CN216722083U - Injection type soil synergistic device for landscaping - Google Patents

Abstract

The utility model relates to the field of landscaping and irrigation, in particular to an injection type soil synergistic device for landscaping, which comprises a carrier vehicle, a mobile generator, a synergistic component, a crushing component, a differential component and a mounting plate, wherein the carrier vehicle comprises a horizontal mounting plate, the mobile generator is fixedly arranged on the mounting plate, the synergistic component is positioned at the front end of the carrier vehicle, the crushing component is used for crushing hard soil blocks and weeds, the differential component is provided with a low-speed output end connected with the carrier vehicle and a high-speed output end connected with the crushing component, the carrier vehicle is driven by the mobile generator to run and can work for a long time, a plow can shovel the hard soil blocks and the weeds on the surface layer of the soil, so that a needle-shaped scarifier can be smoothly inserted into the soil, a water tank which is provided with can store a large amount of nutrient solution, frequent feeding is not needed, the crushing component can crush the hard soil blocks and the weeds, the air permeability of the soil is increased, and the fertility of the soil can be increased after the weeds are decomposed.

Description

Injection type soil synergistic device for landscaping

Technical Field

The utility model relates to an afforestation and irrigation relevant field specifically are related to an injection type soil synergy device for afforestation.

Background

China's utility model patent with publication number CN212851700U "a soil synergistic device for afforestation" it discloses a soil synergistic device for afforestation, can improve soil air permeability, when, according to different vegetation requirement even and quantitative ground supplementary nutrient composition, improves soil oxidation's efficiency and homogeneity, but exists following not enoughly: firstly, the equipment is driven manually, the physical strength of operators is limited, long-time efficient work cannot be carried out, and the working efficiency is low; secondly, the surface layer of the ground is mostly hard soil blocks and covered weeds, and the nail-shaped bulges of the device are difficult to insert into the ground when the device is not treated; fourthly, the storage space is limited, the feeding point is required to be frequently returned for feeding, much time is occupied, and the working efficiency is low.

SUMMERY OF THE UTILITY MODEL

In view of the above, it is necessary to provide an injection type soil synergistic device for landscaping.

For solving the prior art problem, the utility model discloses a technical scheme be: an injection formula soil synergism device for afforestation includes:

the carrier vehicle comprises a horizontal mounting plate, and a movable generator is fixedly arranged on the mounting plate;

the synergistic assembly is fixedly arranged on the mounting plate and is positioned at the front end of the carrier vehicle;

the smashing assembly is fixedly arranged on the mounting plate, is positioned at the rear end of the carrier vehicle and is used for smashing soil blocks and weeds;

and the differential component is fixedly arranged on the mounting plate and is provided with a low-speed output end connected with the carrier vehicle and a high-speed output end connected with the crushing component.

Further, the efficiency-increasing assembly comprises:

the first connecting shaft is in a horizontal state, the length direction of the first connecting shaft is vertical to the running direction of the carrier vehicle, the first connecting shaft is positioned above the mounting plate, and two ends of the first connecting shaft are connected with the mounting plate through two first shaft seats;

the connecting frame is in a horizontal state, the connecting frame is fixedly sleeved on the first connecting shaft, and the length direction of the connecting frame is parallel to the length direction of the first connecting shaft;

the two groups of starting devices are arranged at intervals along the length direction of the first connecting shaft, are fixedly arranged on the mounting plate, are positioned on one side of the connecting frame close to the crushing assembly and are connected with the connecting frame;

a plurality of ploughs are arranged at intervals along the length direction of the connecting frame, the plurality of ploughs are fixedly arranged on the connecting frame, and each plough is positioned below the mounting plate;

the soil loosening device is fixedly arranged on the connecting frame and is positioned on one side of the plough close to the crushing assembly;

the spraying device comprises a water tank and a spraying mechanism, wherein the water tank is fixedly arranged on the mounting plate, the spraying mechanism is fixedly arranged at the lower end of the mounting plate, and the spraying mechanism is positioned on one side, close to the crushing assembly, of the soil loosening device.

Further, the starting device comprises:

the first connecting arm is in a vertical state, and the lower end of the first connecting arm is fixedly connected with the connecting frame;

the first electric cylinder is hinged to the mounting plate, the first electric cylinder is located between the connecting frame and the crushing assembly, and the output end of the first electric cylinder is hinged to the upper end of the first connecting arm.

