CN112589680A - Cutting and polishing integrated device - Google Patents

Abstract

The invention relates to a cutting device, in particular to a cutting and grinding integrated device which comprises a rotary water spraying mechanism, a cutting and grinding actuating mechanism and a mixing and collecting mechanism, wherein the device can cut and grind simultaneously, can ensure the reliability during operation, can be switched to a water adding cutting mode, can provide assistance for the movement of a cutting knife in the water adding cutting mode, can collect water and waste residues and separate the water and the waste residues, can accelerate the discharge of water, and is connected with the cutting and grinding actuating mechanism which is connected with the mixing and collecting mechanism.

Description

Cutting and polishing integrated device

Technical Field

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

Background

In the cutting field, cutting and grinding are usually used in a matched manner to achieve a good processing effect, a traditional cutting device can only cut, the movement of a cutter during cutting is realized through independent power, the movement is not coherent, the grinding is also realized through independent power, the grinding and the cutting of waste residues generated in the cutting process, particularly a water cutting mode, the discharge of waste water and residues is very difficult, and therefore the cutting and grinding integrated device is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing a cutting and polishing integrated device, which can cut and polish while cutting, can ensure the reliability during operation, can be switched to a water adding cutting mode, can provide assistance for the movement of a cutting knife during the water adding cutting mode, can collect water and waste residues and separate the water and the waste residues, and can accelerate the discharge of water.

In order to solve the technical problems, the invention relates to a cutting device, in particular to a cutting and polishing integrated device which comprises a rotary water spraying mechanism, a cutting and grinding executing mechanism and a mixing and collecting mechanism, wherein the device can cut and polish while cutting, can ensure the reliability during operation, can be switched to a water adding cutting mode, can provide assistance for the movement of a cutting knife during the water adding cutting mode, can collect water and waste residues and separate the water and the waste residues, and can accelerate the discharge of water.

The rotary water spraying mechanism is connected with the cutting and grinding actuating mechanism, and the cutting and grinding actuating mechanism is connected with the mixing and collecting mechanism.

As a further optimization of the technical scheme, the rotary water spraying mechanism of the cutting and polishing integrated device comprises a support leg with a seat, a water outlet pipe, an acceleration box, a spraying box with a bearing seat, a water inlet pipe with a flange, a water inlet check valve, a pull pipe, a square column with a matching seat, a reset spring, a cam with a shaft, a belt pulley, a belt pulley with a shaft, a limiting disc, a special-shaped shaft, a piston, an inner cavity, a rotating wheel, a check valve, an L-shaped channel, an ejection hole and an acceleration impeller, wherein the support leg with a seat is connected with the spraying box with a bearing seat, the water outlet pipe is connected and communicated with the acceleration box, the acceleration box is connected with the spraying box with a bearing seat, the water inlet pipe with a flange is communicated with the inner cavity, the inner cavity is arranged in the spraying box with a bearing seat, the water inlet check valve is arranged in the water inlet pipe with a flange, the pull pipe is arranged on the spraying box with the, the pull pipe is connected with the square column with the matching seat in a sliding way, the square column with the matching seat is contacted with the cam with the shaft, the reset spring is sleeved on the square column with the matching seat, two ends of the reset spring are respectively connected with the pull pipe and the square column with the matching seat, the cam with the shaft is rotationally connected with the ejection box with the bearing seat, the cam with the shaft is connected with the belt pulley, the belt pulley is connected with the belt in a friction way, the belt pulley with the shaft is connected with the limiting disc, the limiting disc is connected with the special-shaped shaft, the piston is connected with the square column with the matching seat, the piston is connected with the pull pipe in a sliding way, the accelerating impeller and the rotating wheel are both provided with L-shaped channels, one-way valves are arranged in the L-shaped channels, the belt pulley with the shaft is connected with the rotating wheel, the belt pulley with the ejection box with the bearing seat is rotationally connected, the rotating wheel is arranged in the inner cavity, the, the rotating wheel is rotatably connected with the spraying box with the bearing block.

As a further optimization of the technical scheme, the cutting and grinding execution mechanism of the cutting and grinding integrated device comprises a base, an upper platform, a water flowing groove, a cutter with a shaft, a belt pulley with a groove, a floating belt, a special-shaped bearing seat, a slide bar with a limit head, a matching hole, a spring I, a fixed support, a through hole, a baffle shell, a shaft with a special-shaped hole, a sliding bearing seat with a hole, a step rod, a piston rod, a shaft with a protrusion, a support frame, a cam, a coupler, a driving motor seat, a square column I with a matching seat, a reset spring I, a wheel seat, a rotating wheel with a shaft, an air outlet pipe, a flow distribution box, a wind wheel box, a coupler I, a driving motor I, a connecting bent pipe, a connecting straight pipe, a belt pulley I, a belt pulley with a groove II, an air inlet, a filter plate with a handle, a, the base is connected with the upper platform, the upper platform is provided with a water flowing groove, two sides of the belt shaft cutting knife are provided with belt grooves and belt pulleys, the belt grooves and belt pulleys are in friction connection, the belt shaft cutting knife is rotationally connected with a special-shaped bearing seat, the special-shaped bearing seat is provided with a matching hole, the matching hole is in sliding connection with a sliding rod with a limiting head, the sliding rod with the limiting head is connected with a fixed support, a spring I is sleeved on the sliding rod with the limiting head, two ends of the spring I are connected with a special-shaped bearing seat and the fixed support, a through hole is arranged on a baffle shell, the baffle shell is connected with the fixed support, the through hole is communicated with a water outlet pipe, the water outlet pipe is connected with the baffle shell, the shaft with the special-shaped hole is rotationally connected with the sliding bearing seat with the belt hole, the shaft with the special-shaped, the piston rod is connected with the hydraulic cylinder, the hydraulic cylinder is connected with the support frame, the support frame is connected with the upper platform, the shaft with the bulge is rotatably connected with the support frame, the shaft with the bulge is connected with the cam, the shaft with the bulge is connected with the driving motor through the coupler, the driving motor is connected with the driving motor base, the driving motor base is connected with the support frame, the cam is contacted with the square column I with the matching seat, the reset spring I is sleeved on the square column I with the matching seat, two ends of the reset spring I are respectively connected with the square column I with the matching seat and the support frame, the square hole is arranged on the support frame, the square column I with the matching seat is slidably connected with the square hole, the square column I with the matching seat is connected with the wheel base, the wheel base is rotatably connected with the rotating wheel with the belt shaft, the air outlet pipe is connected and communicated with the flow distribution box, the flow distribution box is communicated with the wind wheel box, driving motor I links to each other with the support frame, it is linked together shunt box and the blowout through-hole that sets up on the retaining shell to connect the straight tube, trough of belt pulley I connects the both sides of taking the axle to rotate the wheel, trough of belt pulley I and floating belt frictional connection, floating belt and trough of belt pulley II frictional connection, trough of belt pulley II sets up on the tape spool negative pressure wind wheel, the air intake sets up on the wind wheel case, take handle filter and wind wheel case sliding connection, circular inner chamber symmetry sets up in the tape spool wheel of polishing, the steel ball sets up in the circular inner chamber of one side.

