CN112276224A

CN112276224A - Environment-friendly cutting machine equipment

Info

Publication number: CN112276224A
Application number: CN202011087933.0A
Authority: CN
Inventors: 吕凤新
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-10-13
Filing date: 2020-10-13
Publication date: 2021-01-29

Abstract

The invention relates to the field of buildings, in particular to environment-friendly cutting mechanical equipment which comprises a cutting device, a pollutant filtering and collecting device and an equipment box body.

Description

Environment-friendly cutting machine equipment

Technical Field

The invention relates to the field of buildings, in particular to environment-friendly cutting mechanical equipment.

Background

With the development of modern industry, the requirement on cutting quality is continuously improved, but the existing cutting machine equipment is easy to generate dust and noise during working, and causes pollution to the environment, and the existing cutting machine cannot reasonably treat the pollution generated by the working of the cutting machine, so that the environment-friendly cutting mechanical equipment is designed.

Disclosure of Invention

The invention aims to design environment-friendly cutting mechanical equipment, which can cut materials, can assist in advancing through a friction wheel, can generate high-pressure cooling water to remove dust and reduce noise and cool a saw blade, can collect and filter pollutants, and can clamp the materials.

In order to solve the technical problems, the invention relates to the field of buildings, in particular to environment-friendly cutting mechanical equipment which comprises a cutting device, a pollutant filtering and collecting device and an equipment box body.

The cutting device is connected with the equipment box body, and the pollutant filtering and collecting device is connected with the equipment box body.

As a further optimization of the technical scheme, the invention relates to environment-friendly cutting mechanical equipment, which comprises a saw cover, a support plate, a first bearing seat, a transmission shaft, a first bevel gear, a third transmission gear, a friction power wheel, a second bearing seat, a second transmission gear, a fourth transmission gear, a bottom plate, a saw blade, a moving wheel, a water inlet hose, a box sealing, an impeller shaft, a fourth bearing seat and a second bevel gear, wherein the saw cover is connected and communicated with a high-pressure water pipe, the support plate is connected with the bottom plate, the first transmission gear is rotationally connected with the first bearing seat, the first bearing seat is connected with the bottom plate, the bevel gear is connected with the first transmission gear, the first transmission gear is connected with the first transmission gear, the second transmission gear is connected with the second transmission gear, the second transmission gear is connected with the third transmission gear, the second transmission shaft is rotatably connected with the second bearing seat, the second bearing seat is connected with the bottom plate, the third transmission gear is meshed with the fourth transmission gear, the fourth transmission gear is connected with the third transmission shaft, the third bearing seat is rotatably connected with the third transmission shaft, the third bearing seat is connected with the bottom plate, the third transmission shaft is connected with the friction power wheel, the high-pressure water pipe is connected and communicated with the sealing box, the sealing box is connected and communicated with the water inlet hose, the sealing box is connected with the bottom plate, the impeller shaft is rotatably connected with the fourth bearing seat, the fourth bearing seat is connected with the bottom plate, the second bevel gear is connected with the impeller shaft, the first bevel gear is meshed with the second bevel gear, the saw.

As a further optimization of the technical scheme, the invention relates to an environment-friendly cutting mechanical device, which comprises a waste residue collecting hopper, a waste residue collecting box, a waste water collecting box, a collecting hopper fixing lug seat, a water baffle plate and a slide block chute, wherein the waste residue collecting hopper is connected with the waste residue collecting box, the collecting hopper fixing lug seat is connected with the collecting hopper, a water baffle plate positioning rod is connected with the collecting hopper, the collecting hopper and the water baffle plate positioning rod are both provided with lifting chutes, the water baffle plate is in sliding connection with the lifting chutes, the collecting hopper is provided with a collecting tank lifting window, the waste residue collecting tank is in sliding connection with the collecting tank lifting window, a filter screen is connected with the collecting hopper, a collecting hopper supporting rod is connected with the collecting hopper, a baffle plate is connected with the collecting hopper, a connecting rod I is hinged with the water baffle plate lug seat, a connecting rod I is hinged with the slide block, the, the transmission shaft four is connected with the eccentric wheel, the motor two is connected with the transmission shaft four through a coupler, and the sliding block is connected with the sliding block sliding groove in a sliding mode.