Further, the soil loosening device includes:

the axis of the connecting roller is parallel to the axis of the first connecting shaft, the connecting roller is positioned below the mounting plate, and the connecting pipe is coupled with the connecting frame through two second shaft seats;

needle-like agitator, quantity is a plurality of, and a plurality of needle-like agitator evenly distributed is on connecting the roller, and every needle-like agitator all fixes the setting on connecting the roller.

Further, the spraying mechanism includes:

the axis of the infusion tube is parallel to the axis of the connecting roller, and the infusion tube is fixedly arranged on the mounting plate through the mounting frame;

the shower nozzle, quantity is a plurality of, and a plurality of shower nozzle is along the length direction evenly distributed of transfer line, and every shower nozzle all is fixed to be set up on the transfer line, and every shower nozzle is all vertical downwards.

Further, the size reduction assembly includes:

the number of the second connecting arms is two, the two second connecting arms are arranged at intervals along the length direction of the connecting roller, each second connecting arm is formed with a hinged part, and each hinged part is hinged with the mounting plate;

the two second electric cylinders are arranged at intervals along the length direction of the connecting roller, each second electric cylinder is hinged with the mounting plate, the two second electric cylinders are positioned on one side of the second connecting arm close to the synergistic assembly, and the output end of each second electric cylinder is hinged with one end of the hinged part of the second connecting arm close to the synergistic assembly;

the axis of the crushing roller is parallel to the axis of the connecting roller, two ends of the crushing roller are respectively coupled with the two second connecting arms, and the crushing roller is positioned below the mounting plate;

and the arc-shaped baffle plate is sleeved above the crushing roller and is fixedly arranged on the two second connecting arms.

Further, the differential assembly includes:

the worm is in a horizontal state, is positioned above the mounting plate, is vertical to the length direction of the crushing roller in the length direction, and is in shaft connection with the mounting plate through a third shaft seat at two ends;

the two turbines are arranged at intervals along the length direction of the worm rod, and both the two turbines are meshed with the worm;

the motor is fixedly arranged on the mounting plate, and an output shaft of the motor is fixedly connected with the turbine far away from the crushing assembly;

the axis of the second connecting shaft is coaxial with the hinge part, the second connecting shaft is in shaft joint with the mounting plate, and the second connecting shaft is fixedly inserted into the turbine close to the crushing assembly;

the first belt wheel is fixedly sleeved on the second connecting shaft;

the second belt wheel is fixedly sleeved on the second connecting shaft, and the diameter of the second belt wheel is larger than that of the first belt wheel;

a third belt wheel fixedly sleeved on the driving shaft of the carrier vehicle, wherein the third belt wheel is connected with the first belt wheel through a first belt, and the third belt wheel is the differential speedAssemblyA low speed output terminal of;

and the fourth belt wheel is fixedly sleeved at the end part of the crushing roller, the fourth belt wheel is connected with the second belt wheel through a second belt, the diameter of the fourth belt wheel is smaller than that of the fourth belt wheel, and the fourth belt wheel is the high-speed output end of the differential assembly.

Compared with the prior art, the utility model beneficial effect who has is: firstly, the carrier vehicle is driven to run by the movable generator, and the operation can be carried out for a long time only by controlling the direction by an operator, so that the working efficiency is greatly improved;

secondly, the plough in the synergistic assembly can shovel hard soil blocks on the surface layer of the ground and covered weeds, so that the needle-shaped scarifier can be smoothly inserted into the soil, and the air permeability of the soil is increased;

thirdly, a large water tank is provided, so that a large amount of nutrient solution can be stored, continuous work can be performed, frequent feeding is not needed, and the working efficiency is improved;

fourthly, the smashing assembly can smash the hard soil blocks and the weeds, the air permeability of the soil is increased, and the fertility of the soil can be increased after the weeds are naturally decomposed.