As a further optimization of the technical scheme, the mixed collecting mechanism of the cutting and polishing integrated device comprises a driving motor II, a coupling II, a stepped transmission shaft, a special-shaped sliding shaft, a vibration spring, a driven disc, a driving pulley seat with a convex sliding block, a liquid outlet pipe, a circular box body, a square box, a door-shaped bearing seat, a driving motor III, an outer blade, a connecting ring, an inner blade, an inner connecting ring, a shunting hole, a cam I, a convex groove, a disc shaft, a through groove, a piston with a circumferential bulge, a grooved shaft I, a side-out accelerating pulley, a sliding fit special-shaped hole and a unthreaded hole, wherein the driving motor II is connected with the stepped transmission shaft through the coupling II, the ladder is rotatably connected with the door-shaped bearing seat of the stepped transmission shaft, the door-shaped bearing seat is connected with the circular box body, the special-shaped sliding shaft is slidably connected with the sliding fit special, the vibrating spring is sleeved on a special-shaped sliding shaft, two ends of the vibrating spring are respectively connected to a stepped transmission shaft and a driven disc, the driven disc is connected with the special-shaped sliding shaft, a driving pulley is in contact with the driven disc, the driving pulley is rotatably connected with a driving pulley seat with a convex slider, a liquid outlet pipe is connected and communicated with a circular box body, the circular box body is connected with a square box, a driving motor II and a driving motor III are both connected with a base, the square box is connected with an upper platform, a water flowing groove is communicated with the square box, the driving motor III is connected with a cam I, the cam I is in contact with a driving pulley seat with a convex slider, the driving pulley seat with a convex slider is in sliding connection with a convex groove, the convex groove is arranged on a door-shaped bearing seat, an outer blade is connected with a connecting ring, the connecting ring is connected with an inner blade, the inner blade is connected with an inner connecting, the belt disc shaft is connected with the protruding piston with the circumference, the protruding piston with the circumference is provided with a through groove, the protruding piston with the circumference is connected with a grooved shaft I in a sliding mode, the grooved shaft I is connected with a square box in a rotating mode, the protruding piston with the circumference is connected with a special-shaped sliding shaft, the special-shaped sliding shaft is connected with a side-out accelerating pulley, the unthreaded hole is formed in the lower end face of a circular box body, and the unthreaded hole is connected with the special-shaped sliding shaft in a sliding mode.

As a further optimization of the technical scheme, the inner wall of the wind wheel box is provided with the wear-resisting plate.

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

according to the cutting and polishing integrated device, the device can cut, can polish while cutting, can ensure the reliability during operation, can be switched to a water adding cutting mode, can provide assistance for the movement of a cutting knife during the water adding cutting mode, can collect water and waste residues, can separate the water and the waste residues, and can accelerate the discharge of water.

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 cutting and polishing integrated device according to the present invention.

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

Fig. 3 is a third schematic structural diagram of an integrated cutting and polishing device according to the present invention.

Fig. 4 is a fourth schematic structural view of the cutting and polishing integrated device of the present invention.

Fig. 5 is a schematic structural diagram of a cutting and polishing integrated device according to a fifth embodiment of the present invention.

Fig. 6 is a first structural schematic diagram of a rotary water spraying mechanism 1 of the cutting and polishing integrated device of the invention.

Fig. 7 is a second structural schematic diagram of the rotary water spraying mechanism 1 of the cutting and polishing integrated device of the invention.

Fig. 8 is a third structural schematic view of the rotary water spraying mechanism 1 of the cutting and polishing integrated device of the invention.

Fig. 9 is a fourth schematic structural view of the rotary water spraying mechanism 1 of the cutting and polishing integrated device of the invention.

Fig. 10 is a fifth structural schematic view of the rotary water spraying mechanism 1 of the cutting and polishing integrated device of the invention.

Fig. 11 is a first structural schematic diagram of a cutting and grinding actuator 2 of an integrated cutting and grinding device according to the present invention.

Fig. 12 is a second schematic structural diagram of a cutting and grinding actuator 2 of the cutting and grinding integrated device of the present invention.

Fig. 13 is a third schematic structural diagram of a cutting and grinding actuator 2 of the cutting and grinding integrated device of the present invention.

Fig. 14 is a fourth schematic structural diagram of a cutting and grinding actuator 2 of the cutting and grinding integrated device of the invention.

Fig. 15 is a fifth structural schematic view of a cutting and grinding actuator 2 of the cutting and grinding integrated device of the invention.

Fig. 16 is a first structural schematic diagram of a mixing and collecting mechanism 3 of an integrated cutting and grinding device according to the present invention.

Fig. 17 is a second structural schematic diagram of the mixing and collecting mechanism 3 of the cutting and polishing integrated device of the invention.

Fig. 18 is a third structural schematic diagram of the mixing and collecting mechanism 3 of the cutting and polishing integrated device of the invention.

Fig. 19 is a fourth schematic structural diagram of the mixing and collecting mechanism 3 of the cutting and polishing integrated device of the invention.

Fig. 20 is a fifth structural schematic diagram of the mixing and collecting mechanism 3 of the cutting and polishing integrated device of the invention.

In the figure: a rotary water spraying mechanism 1; a support leg with a seat 1-1; a water outlet pipe 1-2; 1-3 of an acceleration box; ejecting the box 1-4 with a bearing seat; 1-5 of a water inlet pipe with a flange; 1-6 of a water inlet one-way valve; 1-7 parts of a pull pipe; 1-8 of square column with matching base; 1-9 of a return spring; 1-10 of cam with shaft; 1-11 of belt pulleys; 1-12 parts of a belt; belt pulley 1-13 with shaft; 1-14 parts of a limiting disc; a profile shaft 1-15; pistons 1-16; 1-17 of inner cavity; rotating wheels 1-18; 1-19 of a one-way valve; 1-20L-shaped channels; ejection holes 1-21; 1-22 of an accelerating impeller; a cutting and grinding actuating mechanism 2; a base 2-1; an upper platform 2-2; 2-3 of a launder; 2-4 of a cutter with a shaft; 2-5 belt pulleys with grooves; 2-6 parts of a floating belt; 2-7 of a special-shaped bearing seat; 2-8 of sliding rod with a limiting head; 2-9 of a matching hole; a spring I2-10; 2-11 parts of fixed support; 2-12 of a through hole; 2-13 parts of a blocking shell; 2-14 of a shaft with special-shaped holes; a sliding bearing seat with a hole 2-15; step bars 2-16; a piston rod 2-17; 2-18 of a shaft with a bulge; 2-19 of a support frame; 2-20 parts of a cam; 2-21 of a coupler; driving motors 2-22; 2-23 of a driving motor base; square columns I2-24 with matching seats; a return spring I2-25; 2-26 of wheel seat; grinding wheel with shaft 2-27; 2-28 of an air outlet pipe; 2-29 parts of a flow dividing box; 2-30 parts of a wind wheel box; a coupler I2-31; driving motors I2-32; connecting bent pipes 2-33; connecting the straight pipes 2 to 34; grooved pulleys I2-35; grooved pulleys II 2-36; 2-37 of an air inlet; 2-38 of filter plate with handle; 2-39 of square holes; 2-40 parts of a circular inner cavity; 2-41 steel balls; 2-42 of negative pressure wind wheel with shaft; hydraulic cylinders 2-43; ejection through holes 2 to 44; a mixing and collecting mechanism 3; driving a motor II 3-1; a coupler II 3-2; 3-3 of a stepped transmission shaft; 3-4 of a special-shaped sliding shaft; 3-5 of a vibration spring; 3-6 parts of a passive disc; driving pulleys 3-7; driving pulley seats with convex sliding blocks 3-8; 3-9 parts of a liquid outlet pipe; 3-10 parts of a circular box body; 3-11 parts of a square box; 3-12 of a door-shaped bearing seat; driving a motor III 3-13; 3-14 parts of outer blades; 3-15 parts of a connecting ring; 3-16 parts of inner blades; 3-17 parts of an inner connecting ring; 3-18 parts of shunt holes; cams I3-19; 3-20 parts of convex groove; 3-21 of a belt disc shaft; through grooves 3-22; 3-23 of a piston with a circumferential bulge; grooved shafts I3-24; 3-25 of a lateral-out accelerating wheel; the special-shaped holes 3-26 are in sliding fit; and 3-27 of light holes.