As a further optimization of the technical scheme, the invention relates to environment-friendly cutting mechanical equipment, which comprises a box body, a cutting device stroke groove, a bearing seat five, a screw rod, a water feeding pipe, a clamping baffle sliding groove, a collecting port and a water tank, wherein the box body is connected with the bearing seat five, the box body is connected with a fixed baffle, the box body is connected and communicated with the water feeding pipe, the box body and the water tank are provided with the cutting device stroke groove, the box body is provided with the collecting port, the box body is provided with the clamping baffle sliding groove, the screw rod is rotatably connected with the bearing seat five, the screw rod is in threaded connection with the clamping baffle, the water feeding pipe is connected and communicated with a water inlet hose, the box body is in friction connection with a friction power wheel, a moving wheel is clamped in the cutting device stroke groove, the box body is connected with a collecting hopper fixing lug seat, the, the box body is connected with the collecting hopper supporting rod and the box body is connected with the second motor.

The environment-friendly cutting mechanical equipment has the beneficial effects that:

according to the environment-friendly cutting mechanical equipment, the equipment can cut materials, the equipment can advance under the assistance of the friction wheel, the equipment can generate high-pressure cooling water to remove dust and reduce noise and cool a saw blade, the equipment can collect and filter pollutants, and the equipment can clamp the materials.

Drawings

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

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is a third schematic view of the overall structure of the present invention;

FIG. 4 is a first schematic structural diagram of a cutting device according to the present invention;

FIG. 5 is a schematic structural diagram of a second cutting device according to the present invention;

FIG. 6 is a third schematic structural view of the cutting device of the present invention;

FIG. 7 is a fourth schematic structural view of the cutting device of the present invention;

FIG. 8 is a schematic view of a first embodiment of the contaminant filtering and collecting device of the present invention;

FIG. 9 is a schematic view of the second embodiment of the contaminant filtering and collecting device of the present invention;

FIG. 10 is a schematic view of the pollutant filtering and collecting device of the present invention;

FIG. 11 is a fourth schematic view of the pollutant filtering and collecting device of the present invention;

FIG. 12 is a schematic view of the pollutant filtering and collecting device of the present invention;

FIG. 13 is a first schematic view of the structure of the equipment box of the present invention;

FIG. 14 is a second schematic structural view of the apparatus case of the present invention;

in the figure: a cutting device mechanism 1; 1-1 of a saw cover; a support plate 1-2; 1-3 of a bearing seat I; 1-4 of a transmission shaft; 1-5 parts of a bevel gear I; 1-6 of a first motor; a first transmission gear 1-7; a second transmission gear 1-8; a third transmission gear 1-9; 1-10 parts of friction power wheel; 1-11 parts of a second bearing seat; a second transmission shaft 1-12; transmission gears four 1-13; a transmission shaft III 1-14; 1-15 parts of a bearing seat III; 1-16 parts of high-pressure water pipe; a base plate 1-17; 1-18 of saw blade; moving wheels 1-19; 1-20 parts of water inlet hose; sealing 1-21; impeller shafts 1 to 22; bearing seats IV 1-23; bevel gears II 1-24; a pollutant filtering and collecting mechanism 2; a waste residue collecting hopper 2-1; a waste residue collection box 2-2; a wastewater collection tank 2-3; 2-4 parts of a collecting bucket fixing lug seat; 2-5 of a water baffle; 2-6 of a collecting hopper; 2-7 of a filter screen; 2-8 parts of a support rod of the collecting hopper; 2-9 parts of baffle plates; collecting tank lifting window 2-10; positioning rods 2-11 of the water baffle; 2-12 of a lifting chute; 2-13 parts of a water baffle lug seat; 2-14 parts of a first connecting rod; 2-15 parts of a sliding block; 2-16 parts of a second connecting rod; a waste residue collecting tank 2-17; 2-18 of a second motor; a transmission shaft IV 2-19; 2-20 parts of an eccentric wheel; 2-21 slide block chutes; an equipment cabinet structure 3; 3-1 of a box body; a cutting device stroke slot 3-2; 3-3 of a bearing seat five; 3-4 parts of a screw; 3-5 of a water feeding pipe; 3-6 of a clamping baffle plate; 3-7 of a retaining plate chute; 3-8 parts of a collecting port; 3-9 parts of a water tank; and 3-10 parts of a fixed baffle.