Drawings

FIG. 1 is a schematic perspective view of the embodiment;

FIG. 2 is a schematic perspective view of an exemplary efficiency enhancing assembly;

FIG. 3 is a schematic perspective view of a ripper valve according to an embodiment;

fig. 4 is a schematic perspective view of a spraying device of an embodiment;

FIG. 5 is a schematic perspective view of a spray mechanism of an embodiment;

FIG. 6 is a schematic perspective view of a size reduction assembly according to an embodiment;

fig. 7 is a schematic perspective view of the differential assembly of the embodiment.

The reference numbers in the figures are: 1-a carrier vehicle; 2-mounting a plate; 3-a mobile generator; 4-a synergistic component; 5-a crushing component; 6-a differential assembly; 7-a first connecting shaft; 8-a first shaft seat; 9-a connecting frame; 10-a starting device; 11-ploughing; 12-a soil loosening device; 13-a spraying device; 14-a water tank; 15-a spraying mechanism; 16-a first connecting arm; 17-a first electric cylinder; 18-a connecting roll; 19-a second bearing block; 20-needle-shaped scarifiers; 21-an infusion tube; 22-a mounting frame; 23-a spray head; 24-a second connecting arm; 25-a hinge; 26-a second electric cylinder; 27-a crushing roller; 28-arc shutter; 29-a worm; 30-a third shaft seat; 31-a turbine; 32-a motor; 33-a second connecting shaft; 34-a first pulley; 35-a second pulley; 36-a third pulley; 37-a first belt; 38-a fourth pulley; 39-a second belt; 40-driving shaft.

Detailed Description

For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.

Referring to fig. 1 to 7, an injection type soil improvement device for landscaping includes:

the carrier vehicle 1 comprises a horizontal mounting plate 2, and a movable generator 3 is fixedly arranged on the mounting plate 2;

the synergistic assembly 4 is fixedly arranged on the mounting plate 2, and the synergistic assembly 4 is positioned at the front end of the carrier vehicle 1;

the smashing assembly 5 is fixedly arranged on the mounting plate 2, the smashing assembly 5 is positioned at the rear end of the carrier vehicle 1, and the smashing assembly 5 is used for smashing soil blocks and weeds;

and a differential assembly 6 fixedly arranged on the mounting plate 2, wherein the differential assembly 6 is provided with a low-speed output end connected with the carrier vehicle 1 and a high-speed output end connected with the crushing assembly 5.

When the device is used, the mobile generator 3 provides power for the device, the carrier vehicle 1 runs forwards, the synergistic assembly 4 increases nutrition and air for soil, under the action of the differential assembly 6, the carrier vehicle 1 is pushed to run, meanwhile, the crushing assembly 5 is also driven to crush soil blocks and weeds on the surface layer of the ground, the crushed soil blocks are beneficial to absorbing oxygen from the air by root systems of the lower layer, and the crushed weeds can increase the fertility of the soil after being decomposed.

The synergistic assembly 4 comprises:

the first connecting shaft 7 is in a horizontal state, the length direction of the first connecting shaft 7 is vertical to the running direction of the carrier vehicle 1, the first connecting shaft 7 is positioned above the mounting plate 2, and two ends of the first connecting shaft 7 are in shaft connection with the mounting plate 2 through two first shaft seats 8;

the connecting frame 9 is in a horizontal state, the connecting frame 9 is fixedly sleeved on the first connecting shaft 7, and the length direction of the connecting frame 9 is parallel to the length direction of the first connecting shaft 7;

the number of the starting devices 10 is two, the two starting devices 10 are arranged at intervals along the length direction of the first connecting shaft 7, the two starting devices 10 are fixedly arranged on the mounting plate 2, the two starting devices 10 are positioned on one side, close to the crushing assembly 5, of the connecting frame 9, and each starting device 10 is connected with the connecting frame 9;

a plurality of plows 11 are arranged at intervals along the length direction of the connecting frame 9, the plurality of plows 11 are all fixedly arranged on the connecting frame 9, and each plowing 11 is positioned below the mounting plate 2;

a scarification device 12 which is fixedly arranged on the connecting frame 9 and is positioned on one side of the plow 11 close to the crushing assembly 5;

and the spraying device 13 comprises a water tank 14 and a spraying mechanism 15, the water tank 14 is fixedly arranged on the mounting plate 2, the spraying mechanism 15 is fixedly arranged at the lower end of the mounting plate 2, and the spraying mechanism 15 is positioned on one side of the soil loosening device 12 close to the crushing assembly 5.

