pulley I (1-6) is connected with a driven belt shaft friction roller I (1-7), the driven belt shaft friction roller I (1-7) is connected with a belt bearing seat frame body (1-1) in a bearing way, a transmission belt pulley (1-8) is flexibly connected with the belt I (1-5), the transmission belt pulley (1-8) is connected with a transmission belt shaft friction roller (1-9), the transmission belt shaft friction roller (1-9) is connected with the belt bearing seat frame body (1-1) in a bearing way, and is opened on a bearing frame (1-10) through a groove (1-11), the friction roller (1-9) of the transmission belt shaft is connected with the transmission gear (1-12), the transmission gear (1-12) is meshed with the gear A (1-13), the driving belt shaft roller (1-16) is connected with the motor (1-15) through the coupler (1-14), the driving belt shaft roller (1-16) is connected with the gear A (1-13), the driving belt shaft roller (1-16) is connected with the belt bearing seat frame body (1-1) through a bearing, the belt pulley C (1-17) is connected with the driving belt shaft roller (1-16), and the belt pulley C (1-17) is flexibly connected with the belt (1-4).

3. The grinding and cutting integrated equipment as claimed in claim 1, wherein: the polishing actuating mechanism (2) comprises a base mechanism (2-1), a polishing block mechanism (2-2), a reciprocating mechanism (2-3), a locking mechanism (2-4), a socket mechanism (2-5), an incomplete ratchet wheel with a shaft (2-6), an air inlet pipe (2-7), a pressure cavity (2-8), an incomplete ratchet wheel with a shaft I (2-9), a gear I (2-10), a gear I with a shaft (2-11), a gear with a shaft (2-12), a gear II (2-13), a bearing seat A (2-14), an air outlet pipe (2-15), an air outlet pipe support (2-16), a matching hole (2-17), a sliding cavity (2-18), an air outlet one-way valve (2-19) and an air inlet one-way valve (2-20), the base mechanism (2-1) is connected with the reciprocating mechanism (2-3), the polishing block mechanism (2-2) is connected with the reciprocating mechanism (2-3), the locking mechanism (2-4) is connected with the socket mechanism (2-5), the socket mechanism (2-5) is connected with the reciprocating mechanism (2-3), the socket mechanism (2-5) is connected with the polishing block mechanism (2-2), the incomplete ratchet wheel with a shaft (2-6) is meshed with the reciprocating mechanism (2-3), the incomplete ratchet wheel with a shaft (2-6) is connected with the bearing seat A (2-14) in a bearing connection mode, and the bearing seat A (2-14) is connected with the base mechanism (2-1), the incomplete ratchet wheel with shaft (2-6) is meshed with the gear II (2-13), the gear II (2-13) is meshed with the gear with shaft (2-12), the gear with shaft (2-12) is connected with the bearing seat A (2-14) in a bearing way, the gear with shaft (2-12) is meshed with the gear I (2-11) with shaft, the gear I (2-11) with shaft is connected with the bearing seat A (2-14) in a bearing way, the gear I (2-11) with shaft is meshed with the gear I (2-10), the gear I (2-10) is connected with the incomplete ratchet wheel with shaft I (2-9), the incomplete ratchet wheel with shaft I (2-9) is connected with the bearing seat A (2-14) in a bearing way, the incomplete ratchet wheel with shaft I (2-9) is meshed with the reciprocating mechanism (2-3), the air inlet pipe (2-7) is connected with the pressure cavity (2-8), the pressure cavity (2-8) is connected with the base mechanism (2-1), the air outlet pipe (2-15) is connected with the pressure cavity (2-8), the air outlet pipe (2-15) is connected with the air outlet pipe support (2-16), the air outlet pipe support (2-16) is connected with the base mechanism (2-1), the matching hole (2-17) is formed in the pressure cavity (2-8), the sliding cavity (2-18) is arranged in the pressure cavity (2-8), the air outlet one-way valve (2-19) is arranged in the air outlet pipe (2-15), and the air inlet one-way valve (2-20) is