Detailed Description

The first embodiment is as follows:

the invention relates to the field of buildings, in particular to environment-friendly cutting mechanical equipment which comprises a cutting device 1, a pollutant filtering and collecting device 2 and an equipment box body 3, wherein the equipment can cut materials, can advance with the assistance of a friction wheel, can generate high-pressure cooling water to remove dust and reduce noise and cool a saw blade, can collect and filter pollutants, and can clamp the materials. .

The cutting device 1 is connected with the equipment box body 3, and the pollutant filtering and collecting device 2 is connected with the equipment box body 3.

The second embodiment is as follows:

the first embodiment is further 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, and fig. 14. the first embodiment includes a saw cover 1-1, a support plate 1-2, a bearing seat 1-3, a transmission shaft 1-4, a bevel gear 1-5, a motor 1-6, a transmission gear 1-7, a transmission gear two 1-8, a transmission gear three 1-9, a friction power wheel 1-10, a bearing seat two 1-11, a transmission shaft two 1-12, a transmission gear four 1-13, a transmission shaft three 1-14, a bearing seat three 1-15, a high-pressure water pipe 1-16, a bottom plate 1-17, a saw blade 1-18, a saw blade 1-11, a high-15, a high-, 1-19 parts of a moving wheel, 1-20 parts of a water inlet hose, 1-21 parts of a sealing box, 1-22 parts of an impeller shaft, 1-23 parts of a bearing seat IV, 1-24 parts of a bevel gear II, 1-1 parts of a saw cover and 1-2 parts of a supporting plate, 1-1 parts of the saw cover are connected and communicated with 1-16 parts of a high-pressure water pipe, 1-2 parts of the supporting plate are connected with 1-17 parts of a bottom plate, 1-4 parts of a transmission shaft I are rotationally connected with 1-3 parts of the bearing seat I, 1-3 parts of the bearing seat I are connected with 1-17 parts of the bottom plate, 1-5 parts of the bevel gear I are connected with 1-4 parts of the transmission shaft I, 1-4 parts of the transmission shaft I are connected with 1-6 parts of a motor I through a coupling, 1-6 parts of the motor I are, the transmission gear II 1-8 is connected with the transmission shaft II 1-14, the transmission shaft II 1-14 is connected with the transmission gear III 1-13, the transmission shaft II 1-14 is rotationally connected with the bearing seat II 1-15, the bearing seat II 1-15 is connected with the bottom plate 1-17, the transmission gear III 1-9 is meshed with the transmission gear IV 1-13, the transmission gear IV 1-9 is connected with the transmission shaft III 1-12, the bearing seat III 1-11 is rotationally connected with the transmission shaft III 1-12, the bearing seat III 1-11 is connected with the bottom plate 1-17, the transmission shaft III 1-12 is connected with the friction power wheel 1-10, the high-pressure water pipe 1-16 is connected and communicated with the sealing box 1-21, the sealing box 1-21 is connected and communicated with the water inlet hose 1-20, the sealing box 1-21 is connected with the bottom, the impeller shaft 1-22 is rotationally connected with the bearing seat four 1-23, the bearing seat four 1-23 is connected with the bottom plate 1-17, the bevel gear two 1-24 is connected with the impeller shaft 1-22, the bevel gear one 1-5 is meshed with the bevel gear two 1-24, the saw blade 1-18 is connected with the transmission shaft one 1-4, the moving wheel 1-19 is rotationally connected with the bottom plate 1-17, when the machine works, firstly, the motor one 1-6 drives the transmission shaft one 1-4 to rotate, the transmission shaft one 1-4 drives the saw blade 1-18 to rotate so as to enable the machine to have cutting capacity, the motor one 1-6 drives the transmission shaft one 1-4 to rotate, the transmission shaft one 1-4 drives the transmission gear one 1-7 to rotate, the transmission gear one 1-7 drives the transmission gear two 1-8 to rotate, the transmission gear two 1-8, the transmission gear three 1-14 drives the transmission gear four 1-13 to rotate, the transmission gear four 1-13 drives the transmission gear three 1-9 to rotate, the transmission gear three 1-9 drives the transmission gear two 1-12 to rotate, the transmission gear two 1-12 drives the friction power wheel 1-10 to rotate to generate auxiliary power for advancing the cutting device, the motor one 1-6 drives the transmission gear one 1-4 to rotate, the transmission gear one 1-4 drives the bevel gear one 1-5 to rotate, the bevel gear one 1-5 drives the bevel gear two 1-24 to rotate, the bevel gear two 1-24 drives the impeller shaft 1-22 to rotate, the impeller shaft 1-22 rotates to generate negative pressure in the seal box 1-21, the negative pressure enables water to enter from the water inlet pipe 1-20 to be pressurized and then passes through the high pressure water pipe 1-16, the saw blade 1-18 is washed to remove dust, reduce noise and cool, and the saw cover 1-1 has the function of preventing splashing.