The starting device 10 drives the connecting frame 9 to rotate around the first connecting shaft 7 to the direction close to the ground, so as to drive the plurality of plows 11 to insert into the ground, along with the driving of the carrier vehicle 1, the plows 11 shovel the hard soil and weeds on the surface layer of the ground, the soil loosening device 12 inserts a plurality of vent holes in the exposed soft soil, the spraying device 13 sprays nutrient solution on the soft soil, and the nutrient solution can also flow into a deeper position along the vent holes.

The starting apparatus 10 includes:

the first connecting arm 16 is in a vertical state, and the lower end of the first connecting arm is fixedly connected with the connecting frame 9;

and a first electric cylinder 17 hinged with the mounting plate 2, wherein the first electric cylinder 17 is positioned between the connecting frame 9 and the crushing assembly 5, and the output end of the first electric cylinder 17 is hinged with the upper end of the first connecting arm 16.

When the efficiency-increasing assembly 4 needs to be started, the output end of the first electric cylinder 17 moves outwards, and the first connecting arm 16 drives the connecting frame 9 to rotate in the direction close to the ground.

The ripping device 12 includes:

a connecting roller 18, the axis of which is parallel to the axis of the first connecting shaft 7, the connecting roller 18 is positioned below the mounting plate 2, and the connecting pipe is coupled with the connecting frame 9 through two second shaft seats 19;

needle-like ripper 20, the quantity is a plurality of, and a plurality of needle-like ripper 20 evenly distributed is on connecting roller 18, and every needle-like ripper 20 all sets up fixedly on connecting roller 18.

When the ripper device 12 is in use, the pin ripper 20 can be easily inserted into the ground, increasing the air holes in the ground, since the hard bumps on the surface and the weeds are removed by the plow 11.

The spraying mechanism 15 includes:

the axis of the infusion tube 21 is parallel to the axis of the connecting roller 18, and the infusion tube 21 is fixedly arranged on the mounting plate 2 through a mounting frame 22;

the shower nozzle 23, the quantity is a plurality of, and a plurality of shower nozzle 23 is along the length direction evenly distributed of transfer line 21, and every shower nozzle 23 all is fixed the setting on transfer line 21, and every shower nozzle 23 is all vertical downwards.

The nutrient solution in the water tank 14 can be conveyed to the infusion tube 21, and the nutrient solution in the infusion tube 21 can be left on the ground through the plurality of spray heads 23 and flows into a deeper position through the vent holes inserted by the needle-shaped scarifier 20, so that the nutrient solution can be absorbed by the root system more easily.

The crushing assembly 5 comprises:

the number of the second connecting arms 24 is two, the two second connecting arms are arranged at intervals along the length direction of the connecting roller 18, each second connecting arm 24 is formed with a hinged portion 25, and each hinged portion 25 is hinged with the mounting plate 2;

the number of the second electric cylinders 26 is two, the two second electric cylinders are arranged at intervals along the length direction of the connecting roller 18, each second electric cylinder 26 is hinged with the mounting plate 2, the two second electric cylinders 26 are positioned on one side, close to the effect-improving assembly 4, of the second connecting arm 24, and the output end of each second electric cylinder 26 is hinged with one end, close to the effect-improving assembly 4, of the hinged part 25 of the second connecting arm 24;

the axis of the crushing roller 27 is parallel to the axis of the connecting roller 18, two ends of the crushing roller 27 are respectively coupled with the two second connecting arms 24, and the crushing roller 27 is positioned below the mounting plate 2;

and the arc-shaped shielding plate 28 is sleeved above the crushing roller 27, and the arc-shaped shielding plate 28 is fixedly arranged on the two second connecting arms 24.

When the crushing assembly 5 is started, the output end of the second electric cylinder 26 is pushed outwards to push the second connecting arm 24 to rotate around the hinge portion 25, the end portion of the connecting arm far away from the electric cylinder moves close to the ground to drive the crushing roller 27 to move close to the ground, the differential assembly 6 drives the crushing roller 27 to rotate to crush the hard bumps and weeds shoveled by the plough 11, and the crushed bumps and weeds are covered on the soft land again.