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, and fig. 20, and the present invention relates to a cutting device, and more specifically, to a cutting and polishing integrated device, which includes a rotary water spraying mechanism 1, a cutting and polishing executing mechanism 2, and a mixing and collecting mechanism 3, and which is capable of cutting and polishing at the same time, ensuring reliability during operation, switching the device to a water-adding cutting mode, providing assistance to movement of a cutting knife in the water-adding cutting mode, collecting water and waste residues, and separating the water and the waste residues, and accelerating discharge of water.

The rotary water spraying mechanism 1 is connected with the cutting and grinding actuating mechanism 2, and the cutting and grinding actuating mechanism 2 is connected with the mixing and collecting mechanism 3.

The second embodiment is as follows:

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, fig. 19, and fig. 20. the embodiment further describes the first embodiment, and the rotary water spray mechanism 1 includes a support leg with a seat 1-1, a water outlet pipe 1-2, an acceleration box 1-3, a spray box with a bearing seat 1-4, a water inlet pipe with a flange 1-5, a water inlet check valve 1-6, a pull pipe 1-7, a square column with a matching seat 1-8, a return spring 1-9, a cam with a shaft 1-10, a belt pulley 1-11, a belt 1-12, a belt pulley with a shaft 1-13, a limit disc 1-14, a special shaft 1-15, a piston 1-16, a piston 1, An inner cavity 1-17, a rotating wheel 1-18, a one-way valve 1-19, an L-shaped channel 1-20, an ejection hole 1-21, an accelerating impeller 1-22, a landing leg 1-1 with a seat is connected with an ejection box 1-4 with a bearing seat, a water outlet pipe 1-2 is connected and communicated with the accelerating box 1-3, the accelerating box 1-3 is connected with the ejection box 1-4 with the bearing seat, a water inlet pipe 1-5 with a flange is communicated with the inner cavity 1-17, the inner cavity 1-17 is arranged in the ejection box 1-4 with the bearing seat, a water inlet one-way valve 1-6 is arranged in the water inlet pipe 1-5 with the flange, a drawing pipe 1-7 is arranged on the ejection box 1-4 with the bearing seat and is communicated with the inner cavity 1, a pull pipe 1-7 is connected with a square column 1-8 with a matching seat in a sliding way, the square column 1-8 with the matching seat is contacted with a cam 1-10 with a shaft, a reset spring 1-9 is sleeved on the square column 1-8 with the matching seat, two ends of the reset spring 1-9 are respectively connected with the pull pipe 1-7 and the square column 1-8 with the matching seat, the cam 1-10 with the shaft is rotationally connected with a spraying box 1-4 with a bearing seat, the cam 1-10 with the shaft is connected with a belt pulley 1-11, the belt pulley 1-11 is connected with a belt 1-12 in a friction way, the belt 1-12 is connected with a belt pulley 1-13 with the shaft, the belt pulley 1-13 with the shaft is connected with a limiting disc 1-14, the limiting disc 1-14 is connected with a special-shaped shaft 1-15, a piston 1-16 is connected with the square column 1-8 with the, a piston 1-16 is connected with a drawing pipe 1-7 in a sliding way, an accelerating impeller 1-22 and a rotating wheel 1-18 are respectively provided with an L-shaped channel 1-20, the L-shaped channel 1-20 is internally provided with a one-way valve 1-19, a belt pulley 1-13 with a shaft is connected with the rotating wheel 1-18, the belt pulley 1-13 with the shaft is connected with a spraying box 1-4 with a bearing seat in a rotating way, the rotating wheel 1-18 is arranged in an inner cavity 1-17, a spraying hole 1-21 is arranged on the accelerating impeller 1-22, the spraying hole 1-21 is communicated with the L-shaped channel 1-20, the accelerating impeller 1-22 is connected with the rotating wheel 1-18, the rotating wheel 1-18 is connected with the spraying box 1-4 with the bearing seat in a rotating way, when water is needed to be added for cutting, a hydraulic cylinder 2-43 drives a piston rod 2-17 to, the sliding bearing seat 2-15 with the hole can drive the shaft 2-14 with the special-shaped hole to move, the shaft 2-18 with the convex hole is inserted into the hole of the shaft 2-14 with the special-shaped hole, simultaneously, the shaft 2-14 with the special-shaped hole is not disconnected with the shaft 1-15, the device is provided with a flange water inlet pipe 1-5 external water pipe before use, a driving motor 2-22 is operated to drive a coupler 2-21 to rotate, the coupler 2-21 can drive the shaft 2-18 with the convex hole to rotate, the shaft 2-18 with the convex hole can drive the shaft 1-15 to rotate through the shaft 2-14 with the special-shaped hole, the shaft 1-15 with the special-shaped hole can drive a shaft cam 1-10 to rotate through a limiting disc 1-14, a shaft belt pulley 1-13 with the shaft, a belt 1-12 and a belt pulley, the cam with the shaft 1-10 can drive the square column with the matching seat 1-8 to reciprocate up and down through the matching of the return spring 1-9, the square column with the matching seat 1-8 can drive the piston 1-16 to reciprocate up and down, the piston 1-16 can pressurize the water prestored in the inner cavity 1-17 when moving downwards, the water can flush the check valve 1-19 to enter the L-shaped channel 1-20 and then be sprayed out from the spraying hole 1-21, the belt pulley with the shaft 1-13 can drive the accelerating impeller 1-22 to rotate through the rotating wheel 1-18 in the process, the accelerating impeller 1-22 can accelerate the rotation of the sprayed water, then the water is sprayed out from the water outlet pipe 1-2 to be sprayed onto the rotating belt shaft 2-4, so that the cutting knife can play a better cooling water cutting role under the condition that the sprayed water quantity is less, when the piston 1-16 moves upwards, water of the water inlet pipe 1-5 with the flange and an external water pipe can flush the water inlet one-way valve 1-6 to be supplemented into the inner cavity 1-17, so that water can be supplemented continuously, water can be sprayed continuously, the speed of water is accelerated, and if some mixing agent is required in water, the rotating wheel 1-18 can play a role in stirring in rotation.

The third concrete implementation mode:

the cutting and grinding actuator 2 comprises a base 2-1, an upper platform 2-2, a water flowing groove 2-3, a cutter with a shaft 2-4, a belt pulley 2-5, a floating belt 2-6, a special-shaped bearing seat 2-7, a sliding rod with a limiting head 2-8, a matching hole 2-9, a spring I2-10, a fixed support 2-11, a through hole 2-12, a baffle shell 2-13, a shaft with a special-shaped hole 2-14, a sliding bearing seat with a hole 2-15, a rod 2-16, a stepped hole shaft 2-14, a sliding bearing seat with a hole 2-15, a cutting head 2-8, a matching hole 2-9, a spring I2-10, a fixed support 2-11, a through hole 2-12, a baffle shell 2-13, a shaft with a stepped hole 2-14, a sliding bearing seat with a hole 2-15, a cutting head 2-16, a cutting head 2-2, a cutting head 2, 2-17 parts of piston rod, 2-18 parts of shaft with protrusion, 2-19 parts of support frame, 2-20 parts of cam, 2-21 parts of coupling, 2-22 parts of driving motor, 2-23 parts of driving motor base, square column I2-24 parts with matching base, I2-25 parts of return spring, 2-26 parts of wheel base, 2-27 parts of grinding wheel with shaft, 2-28 parts of air outlet pipe, 2-29 parts of flow dividing box, 2-30 parts of wind wheel box, I2-31 parts of coupling, I2-32 parts of driving motor, 2-33 parts of connecting bent pipe, 2-34 parts of connecting straight pipe, I2-35 parts of belt grooved pulley, II2-36 parts of belt grooved pulley, 2-37 parts of air inlet, 2-38 parts of filter plate with handle, 2-39 parts of square hole, 2-40 parts of circular inner cavity, 2-41 parts of steel ball, 2-, A spraying through hole 2-44, a base 2-1 is connected with an upper platform 2-2, a water flowing groove 2-3 is arranged on the upper platform 2-2, belt pulleys 2-5 with grooves are arranged on two sides of a cutting knife 2-4 with a shaft, the belt pulleys 2-5 with grooves are connected with a floating belt 2-6 in a friction mode, the cutting knife 2-4 with the shaft is connected with a special-shaped bearing seat 2-7 in a rotating mode, a matching hole 2-9 is arranged on the special-shaped bearing seat 2-7, the matching hole 2-9 is connected with a sliding rod 2-8 with a limiting head in a sliding mode, the sliding rod 2-8 with the limiting head is connected with a fixed support 2-11, a spring I2-10 is sleeved on the sliding rod 2-8 with the limiting head, two ends of the spring I2-10 are connected to the special-shaped bearing seat 2-7 and the fixed support 2, the baffle shell 2-13 is connected with the fixed support 2-11, the through hole 2-12 is communicated with the water outlet pipe 1-2, the water outlet pipe 1-2 is connected with the baffle shell 2-13, the shaft 2-14 with the special-shaped hole is rotationally connected with the sliding bearing seat 2-15 with the hole, the shaft 2-14 with the special-shaped hole is slidably connected with the special-shaped shaft 1-15, the sliding bearing seat 2-15 with the hole is slidably connected with the step rod 2-16, the step rod 2-16 is connected with the support frame 2-19, the sliding bearing seat 2-15 with the hole is connected with the piston rod 2-17, the piston rod 2-17 is slidably connected with the support frame 2-19, the piston rod 2-17 is connected with the hydraulic cylinder 2-43, the hydraulic cylinder 2-43 is connected with the support frame 2-19, the belt convex shaft 2-18 is rotationally connected with a support frame 2-19, the belt convex shaft 2-18 is connected with a cam 2-20, the belt convex shaft 2-18 is connected with a driving motor 2-22 through a coupler 2-21, the driving motor 2-22 is connected with a driving motor base 2-23, the driving motor base 2-23 is connected with the support frame 2-19, the cam 2-20 is contacted with a belt matching seat square column I2-24, a return spring I2-25 is sleeved on the belt matching seat square column I2-24, two ends of the return spring I2-25 are respectively connected with the belt matching seat square column I2-24 and the support frame 2-19, the square hole 2-39 is arranged on the support frame 2-19, the belt matching seat square column I2-24 is connected with the square hole 2-39 in a sliding way, the belt matching seat square column I2-24 is connected with a wheel seat 2-26, the wheel seat 2-26 is rotationally connected with a belt shaft grinding wheel 2-27, the air outlet pipe 2-28 is connected and communicated with a shunt box 2-29, the shunt box 2-29 is communicated with a wind wheel box 2-30 through a connecting elbow pipe 2-33, the wind wheel box 2-30 is connected with an upper platform 2-2, a driving motor I2-32 is connected with a belt shaft negative pressure wind wheel 2-42 through a coupling I2-31, a driving motor I2-32 is connected with a support frame 2-19, a connecting straight pipe 2-34 is used for communicating the shunt box 2-29 with a spraying through hole 2-44 arranged on a baffle shell 2-13, belt pulleys I2-35 are connected with two sides of the belt shaft grinding wheel 2-27, the belt pulleys I2-35 are in friction connection with a floating belt 2-6, the floating belt 2-6 is in friction connection with belt pulleys II2-36, the belt groove belt pulley II2-36 is arranged on the belt shaft negative pressure wind wheel 2-42, the air inlet 2-37 is arranged on the wind wheel box 2-30, the filter plate 2-38 with the handle is connected with the wind wheel box 2-30 in a sliding way, the circular inner cavity 2-40 is symmetrically arranged in the belt shaft grinding wheel 2-27, the steel ball 2-41 is arranged in the circular inner cavity 2-40 at one side, the driving motor I2-32 operates to drive the coupler I2-31 to rotate, the coupler I2-31 drives the belt shaft negative pressure wind wheel 2-42 to rotate, the belt shaft negative pressure wind wheel 2-42 drives the belt groove belt pulley II2-36 to rotate, the belt groove belt pulley II2-36 drives the belt groove belt pulley 2-5 to rotate through the floating belt 2-6, the belt groove belt pulley 2-5 drives the belt shaft cutting knife 2-4 to rotate, the belt shaft cutting knife 2-4 can rotate to cut, the floating belt 2-6 can drive the belt groove belt pulley I2-35 to rotate at the same time, the belt groove belt pulley I2-35 can drive the belt shaft grinding wheel 2-27 to rotate, when the belt shaft grinding wheel 2-27 rotates, the steel ball 2-41 can be always kept at the outer edge of the circular inner cavity 2-40 due to the action of centrifugal force, so that the quality of the belt shaft grinding wheel 2-27 is uneven, thereby achieving the purposes that the circular appearance does not occupy large area and simultaneously forms polarization force, the polarization force can drive the belt shaft grinding wheel 2-27 to move downwards, the belt shaft grinding wheel 2-27 can drive the wheel seat 2-26 to move downwards, the wheel seat 2-26 moves downwards, the return spring I2-25 is compressed through the belt mating seat square column I2-24, and when the wheel seat 2-26 moves downwards, the compressed spring I2-10 is released to drive the special-shaped bearing seat 2-7 to move towards the direction far away from the flow dividing box 2-29, the special-shaped bearing seat 2-7 is driven to drive the belt shaft cutting knife 2-4 to move, so that the floating belt 2-6 is always kept in a tensioned state to ensure the effective transmission of power, then the pulley seat 2-26 is reset upwards under the polarization force and the rebound action of the reset spring I2-25, the belt groove belt pulley I2-35 moves along with the pulley seat to play a certain pulling role on the floating belt 2-6, so that the floating belt 2-6 pulls the belt groove belt pulley 2-5, the belt groove belt pulley 2-5 drives the special-shaped bearing seat 2-7 to compress the spring I2-10, and the floating belt 2-6 is always kept in a tensioned state, in such a way, the special-shaped bearing seats 2-7 can drive the belt shaft cutting knife 2-4 to do reciprocating linear motion while the floating belts 2-6 ensure effective power transmission, so that reciprocating cutting action of the belt shaft cutting knife 2-4 is realized without an additional motor, the belt shaft polishing wheel 2-27 keeps up-and-down reciprocating motion during rotation, an object to be polished can be placed on the motion track of the belt shaft polishing wheel 2-27, polishing is performed, and the defect that the polishing wheel is driven to move by the additional motor in the traditional polishing way is also overcome; the device can ensure the reliability in operation, negative pressure can be formed when the negative pressure wind wheel 2-42 with the shaft rotates, waste slag generated by cutting is sucked into the shunt box 2-29 from the ejection through hole 2-44 and the connection straight pipe 2-34, waste slag generated by grinding is sucked into the shunt box 2-29 from the air outlet pipe 2-28 and then enters the wind wheel box 2-30 through the connection bent pipe 2-33, then is filtered by the filter plate 2-38 with the handle and then is discharged from the air inlet 2-37, the heat generated by cutting and grinding is taken away in the process, when the device is in a water adding cutting mode, the motor I2-32 can be driven to rotate reversely, so that the wind power of the negative pressure wind wheel 2-42 with the shaft is reversely turned to form reverse wind power, air is filtered by the filter plate 2-38 with the handle and then enters the shunt box 2-29 through the connection bent pipe 2-33 after being filtered by the filter plate 2-38 with the handle Part of wind blows to the belt shaft cutting knife 2-4 from the spraying through hole 2-44 to play a role of cooling, part of wind blows to the belt shaft grinding wheel 2-27 from the wind outlet pipe 2-28 to play a role of cooling, the reliability is also ensured, but water vapor generated in water adding cutting cannot be sucked into the wind wheel box 2-30, the belt protrusion shaft 2-18 can drive the cam 2-20 to rotate when rotating, the cam 2-20 can be matched with the reset spring I2-25 to drive the belt matching seat square column I2-24 to reciprocate up and down, the belt matching seat square column I2-24 can drive the wheel seat 2-26 and the belt shaft grinding wheel 2-27 to reciprocate up and down, in this way, the belt shaft grinding wheel 2-27 carries out up and down reciprocating motion under the dual driving of the deflection force and the cam 2-20, so that the belt floating 2-6 transmits the force to the belt groove belt pulley 2-5 and the belt shaft cutting knife 2-20 4, a special bearing seat 2-7, which makes the power of the reciprocating motion of the cutting knife with shaft 2-4 in the water adding mode stronger.