The third concrete implementation mode:

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, and the present embodiment further describes the first embodiment, in which the pollutant filtering and collecting device 2 includes a slag collecting hopper 2-1, a slag collecting box 2-2, a waste water collecting box 2-3, a collecting hopper fixing lug 2-4, a water baffle 2-5, a collecting hopper 2-6, a filter screen 2-7, a collecting hopper support rod 2-8, a baffle 2-9, a collecting tank lifting window 2-10, a water baffle positioning rod 2-11, a lifting chute 2-12, a water baffle lug 2-13, a connecting rod one 2-14, a sliding block 2-15, a connecting rod two 2-16, a slag collecting tank 2-17, a collecting tank 2-11, a second motor 2-18, a fourth transmission shaft 2-19, an eccentric wheel 2-20 and a slide block chute 2-21, wherein a waste residue collection hopper 2-1 is connected with a waste residue collection box 2-2, a collection hopper fixing lug seat 2-4 is connected with a collection hopper 2-6, a water baffle positioning rod 2-11 is connected with the collection hopper 2-6, the collection hopper 2-6 and the water baffle positioning rod 2-11 are both provided with lifting chutes 2-12, a water baffle 2-5 is connected with the lifting chutes 2-12 in a sliding way, the collection hopper 2-6 is provided with a collection groove lifting window 2-10, a waste residue collection groove 2-17 is connected with the collection groove lifting window 2-10 in a sliding way, a filter screen 2-7 is connected with the collection hopper 2-6, a collection hopper support rod 2-8 is connected with the collection hopper 2-6, the baffle 2-9 is connected with the collecting hopper 2-6, the connecting rod I2-14 is hinged with the water baffle lug seat 2-13, the connecting rod I2-14 is hinged with the sliding block 2-15, the sliding block 2-15 is hinged with the connecting rod II 2-16, the connecting rod II 2-16 is hinged with the waste residue collecting tank 2-17, the driving shaft IV 2-19 is connected with the eccentric wheel 2-20, the motor II 2-18 is connected with the driving shaft IV 2-19 through a coupler, the sliding block 2-15 is connected with the sliding block sliding groove 2-21 in a sliding way, firstly, the water baffle 2-5 is positioned at the upper limit position, the waste water saw cutting chips generated by the operation of the cutting device are blocked, the motor II 2-18 drives the driving shaft IV 2-19 to rotate, the driving shaft IV 2-19 drives the eccentric wheel 2-20 to rotate, the eccentric wheel 2-20 rotates to enable the waste When the waste residue collecting tank 2-17 rises, the connecting rod II 2-16 is driven, the connecting rod II 2-16 drives the sliding block 2-15, the sliding block 2-15 drives the connecting rod I2-14, the connecting rod I2-14 drives the water baffle plate 2-5 to descend, so that pollutants pass through the collecting hopper 2-6, are filtered by the filter screen 2-7 and are collected into the waste water collecting tank 2-3, saw cuttings are accumulated in the waste residue collecting tank 2-17, the motor II 2-18 continues to drive the eccentric wheel 2-18 to rotate, the waste residue collecting tank 2-17 begins to descend, the waste residue collecting tank 2-17 descends to drive the connecting rod I2-16, the connecting rod II 2-16 drives the sliding block 2-15, the sliding block 2-15 drives the connecting rod I2-14, the connecting rod I2-14 drives the water baffle plate 2, the water baffle 2-5 continues to block pollutants, and the process is repeated in such a way that a notch is formed between the waste residue collecting tank 2-14 and the baffle 2-9 when the waste residue collecting tank descends to the lower limit position, waste residue passes through the notch and is collected into the waste residue collecting tank 2-2 through the waste residue collecting hopper 2-1.