arranged in the air inlet pipe (2-7); the base mechanism (2-1) comprises a hinged seat (2-1-1), a base body (2-1-2), a sliding support (2-1-3), a supporting seat (2-1-4), a bearing seat II (2-1-5) and a stepped groove (2-1-6), the hinged seat (2-1-1) is connected with the base body (2-1-2), the base body (2-1-2) is connected with the sliding support (2-1-3), the supporting seat (2-1-4) is connected with the base body (2-1-2), the supporting seat (2-1-4) is connected with the bearing seat A (2-14), the base body (2-1-2) is connected with a pressure cavity (2-8), the frame body (1-1) with the bearing seat is connected with the base body (2-1-2), the bearing frame (1-10) is connected with the base body (2-1-2), the motor (1-15) is connected with the base body (2-1-2), the bearing seat II (2-1-5) is connected with the base body (2-1-2), and the stepped groove (2-1-6) is formed in the base body (2-1-2); the sanding block mechanism (2-2) comprises a sanding block body (2-2-1) and a lock hole (2-2-2), and the lock hole (2-2-2) is arranged on the sanding block body (2-2-1); the reciprocating mechanism (2-3) comprises a piston (2-3-1), a piston rod (2-3-2), a linkage seat (2-3-3), a connecting seat I (2-3-4), a rack (2-3-5), a spring (2-3-6), a slide rod (2-3-7), a ratchet rack (2-3-8), a slide rod I (2-3-9), a polishing supporting seat (2-3-10), a slide hole I (2-3-11) and a locking matching hole (2-3-12), the piston (2-3-1) is connected with the piston rod (2-3-2), the piston (2-3-1) is connected with the slide cavity (2-18) in a sliding manner, the piston rod (2-3-2) is connected with the matching hole (2-17) in a sliding manner, a piston rod (2-3-2) is connected with a linkage seat (2-3-3), the linkage seat (2-3-3) is connected with a connecting seat I (2-3-4), the connecting seat I (2-3-4) is connected with a rack (2-3-5), the connecting seat I (2-3-4) is connected with a sliding rod (2-3-7), a spring (2-3-6) is sleeved on the sliding rod (2-3-7), the sliding rod (2-3-7) is connected with a sliding support (2-1-3) in a sliding manner, the sliding rod (2-3-7) is connected with a ratchet bar (2-3-8), the ratchet bar (2-3-8) is connected with the sliding rod I (2-3-9), and the sliding rod I (2-3-9) is connected with the sliding support (2-1-3) in a sliding manner A sliding rod I (2-3-9) is connected with a polishing support seat (2-3-10), a sliding hole I (2-3-11) is formed in the polishing support seat (2-3-10), a locking matching hole (2-3-12) is formed in the polishing support seat (2-3-10), a ratchet bar (2-3-8) is meshed with an incomplete ratchet wheel (2-6) with a shaft, and the ratchet bar (2-3-8) is meshed with the incomplete ratchet wheel I (2-9) with the shaft; the locking mechanism (2-4) comprises a limiting rod I (2-4-1), a limiting plate (2-4-2), a locking spring (2-4-3), an upper limiting plate (2-4-4) and a handle (2-4-5), the limiting rod I (2-4-1) is connected with the limiting plate (2-4-2), the locking spring (2-4-3) is sleeved on the limiting rod I (2-4-1), the limiting rod I (2-4-1) is connected with the upper limiting plate (2-4-4), the upper limiting plate (2-4-4) is connected with the handle (2-4-5), the limiting rod I (2-4-1) is connected with a sliding hole I (2-3-11) in a sliding mode, the locking spring (2-4-3) is propped against the polishing support seat (2-3-10); the socket mechanism (2-5) comprises an inserted link (2-5-1) and an inserted link seat (2-5-2), the lock comprises jacks (2-5-3) and a pull seat (2-5-4), wherein an inserted rod (2-5-1) is connected with the inserted rod seat (2-5-2), the jacks (2-5-3) are arranged on the inserted rod seat (2-5-2), the inserted rod seat (2-5-2) is connected with the pull seat (2-5-4), the jacks (2-5-3) are connected with a limiting rod I (2-4-1) in a sliding mode, the inserted rod (2-5-1) is connected with a locking matching hole (2-3-12) in a sliding mode, and the inserted rod (2-5-1) is connected with a lock hole (2-2-2).