The fourth 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, fig. 19, and fig. 20, and is further described in the present embodiment, where the hybrid collecting mechanism 3 includes a driving motor II3-1, a coupling II3-2, a stepped transmission shaft 3-3, a profiled sliding shaft 3-4, a vibrating spring 3-5, a driven disk 3-6, a driving pulley 3-7, a driving pulley seat 3-8 with a convex slider, a liquid outlet pipe 3-9, a circular box 3-10, a square box 3-11, a gate-shaped bearing seat 3-12, a driving motor III3-13, an outer blade 3-14, a connecting ring 3-15, an inner blade 3-16, an outer blade 3-10, a square box, 3-17 parts of an inner connecting ring, 3-18 parts of a diversion hole, 3-19 parts of a cam I3-19 part of a convex groove 3-20 part of a disc shaft 3-21 part of a through groove 3-22 part of a piston with a circumferential bulge 3-23 part of a disc, a grooved shaft I3-24 part of a grooved shaft, 3-25 parts of a lateral-out accelerating pulley, 3-26 parts of a sliding fit special-shaped hole and 3-27 parts of a unthreaded hole, a driving motor II3-1 is connected with a stepped transmission shaft 3-3 through a coupling II3-2 part of the stepped transmission shaft 3-3 is rotationally connected with a door type bearing seat 3-12 part of the stepped transmission shaft, 3-12 parts of the door type bearing seat is connected with a round box body 3-10 part of the box body, a special-shaped sliding shaft 3-4 is connected with the sliding fit special-shaped hole 3-26 part of the sliding fit, two ends of a vibration spring 3-5 are respectively connected to a stepped transmission shaft 3-3 and a driven disc 3-6, the driven disc 3-6 is connected with a special-shaped sliding shaft 3-4, a driving pulley 3-7 is contacted with the driven disc 3-6, the driving pulley 3-7 is rotatably connected with a driving pulley seat 3-8 with a convex slider, a liquid outlet pipe 3-9 is connected and communicated with a circular box body 3-10, the circular box body 3-10 is connected with a square box 3-11, a driving motor II3-1 and a driving motor III3-13 are both connected with a base 2-1, the square box 3-11 is connected with an upper platform 2-2, a water flowing groove 2-3 is communicated with the square box 3-11, a driving motor III3-13 is connected with a cam I3-19, the cam I3-19 is contacted with a driving pulley seat 3-8 with a convex slider, the drive pulley seat 3-8 with the convex sliding block is connected with the convex groove 3-20 in a sliding way, the convex groove 3-20 is arranged on a door-shaped bearing seat 3-12, the outer blade 3-14 is connected with the connecting ring 3-15, the connecting ring 3-15 is connected with the inner blade 3-16, the inner blade 3-16 is connected with the inner connecting ring 3-17, the inner connecting ring 3-17 is provided with a shunt hole 3-18, the inner connecting ring 3-17 is connected with a belt disc shaft 3-21, the belt disc shaft 3-21 is connected with a piston 3-23 with a circumferential bulge, the piston 3-23 with the circumferential bulge is provided with a through groove 3-22, the piston 3-23 with the circumferential bulge is connected with a groove shaft I3-24 in a sliding way, the belt groove shaft I3-24 is connected with a square box 3-11 in a rotating way, the piston 3-23 with a special-shaped circumferential bulge is connected with a sliding shaft 3, the special-shaped sliding shaft 3-4 is connected with the side-out accelerating pulley 3-25, the unthreaded hole 3-27 is arranged on the lower end face of the round box body 3-10, the unthreaded hole 3-27 is connected with the special-shaped sliding shaft 3-4 in a sliding way, the driving motor II3-1 and the driving motor III3-13 are synchronously operated, the driving motor II3-1 can drive the step transmission shaft 3-3 to rotate through the coupler II3-2, the step transmission shaft 3-3 can drive the special-shaped sliding shaft 3-4 to rotate, the special-shaped sliding shaft 3-4 can drive the piston 3-23 with the circumferential bulge to rotate, the piston 3-23 with the circumferential bulge can drive the belt disc shaft 3-21 to rotate, the belt disc shaft 3-21 can drive the outer blade 3-14, the connecting ring 3-15, the inner blade 3-16 and the inner connecting ring 3-17 to rotate, the outer blades 3-14 and the inner blades 3-16 can form downward wind power, the mixture of waste slag and water is sucked into a circular container formed by the inner connecting ring 3-17 and the belt disc shaft 3-21 from the water flowing groove 2-3, the slag can be left in the circular container, the water can be thrown out from the diversion holes 3-18 onto the connecting ring 3-15 under the action of rotating centrifugal force and then accelerated to move downwards under the action of downward acting force formed by the inner blades 3-16, if the water is excessive, the outer blades 3-14 and the inner blades 3-16 can form downward driving force to the water, so that the water is accelerated to flow downwards, the water enters the circular box body 3-10 from the through grooves 3-22 and then is discharged from the liquid outlet pipe 3-9, the driving motor III3-13 can drive the cam I3-19 to rotate, and the cam I3-19 can drive the pulley seat 3-8, the pulley seat through the convex slider, The driving pulley 3-7 drives the driven disc 3-6 to move downwards, the driven disc 3-6 can compress the vibration spring 3-5, then the driven disc 3-6 can reset along with the rebound of the vibration spring 3-5, the driven disc 3-6 can drive the special-shaped sliding shaft 3-4 to reciprocate up and down, so that the piston 3-23 with the circular bulge can reciprocate up and down, when the piston 3-23 with the circular bulge and the through groove 3-22 reciprocate up and down, the normal water flow downward movement speed and the water pressure can form larger downward attraction force, so that the water outflow is accelerated, the lateral outflow accelerating wheels 3-25 rotate along with the special-shaped sliding shaft 3-4 and reciprocate up and down, so that the water can be accelerated to flow out from the liquid outlet pipe 3-9 again, the occurrence of blockage is prevented to a great extent.