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, and the embodiment further describes the embodiment, wherein the equipment box 3 comprises a box body 3-1, a cutting device stroke slot 3-2, a bearing seat five 3-3, a screw 3-4, a water supply pipe 3-5, a clamping baffle 3-6, a clamping baffle sliding slot 3-7, a collection port 3-8, a water tank 3-9, a fixed baffle 3-10, the box body 3-1 is connected with the bearing seat five 3-3, the box body 3-1 is connected with the fixed baffle 3-10, the box body 3-1 is connected and communicated with the water supply pipe 3-5, the box body 3-1 is connected with the water tank 3-9, the box body 3-1 is provided with a cutting device stroke groove 3-2, the box body 3-1 is provided with a collecting port 3-8, the box body 3-1 is provided with a clamping baffle sliding groove 3-7, a screw rod 3-4 is rotationally connected with a bearing seat five 3-3, the screw rod 3-4 is in threaded connection with a clamping baffle 3-6, a water feeding pipe 3-5 is connected and communicated with a water inlet hose 1-20, the box body 3-1 is in frictional connection with a friction power wheel 1-10, a moving wheel 1-19 is clamped in the cutting device stroke groove 3-2, the box body 3-1 is connected with a collecting bucket fixing lug seat 2-4, the box body 3-1 is connected with a slide block sliding groove 2-21, the box body 3-1 is connected with a waste residue collecting box 2-2, the box body 3-1 is connected with a waste water, the box body 3-1 is connected with the supporting rod 2-8 of the collecting hopper, the box body 3-1 is connected with the motor 2-18, the rotating screw 3-4 drives the clamping baffle 3-6 to slide in work, the clamping baffle 3-6 and the fixed baffle 3-10 clamp materials, the collecting port 3-8 can collect and prevent pollutants from splashing, and the water tank 3-9 and the water feeding pipe 3-4 form a cooling water source.

The working principle of the device is as follows: the equipment can cut materials, the motor I1-6 drives the transmission shaft I1-4 to rotate, and the transmission shaft I1-4 drives the saw blade I1-18 to rotate so that the equipment has cutting capacity; the equipment can advance under the assistance of a friction wheel, a motor I1-6 drives a transmission shaft I1-4 to rotate, the transmission shaft I1-4 drives a transmission gear I1-7 to rotate, the transmission gear I1-7 drives a transmission gear II 1-8 to rotate, the transmission gear II 1-8 drives a transmission shaft III 1-14 to rotate, the transmission shaft III 1-14 drives a transmission gear IV 1-13 to rotate, the transmission gear IV 1-13 drives a transmission gear III 1-9 to rotate, the transmission gear III 1-9 drives a transmission shaft II 1-12 to rotate, and the transmission shaft II 1-12 drives a friction power wheel 1-10 to rotate to generate auxiliary power for advancing the cutting device; the equipment can generate high-pressure cooling water for dedusting, denoising and cooling the saw blades, a motor I1-6 drives a transmission shaft I1-4 to rotate, the transmission shaft I1-4 drives a bevel gear I1-5 to rotate, the bevel gear I1-5 drives a bevel gear II 1-24 to rotate, the bevel gear II 1-24 drives an impeller shaft 1-22 to rotate, the impeller shaft 1-22 rotates to generate negative pressure in a sealing box 1-21, the negative pressure enables water to enter a water inlet pipe 1-20 for pressurization, then the high-pressure water pipe 1-16 is used for scouring the saw blades 1-18 to perform dedusting, denoising and cooling treatment, and a saw cover 1-1 has an anti-splashing effect; the device can collect and filter pollutants, firstly, the water baffle 2-5 is positioned at the upper limit position, the waste water saw cutting chips generated by the work of the cutting device are blocked, the motor II 2-18 drives the transmission shaft IV 2-19 to rotate, the transmission shaft IV 2-19 drives the eccentric wheel 2-20 to rotate, the eccentric wheel 2-20 rotates to enable the waste residue collecting tank 2-17 to start to ascend through the collecting tank lifting window 2-10, when the waste residue collecting tank 2-17 ascends, the connecting rod II 2-16 is driven, the connecting rod II 2-16 drives the sliding block 2-15, the sliding block 2-15 drives the connecting rod I2-14, the connecting rod I2-14 drives the water baffle 2-5 to descend, so that the pollutants are collected into the waste water collecting tank 2-3 after being filtered by the filter screen 2-7 through the collecting hopper 2-6, the saw cutting, the second motor 2-18 continues to drive the eccentric wheel 2-18 to rotate, the waste residue collecting tank 2-17 begins to descend, the waste residue collecting tank 2-17 descends to drive the first connecting rod 2-16, the second connecting rod 2-16 drives the sliding block 2-15, the sliding block 2-15 drives the first connecting rod 2-14, the first connecting rod 2-14 drives the water baffle plate 2-5 to ascend, the water baffle plate 2-5 continues to block pollutants, the reciprocating is performed, when the waste residue collecting tank 2-14 descends to the lower limit position, a gap is formed between the water baffle plate 2-9, waste residues pass through the gap, and then the waste residue collecting hopper 2-1 collects the waste residues into the waste residue collecting tank 2-2; the equipment can clamp materials, when the equipment works, the screw rods 3-4 are rotated to drive the clamping baffles 3-6 to slide, and the clamping baffles 3-6 and the fixed baffles 3-10 clamp the materials tightly.