4. The grinding and cutting integrated equipment as claimed in claim 1, wherein: the sliding cutting mechanism (3) comprises a hydraulic cylinder (3-1), a hydraulic rod (3-2), a pushing seat (3-3), a step seat (3-4), a cutting knife (3-5), a cutting knife shaft (3-6), a bevel gear (3-7), a gear C (3-8), a gear shaft (3-9) and a bevel gear A (3-10), the hydraulic cylinder (3-1) is connected with the base body (2-1-2), the hydraulic cylinder (3-1) is connected with the hydraulic rod (3-2), the hydraulic rod (3-2) is connected with the pushing seat (3-3), the pushing seat (3-3) is connected with the step seat (3-4), the cutting knife (3-5) is connected with the cutting knife shaft (3-6), the cutting knife shaft (3-6) is connected with the step seat (3-4) by a bearing, the cutting knife shaft (3-6) is connected with the bevel gear (3-7), the bevel gear (3-7) is connected with the bevel gear A (3-10), the bevel gear A (3-10) is connected with the gear shaft (3-9), the gear shaft (3-9) is connected with the gear C (3-8), the gear C (3-8) is meshed with the rack (2-3-5), the gear shaft (3-9) is connected with the bearing seat II (2-1-5) in a bearing mode, and the stepped seat (3-4) is in sliding connection with the stepped groove (2-1-6).

5. The grinding and cutting integrated equipment as claimed in claim 1, wherein: the safety driving mechanism (4) comprises a sliding motor mechanism (4-1), a stepped groove I (4-2), a transverse sliding groove (4-3), a seat body I (4-4), a pulling mechanism (4-5), an inner sliding rod (4-6) and an inner spring (4-7), the sliding motor mechanism (4-1) is in sliding connection with the stepped groove I (4-2), the stepped groove I (4-2) is formed in the seat body I (4-4), the seat body I (4-4) is connected with the base body (2-1-2), the pulling mechanism (4-5) is hinged with the seat body I (4-4), the inner sliding rod (4-6) is connected with the seat body I (4-4), the inner spring (4-7) is sleeved on the inner sliding rod (4-6), and the inner spring (4-7) abuts against the sliding motor mechanism (4-1), the sliding motor mechanism (4-1) is connected with the inner sliding rod (4-6) in a sliding way; the sliding motor mechanism (4-1) comprises a disk (4-1-1) with a convex block, a sliding motor body (4-1-2), a step slide block II (4-1-3), a pulley (4-1-4) and a hole (4-1-5), the disk (4-1-1) with the convex block is connected with the sliding motor body (4-1-2), the sliding motor body (4-1-2) is connected with the step slide block II (4-1-3), the pulley (4-1-4) is in bearing connection with the step slide block II (4-1-3), the hole (4-1-5) is opened on the step slide block II (4-1-3), the step slide block II (4-1-3) is in sliding connection with the step groove I (4-2), the step sliding block II (4-1-3) is connected with the horizontal sliding chute (4-3) in a sliding way, the hole (4-1-5) is connected with the inner sliding rod (4-6) in a sliding way, and the disk (4-1-1) with the lug is connected with the gear (2-12) with the shaft; the pulling mechanism (4-5) comprises a pulling hydraulic cylinder (4-5-1), a pulling hydraulic rod (4-5-2), a pulling hinging block (4-5-3) and a hinging arm (4-5-4), the pulling hydraulic cylinder (4-5-1) is hinged with the hinging seat (2-1-1), the pulling hydraulic cylinder (4-5-1) is connected with the pulling hydraulic rod (4-5-2), the pulling hydraulic rod (4-5-2) is connected with the pulling hinging block (4-5-3), the pulling hinging block (4-5-3) is hinged with the hinging arm (4-5-4), and the hinging arm (4-5-4) is hinged with the seat body I (4-4).

6. The grinding and cutting integrated device as claimed in claim 3 or 5, wherein: the gear (2-12) with the shaft is provided with a hole matched with the convex block on the disc (4-1-1) with the convex block.

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