The fifth concrete implementation mode:

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, and fig. 20, and the present embodiment further describes the first embodiment, in which the wear-resistant plates are disposed on the inner walls of the wind turbine boxes 2 to 30.

The working principle of the device is as follows: the device can carry out cutting, the driving motor I2-32 runs to drive the shaft coupling I2-31 to rotate, the shaft coupling I2-31 can drive the belt shaft negative pressure wind wheel 2-42 to rotate, the belt shaft negative pressure wind wheel 2-42 can drive the belt trough belt pulley II2-36 to rotate, the belt trough belt pulley II2-36 can drive the belt trough belt pulley 2-5 to rotate through the floating belt 2-6, the belt trough belt pulley 2-5 can drive the belt shaft cutting knife 2-4 to rotate, the belt shaft cutting knife 2-4 can carry out cutting, the floating belt 2-6 can drive the belt trough belt pulley I2-35 to rotate at the same time, the belt trough belt pulley I2-35 can drive the belt shaft grinding wheel 2-27 to rotate, when the belt shaft grinding wheel 2-27 rotates, the steel balls 2-41 can be always kept at the outer edge of the circular inner cavity 2-40 due to the effect of centrifugal force, so that the belt shaft grinding wheel 2-27 has uneven quality, thereby achieving the effect that the circular appearance does not occupy a large area and simultaneously forms a polarization force, the polarization force can drive the belt shaft grinding wheel 2-27 to move downwards, the belt shaft grinding wheel 2-27 can drive the wheel seat 2-26 to move downwards, the wheel seat 2-26 can move downwards to compress a return spring I2-25 through a square column I2-24 with a matching seat, when the wheel seat 2-26 moves downwards, a compressed spring I2-10 can be released to drive the special-shaped bearing seat 2-7 to move towards the direction far away from the flow distribution box 2-29, the special-shaped bearing seat 2-7 can be driven to drive the belt shaft cutting knife 2-4 to move, so that the floating belt 2-6 can always keep a tensioned state, the effective transmission of power is ensured, and then under the action of the polarization force and the rebound action of the return spring I2-25, the pulley seat 2-26 is reset upwards, the belt grooved pulley I2-35 moves along with the pulley seat to play a certain pulling role on the floating belt 2-6, so that the floating belt 2-6 pulls the belt grooved pulley 2-5, the belt grooved pulley 2-5 drives the special-shaped bearing seat 2-7 to compress the spring I2-10, and the floating belt 2-6 is always kept in a tensioned state, and in such a way, the special-shaped bearing seat 2-7 can drive the belt shaft cutting knife 2-4 to do reciprocating linear motion while the floating belt 2-6 ensures effective power transmission, so that the reciprocating cutting action of the belt shaft cutting knife 2-4 is realized without an additional motor; the device can cut and simultaneously polish, the belt shaft polishing wheel 2-27 keeps reciprocating up and down when rotating, and an object to be polished can be placed on the motion track of the belt shaft polishing wheel 2-27, so that the polishing effect is realized, and the defect that an additional motor is needed to drive the polishing wheel to move in the traditional polishing mode is also overcome; the device can ensure the reliability in operation, negative pressure can be formed when the negative pressure wind wheel 2-42 with the shaft rotates, waste slag generated by cutting is sucked into the shunt box 2-29 from the ejection through hole 2-44 and the connection straight pipe 2-34, waste slag generated by grinding is sucked into the shunt box 2-29 from the air outlet pipe 2-28 and then enters the wind wheel box 2-30 through the connection bent pipe 2-33, then is filtered by the filter plate 2-38 with the handle and then is discharged from the air inlet 2-37, the heat generated by cutting and grinding is taken away in the process, when the device is in a water adding cutting mode, the motor I2-32 can be driven to rotate reversely, so that the wind power of the negative pressure wind wheel 2-42 with the shaft is reversely turned to form reverse wind power, air is filtered by the filter plate 2-38 with the handle and then enters the shunt box 2-29 through the connection bent pipe 2-33 after being filtered by the filter plate 2-38 with the handle Part of wind blows to the belt shaft cutting knife 2-4 from the spraying through hole 2-44 to play a role of cooling, and part of wind blows to the belt shaft grinding wheel 2-27 from the wind outlet pipe 2-28 to play a role of cooling, so that the reliability is ensured, but the water vapor generated during water adding cutting can not be sucked into the wind wheel box 2-30; the device can be switched to a water adding cutting mode, when water is required to be added for cutting, the hydraulic cylinder 2-43 drives the piston rod 2-17 to pull the perforated sliding bearing seat 2-15, the perforated sliding bearing seat 2-15 can drive the shaft with the special-shaped hole 2-14 to move, the shaft with the boss 2-18 is inserted into the hole of the shaft with the special-shaped hole 2-14, the shaft with the special-shaped hole 2-14 is not disconnected with the shaft with the special-shaped hole 1-15, the device uses the external water pipe of the flange water inlet pipe 1-5 before use, the driving motor 2-22 is operated to drive the shaft coupling 2-21 to rotate, the shaft coupling 2-21 can drive the shaft with the boss 2-18 to rotate, the shaft with the boss 2-18 can drive the shaft with the special-shaped hole 1-15 to rotate through the shaft with the special-shaped hole 2, The belt shaft belt pulley 1-13, the belt 1-12 and the belt pulley 1-11 drive the belt shaft cam 1-10 to rotate, the belt shaft cam 1-10 can drive the belt matching seat square column 1-8 to reciprocate up and down through the matching of the reset spring 1-9, the belt matching seat square column 1-8 can drive the piston 1-16 to reciprocate up and down, the piston 1-16 can pressurize the pre-stored water in the inner cavity 1-17 when moving down, the water can flush the one-way valve 1-19 to enter the L-shaped channel 1-20 and then be sprayed out from the spraying hole 1-21, the belt shaft belt pulley 1-13 can drive the accelerating impeller 1-22 to rotate through the rotating wheel 1-18 in the process, the accelerating impeller 1-22 can accelerate the rotation of the sprayed water, and then the water is accelerated to be sprayed out from the water outlet pipe 1-2, the water is sprayed onto the rotating shaft cutting knife 2-4, so that a better cooling water cutting effect can be achieved under the condition that the sprayed water amount is less, when the piston 1-16 moves upwards, water of the flanged water inlet pipe 1-5, which is externally connected with a water pipe, can flush the water inlet check valve 1-6 to be supplemented into the inner cavity 1-17, so that water can be supplemented continuously and sprayed continuously, the speed of the water is accelerated, and if the water needs to be provided with a certain mixing agent, the rotating wheel 1-18 can also play a role in stirring in the rotation; the device can provide assistance for the movement of the cutting knife in a water adding cutting mode, the cam 2-20 can be driven to rotate by the shaft with the bulge 2-18 when rotating, the cam 2-20 can be matched with the reset spring I2-25 to drive the square column I2-24 with the matching seat to reciprocate up and down, the square column I2-24 with the matching seat can drive the wheel seat 2-26 and the grinding wheel 2-27 with the shaft to reciprocate up and down, in this way, the belt shaft grinding wheel 2-27 performs up-and-down pair motion under the dual drive of the biasing force and the cam 2-20, thereby the floating belt 2-6 transmits the force to the grooved belt pulley 2-5, the belt shaft cutting knife 2-4 and the special-shaped bearing seat 2-7, therefore, the power of the reciprocating motion of the belt shaft cutting knife 2-4 in the water adding mode is stronger; the device can collect water and waste residues and separate the water and the waste residues, synchronously operates a driving motor II3-1 and a driving motor III3-13, the driving motor II3-1 can drive a stepped transmission shaft 3-3 to rotate through a coupler II3-2, the stepped transmission shaft 3-3 can drive a special-shaped sliding shaft 3-4 to rotate, the special-shaped sliding shaft 3-4 can drive a piston 3-23 with a circumferential bulge to rotate, the piston 3-23 with the circumferential bulge can drive a belt disc shaft 3-21 to rotate, the belt disc shaft 3-21 can drive an outer blade 3-14, a connecting ring 3-15, an inner blade 3-16 and an inner connecting ring 3-17 to rotate, the outer blade 3-14 and the inner blade 3-16 can form downward wind power, and a mixture of the waste residues and the water is sucked into a circular container formed by the inner connecting ring 3-17 and the belt disc shaft 3-21 from a water flowing groove 2-3, dregs can be left in the circular container, water can be thrown out from the diversion holes 3-18 to the connecting rings 3-15 under the action of rotating centrifugal force and then accelerated to move downwards under the action of downward acting force formed by the inner blades 3-16, if water is excessive, the outer blades 3-14 and the inner blades 3-16 form downward driving force to the water, the water is accelerated to flow downwards, the water enters the circular box body 3-10 from the through grooves 3-22 and then is discharged from the liquid outlet pipe 3-9, the driving motor III3-13 can drive the cam I3-19 to rotate, the cam I3-19 can drive the pulley seat 3-8 and the driving pulley 3-7 to drive the driven disc 3-6 to move downwards, the driven disc 3-6 can compress the vibrating spring 3-5 and then rebound along with the vibrating spring 3-5, the driven disc 3-6 can reset, the driven disc 3-6 can drive the special-shaped sliding shaft 3-4 to reciprocate up and down, so that the piston 3-23 with the circumferential protrusion can reciprocate up and down, and when the piston 3-23 with the circumferential protrusion and the through groove 3-22 reciprocate up and down, a larger downward attraction force can be formed by matching with water pressure while the normal water flow moves downward, so that the water outflow is accelerated; the device can accelerate the discharge of water, and the side-out accelerating wheels 3-25 rotate along with the special-shaped sliding shafts 3-4 and reciprocate up and down, so that the water can be accelerated in a rotating manner, the water flows out from the liquid outlet pipes 3-9 in an accelerating manner, and the blockage is prevented to the greatest extent.