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

1. The utility model provides an environment-friendly cutting machine equipment, includes cutting device (1), pollutant filtration collection device (2), equipment box (3), its characterized in that: the cutting device (1) is connected with the equipment box body (3), and the pollutant filtering and collecting device (2) is connected with the equipment box body (3).

2. The environment-friendly cutting machine as set forth in claim 1, wherein: the cutting device (1) comprises a saw cover (1-1), a support plate (1-2), a bearing seat I (1-3), a transmission shaft (1-4), a bevel gear I (1-5), a motor I (1-6), a transmission gear I (1-7), a transmission gear II (1-8), a transmission gear III (1-9), a friction power wheel (1-10), a bearing seat II (1-11), a transmission shaft II (1-12), a transmission gear IV (1-13), a transmission shaft III (1-14), a bearing seat III (1-15), a high-pressure water pipe (1-16), a bottom plate (1-17), a saw blade (1-18), a moving wheel (1-19), a water inlet hose (1-20), a sealing box (1-21), An impeller shaft (1-22), a bearing seat four (1-23) and a bevel gear two (1-24), wherein a saw cover (1-1) is connected with a support plate (1-2), the saw cover (1-1) is connected and communicated with a high-pressure water pipe (1-16), the support plate (1-2) is connected with a base plate (1-17), a transmission shaft one (1-4) is rotatably connected with the bearing seat one (1-3), the bearing seat one (1-3) is connected with the base plate (1-17), the bevel gear (1-5) is connected with a transmission shaft one (1-4), the transmission shaft one (1-4) is connected with a motor one (1-6) through a coupler, the motor one (1-6) is connected with the base plate (1-17), the transmission shaft one (1-4) is connected with a transmission gear one (1-7), the transmission gear I (1-7) is meshed with the transmission gear II (1-8), the transmission gear II (1-8) is connected with the transmission shaft II (1-14), the transmission shaft II (1-14) is connected with the transmission gear III (1-13), the transmission shaft II (1-14) is rotationally connected with the bearing seat II (1-15), the bearing seat II (1-15) is connected with the bottom plate (1-17), the transmission gear III (1-9) is meshed with the transmission gear IV (1-13), the transmission gear IV (1-9) is connected with the transmission shaft III (1-12), the bearing seat III (1-11) is rotationally connected with the transmission shaft III (1-12), the bearing seat III (1-11) is connected with the bottom plate (1-17), and the transmission shaft III (1-12) is connected with the friction power wheel (1-10), the high-pressure water pipe (1-16) is connected and communicated with the sealing box (1-21), the sealing box (1-21) is connected and communicated with the water inlet hose (1-20), the sealing box (1-21) is connected with the bottom plate (1-17), the impeller shaft (1-22) is rotatably connected with the bearing seat (1-23), the bearing seat (1-23) is connected with the bottom plate (1-17), the bevel gear (1-24) is connected with the impeller shaft (1-22), the bevel gear (1-5) is meshed with the bevel gear (1-24), the saw blade (1-18) is connected with the transmission shaft (1-4), and the movable wheel (1-19) is rotatably connected with the bottom plate (1-17).