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 (5)

1. The utility model provides an integrative device is polished in cutting, includes rotatory water spray mechanism (1), cutting and grinds actuating mechanism (2), mixes and collects mechanism (3), its characterized in that: the rotary water spraying mechanism (1) is connected with the cutting and grinding actuating mechanism (2), and the cutting and grinding actuating mechanism (2) is connected with the mixing and collecting mechanism (3).

2. The cutting and grinding integrated device as claimed in claim 1, wherein: the rotary water spraying mechanism (1) comprises supporting legs (1-1) with seats, a water outlet pipe (1-2), an acceleration box (1-3), a spraying box (1-4) with bearings, a water inlet pipe (1-5) with flanges, a water inlet check valve (1-6), a drawing pipe (1-7), a square column (1-8) with a matching seat, a reset spring (1-9), a cam (1-10) with a shaft, belt pulleys (1-11), a belt (1-12), a belt pulley (1-13) with a shaft, a limiting disc (1-14), a special-shaped shaft (1-15), a piston (1-16), an inner cavity (1-17), a rotating wheel (1-18), a check valve (1-19), an L-shaped channel (1-20), a spraying hole (1-21), An accelerating impeller (1-22), a landing leg (1-1) with a seat is connected with a spraying box (1-4) with a bearing seat, a water outlet pipe (1-2) is connected and communicated with the accelerating box (1-3), the accelerating box (1-3) is connected with the spraying box (1-4) with the bearing seat, a water inlet pipe (1-5) with a flange is communicated with an inner cavity (1-17), the inner cavity (1-17) is arranged in the spraying box (1-4) with the bearing seat, a water inlet check valve (1-6) is arranged in the water inlet pipe (1-5) with the flange, a drawing pipe (1-7) is arranged on the spraying box (1-4) with the bearing seat and communicated with the inner cavity (1-17), the drawing pipe (1-7) is connected with a square column (1-8) with a matching seat in a sliding way, a square column (1-8) with a matching seat is contacted with a cam (1-10) with a shaft, a reset spring (1-9) is sleeved on the square column (1-8) with the matching seat, two ends of the reset spring (1-9) are respectively connected with a pull pipe (1-7) and the square column (1-8) with the matching seat, the cam (1-10) with the shaft is rotationally connected with a spraying box (1-4) with the shaft seat, the cam (1-10) with the shaft is connected with a belt pulley (1-11), the belt pulley (1-11) is in friction connection with a belt (1-12), the belt (1-12) is in friction connection with a belt pulley (1-13) with the shaft, the belt pulley (1-13) with the shaft is connected with a limiting disc (1-14), the limiting disc (1-14) is connected with a special-shaped shaft (1-15), the piston (1-16) is connected with a square column (1-8) with a matching seat, the piston (1-16) is connected with a pull pipe (1-7) in a sliding way, the accelerating impeller (1-22) and the rotating wheel (1-18) are respectively provided with an L-shaped channel (1-20), the L-shaped channel (1-20) is internally provided with a one-way valve (1-19), a belt pulley (1-13) with a shaft is connected with the rotating wheel (1-18), the belt pulley (1-13) with the shaft is rotationally connected with an ejection box (1-4) with a bearing seat, the rotating wheel (1-18) is arranged in an inner cavity (1-17), the ejection hole (1-21) is arranged on the accelerating impeller (1-22), the ejection hole (1-21) is communicated with the L-shaped channel (1-20), the accelerating impeller (1-22) is connected with the rotating wheel (1-18), the rotating wheels (1-18) are rotatably connected with the ejecting box (1-4) with the bearing block.