3. The environment-friendly cutting machine as set forth in claim 1, wherein: the pollutant filtering and collecting device (2) comprises a waste residue collecting hopper (2-1), a waste residue collecting box (2-2), a waste water collecting box (2-3), a collecting hopper fixing lug seat (2-4), a water baffle plate (2-5), a collecting hopper (2-6), a filter screen (2-7), a collecting hopper supporting rod (2-8), a baffle plate (2-9), a collecting groove lifting window (2-10), a water baffle plate positioning rod (2-11), a lifting chute (2-12), a water baffle plate lug seat (2-13), a connecting rod I (2-14), a sliding block (2-15), a connecting rod II (2-16), a waste residue collecting tank (2-17), a motor collecting tank II (2-18), a transmission shaft IV (2-19), an eccentric wheel (2-20), A slide block chute (2-21), a waste residue collecting hopper (2-1) is connected with a waste residue collecting box (2-2), a collecting hopper fixing lug seat (2-4) is connected with a collecting hopper (2-6), a water baffle positioning rod (2-11) is connected with the collecting hopper (2-6), the collecting hopper (2-6) and the water baffle positioning rod (2-11) are both provided with lifting chutes (2-12), a water baffle (2-5) is connected with the lifting chutes (2-12) in a sliding way, the collecting hopper (2-6) is provided with a collecting tank lifting window (2-10), a collecting tank (2-17) is connected with the collecting tank lifting window (2-10) in a sliding way, a filter screen (2-7) is connected with the collecting hopper (2-6), a collecting hopper supporting rod (2-8) is connected with the collecting hopper (2-6), the baffle (2-9) is connected with the collecting hopper (2-6), the first connecting rod (2-14) is hinged with the water baffle lug seat (2-13), the first connecting rod (2-14) is hinged with the sliding block (2-15), the sliding block (2-15) is hinged with the second connecting rod (2-16), the second connecting rod (2-16) is hinged with the waste residue collecting tank (2-17), the fourth transmission shaft (2-19) is connected with the eccentric wheel (2-20), the second motor (2-18) is connected with the fourth transmission shaft (2-19) through a coupler, and the sliding block (2-15) is connected with the sliding block sliding groove (2-21) in a sliding manner.

4. The environment-friendly cutting machine as set forth in claim 1, wherein: the equipment box body (3) comprises a box body (3-1), a cutting device stroke groove (3-2), a bearing seat five (3-3), a screw rod (3-4), a water feeding pipe (3-5), a clamping baffle plate (3-6), a clamping baffle plate sliding groove (3-7), a collecting port (3-8), a water tank (3-9) and a fixed baffle plate (3-10), wherein the box body (3-1) is connected with the bearing seat five (3-3), the box body (3-1) is connected with the fixed baffle plate (3-10), the box body (3-1) is connected and communicated with the water feeding pipe (3-5), the box body (3-1) is connected with the water tank (3-9), the box body (3-1) is provided with the cutting device stroke groove (3-2), the box body (3-1) is provided with the collecting port (3-8), the box body (3-1) is provided with a clamping baffle sliding chute (3-7), a screw rod (3-4) is rotationally connected with a bearing seat five (3-3), the screw rod (3-4) is in threaded connection with a clamping baffle (3-6), a water feeding pipe (3-5) is connected and communicated with a water inlet hose (1-20), the box body (3-1) is in friction connection with a friction power wheel (1-10), a moving wheel (1-19) is clamped in a stroke groove (3-2) of the cutting device, the box body (3-1) is connected with a collecting hopper fixing lug seat (2-4), the box body (3-1) is connected with a sliding block sliding chute (2-21), the box body (3-1) is connected with a waste residue collecting box (2-2), the box body (3-1) is connected with a waste water collecting box (2-3), the box body (3-1) is connected with the collecting hopper supporting rod (2-8), and the box body (3-1) is connected with the second motor (2-18).