3. The cutting and grinding integrated device as claimed in claim 1, wherein: the cutting and grinding actuating mechanism (2) comprises a base (2-1), an upper platform (2-2), a water flowing groove (2-3), a cutter with a shaft (2-4), a belt pulley with a groove (2-5), a floating belt (2-6), a special-shaped bearing seat (2-7), a sliding rod with a limiting head (2-8), a matching hole (2-9), a spring I (2-10), a fixed support (2-11), a through hole (2-12), a blocking shell (2-13), a shaft with a special-shaped hole (2-14), a sliding bearing seat with a hole (2-15), a stepped rod (2-16), a piston rod (2-17), a shaft with a protrusion (2-18), a support frame (2-19), a cam (2-20), a coupler (2-21), The wind wheel comprises a driving motor (2-22), a driving motor base (2-23), a square column I (2-24) with a matching base, a reset spring I (2-25), a wheel base (2-26), a grinding wheel with a shaft (2-27), a wind outlet pipe (2-28), a shunt box (2-29), a wind wheel box (2-30), a coupling I (2-31), a driving motor I (2-32), a connecting bent pipe (2-33), a connecting straight pipe (2-34), a belt pulley I (2-35) with a belt groove, a belt pulley II (2-36) with a belt groove, an air inlet (2-37), a filter plate with a handle (2-38), a square hole (2-39), a circular inner cavity (2-40), a steel ball (2-41), a negative pressure wind wheel with a shaft (2-42), The device comprises a hydraulic cylinder (2-43) and a spraying through hole (2-44), wherein a base (2-1) is connected with an upper platform (2-2), a water flowing groove (2-3) is arranged on the upper platform (2-2), belt-grooved pulleys (2-5) are arranged on two sides of a tape shaft cutting knife (2-4), the belt-grooved pulleys (2-5) are in friction connection with a floating belt (2-6), the tape shaft cutting knife (2-4) is rotationally connected with a special-shaped bearing seat (2-7), a matching hole (2-9) is arranged on the special-shaped bearing seat (2-7), the matching hole (2-9) is in sliding connection with a slide bar (2-8) with a limiting head, the slide bar (2-8) with the limiting head is connected with a fixed support (2-11), and a spring I (2-10) is sleeved on the slide bar (2-8) with, two ends of a spring I (2-10) are connected to a special-shaped bearing seat (2-7) and a fixed support (2-11), a through hole (2-12) is arranged on a blocking shell (2-13), the blocking shell (2-13) is connected with the fixed support (2-11), the through hole (2-12) is communicated with a water outlet pipe (1-2), the water outlet pipe (1-2) is connected with the blocking shell (2-13), a shaft (2-14) with a special-shaped hole is rotationally connected with a sliding bearing seat (2-15) with a hole, the shaft (2-14) with the special-shaped hole is slidably connected with the special-shaped shaft (1-15), the sliding bearing seat (2-15) with the hole is slidably connected with a step rod (2-16), the step rod (2-16) is connected with a support frame (2-19), the sliding bearing seat (2-15) with the hole is connected with a piston rod (2-17), a piston rod (2-17) is connected with a support frame (2-19) in a sliding way, the piston rod (2-17) is connected with a hydraulic cylinder (2-43), the hydraulic cylinder (2-43) is connected with the support frame (2-19), the support frame (2-19) is connected with an upper platform (2-2), a shaft (2-18) with a bulge is rotationally connected with the support frame (2-19), the shaft (2-18) with the bulge is connected with a cam (2-20), the shaft (2-18) with the bulge is connected with a driving motor (2-22) through a shaft coupling (2-21), the driving motor (2-22) is connected with a driving motor base (2-23), the driving motor base (2-23) is connected with the support frame (2-19), the cam (2-20) is contacted with a square column I (2-24) with a matching base, the return spring I (2-25) is sleeved on the square column I (2-24) with the matching seat, two ends of the return spring I (2-25) are respectively connected on the square column I (2-24) with the matching seat and the support frame (2-19), the square hole (2-39) is arranged on the support frame (2-19), the square column I (2-24) with the matching seat is in sliding connection with the square hole (2-39), the square column I (2-24) with the matching seat is connected with the wheel seat (2-26), the wheel seat (2-26) is in rotating connection with the belt shaft polishing wheel (2-27), the air outlet pipe (2-28) is connected and communicated with the flow distribution box (2-29), the flow distribution box (2-29) is communicated with the wind wheel box (2-30) through a connecting bent pipe (2-33), the wind wheel box (2-30) is connected with the upper platform (2-2), a driving motor I (2-32) is connected with a belt shaft negative pressure wind wheel (2-42) through a coupling I (2-31), the driving motor I (2-32) is connected with a support frame (2-19), a connecting straight pipe (2-34) is used for communicating a shunt box (2-29) with a spraying through hole (2-44) arranged on a baffle shell (2-13), a belt grooved pulley I (2-35) is connected with two sides of the belt shaft grinding wheel (2-27), the belt grooved pulley I (2-35) is in friction connection with a floating belt (2-6), the floating belt (2-6) is in friction connection with a belt grooved pulley II (2-36), the belt grooved pulley II (2-36) is arranged on the belt shaft negative pressure wind wheel (2-42), an air inlet (2-37) is arranged on a wind wheel box (2-30), the filter plate (2-38) with the handle is connected with the wind wheel box (2-30) in a sliding way, the circular inner cavities (2-40) are symmetrically arranged in the grinding wheel (2-27) with the shaft, and the steel balls (2-41) are arranged in the circular inner cavity (2-40) at one side.

4. The cutting and grinding integrated device as claimed in claim 1, wherein: the mixed collecting mechanism (3) comprises a driving motor II (3-1), a shaft coupling II (3-2), a stepped transmission shaft (3-3), a special-shaped sliding shaft (3-4), a vibration spring (3-5), a driven disc (3-6), a driving pulley (3-7), a driving pulley seat (3-8) with a convex slider, a liquid outlet pipe (3-9), a round box body (3-10), a square box (3-11), a door-shaped bearing seat (3-12), a driving motor III (3-13), an outer blade (3-14), a connecting ring (3-15), an inner blade (3-16), an inner connecting ring (3-17), a shunting hole (3-18), a cam I (3-19), a convex groove (3-20), a shaft with a disc (3-21), A through groove (3-22), a piston (3-23) with a circumferential bulge, a grooved shaft I (3-24), a side-out accelerating wheel (3-25), a sliding fit special-shaped hole (3-26) and a unthreaded hole (3-27), a driving motor II (3-1) is connected with a stepped transmission shaft (3-3) through a coupler II (3-2), the stepped transmission shaft (3-3) is rotationally connected with a door-shaped bearing seat (3-12), the door-shaped bearing seat (3-12) is connected with a round box body (3-10), a special-shaped sliding shaft (3-4) is slidably connected with the sliding fit special-shaped hole (3-26), the sliding fit special-shaped hole (3-26) is arranged on the stepped transmission shaft (3-3), a vibration spring (3-5) is sleeved on the special-shaped sliding shaft (3-4), two ends of a vibration spring (3-5) are respectively connected to a stepped transmission shaft (3-3) and a driven disc (3-6), the driven disc (3-6) is connected with a special-shaped sliding shaft (3-4), a driving pulley (3-7) is contacted with the driven disc (3-6), the driving pulley (3-7) is rotatably connected with a driving pulley seat (3-8) with a convex slider, a liquid outlet pipe (3-9) is connected and communicated with a circular box body (3-10), the circular box body (3-10) is connected with a square box (3-11), a driving motor II (3-1) and a driving motor III (3-13) are both connected with a base (2-1), the square box (3-11) is connected with an upper platform (2-2), a water flowing groove (2-3) is communicated with the square box (3-11), the driving motor III (3-13) is connected with the cam I (3-19), the cam I (3-19) is contacted with the driving pulley seat (3-8) with the convex slider, the driving pulley seat (3-8) with the convex slider is connected with the convex groove (3-20) in a sliding way, the convex groove (3-20) is arranged on the door-shaped bearing seat (3-12), the outer blade (3-14) is connected with the connecting ring (3-15), the connecting ring (3-15) is connected with the inner blade (3-16), the inner blade (3-16) is connected with the inner connecting ring (3-17), the inner connecting ring (3-17) is provided with a shunt hole (3-18), the inner connecting ring (3-17) is connected with the disc-bearing shaft (3-21), the disc-bearing shaft (3-21) is connected with the piston (3-23) with the circumferential bulge, through grooves (3-22) are formed in the pistons (3-23) with the circumferential protrusions, the pistons (3-23) with the circumferential protrusions are in sliding connection with grooved shafts I (3-24), the grooved shafts I (3-24) are in rotating connection with square boxes (3-11), the pistons (3-23) with the circumferential protrusions are connected with special-shaped sliding shafts (3-4), the special-shaped sliding shafts (3-4) are connected with side-out accelerating wheels (3-25), unthreaded holes (3-27) are formed in the lower end face of the circular box body (3-10), and the unthreaded holes (3-27) are in sliding connection with the special-shaped sliding shafts (3-4).

5. The cutting and grinding integrated device as claimed in claim 3, wherein: the inner walls of the wind wheel boxes (2-30) are provided with wear-resisting plates.

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