The differential assembly 6 includes:

a worm 29 which is horizontal, the worm 29 is positioned above the mounting plate 2, the length direction of the worm 29 is vertical to the length direction of the grinding roller 27, and two ends of the worm 29 are coupled with the mounting plate 2 through a third shaft seat 30;

the number of the worm wheels 31 is two, the two worm wheels 31 are arranged at intervals along the length direction of the worm 29, and both the two worm wheels 31 are meshed with the worm 29;

the motor 32 is fixedly arranged on the mounting plate 2, and an output shaft of the motor 32 is fixedly connected with the turbine 31 far away from the crushing assembly 5;

a second connecting shaft 33, the axis of which is coaxial with the hinge part 25, the second connecting shaft 33 is coupled with the mounting plate 2, and the second connecting shaft 33 is fixedly inserted into the turbine 31 close to the crushing assembly 5;

a first pulley 34 fixedly sleeved on the second connecting shaft 33;

a second belt wheel 35 fixedly sleeved on the second connecting shaft 33, the diameter of the second belt wheel 35 being larger than that of the first belt wheel 34;

a third belt wheel 36 fixedly sleeved on a driving shaft 40 of the vehicle 1, the third belt wheel 36 and the first belt wheel 34 being connected by a first belt 37, the third belt wheel 36 being a low-speed output end of the differential assembly 6;

and a fourth pulley 38 fixedly sleeved at an end of the crushing roller 27, wherein the fourth pulley 38 is connected with the second pulley 35 through a second belt 39, the diameter of the fourth pulley 38 is smaller than that of the third pulley 36, and the fourth pulley 38 is a high-speed output end of the differential assembly 6.

Because the driving shaft 40 and the crushing roller 27 of the vehicle 1 are driven by the differential assembly 6, and the crushing roller 27 is required to complete crushing work while the vehicle 1 is running, the rotation speed of the crushing roller 27 is required to be larger than that of the driving shaft 40, the diameter of the second belt wheel 35 is larger than that of the first belt wheel 34, the diameter of the fourth belt wheel 38 is smaller than that between the third belt wheels 36, and the first belt wheel 34 and the second belt wheel 35 rotate synchronously, so that the rotation speed of the fourth belt wheel 38 is larger than that of the third belt wheels 36.

The axis of the second connecting shaft 33 is coaxial with the hinge portion 25, and when the second electric cylinder 26 rotates the crushing roller 27, the distance between the second belt pulley 35 and the fourth belt pulley 38 is constant, and the second belt 39 is still in a tensioned state.

The above examples are merely illustrative of one or more embodiments of the present invention, and the description thereof is more specific and detailed, but not intended to be construed as limiting the scope of the invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (7)

1. The utility model provides an injection formula soil increase device for afforestation which characterized in that includes:

the carrier vehicle (1) comprises a horizontal mounting plate (2), and a movable generator (3) is fixedly arranged on the mounting plate (2);

the synergistic assembly (4) is fixedly arranged on the mounting plate (2), and the synergistic assembly (4) is positioned at the front end of the carrier vehicle (1);

the smashing assembly (5) is fixedly arranged on the mounting plate (2), the smashing assembly (5) is positioned at the rear end of the carrier vehicle (1), and the smashing assembly (5) is used for smashing soil blocks and weeds;

and the differential component (6) is fixedly arranged on the mounting plate (2), and the differential component (6) is provided with a low-speed output end connected with the carrier vehicle (1) and a high-speed output end connected with the crushing component (5).

2. An injection soil enhancement device for landscaping, as claimed in claim 1, wherein the enhancement assembly (4) comprises:

the first connecting shaft (7) is in a horizontal state, the length direction of the first connecting shaft (7) is vertical to the running direction of the carrier vehicle (1), the first connecting shaft (7) is positioned above the mounting plate (2), and two ends of the first connecting shaft (7) are connected with the mounting plate (2) through two first shaft seats (8);

the connecting frame (9) is in a horizontal state, the connecting frame (9) is fixedly sleeved on the first connecting shaft (7), and the length direction of the connecting frame (9) is parallel to the length direction of the first connecting shaft (7);

the number of the starting devices (10) is two, the two starting devices (10) are arranged at intervals along the length direction of the first connecting shaft (7), the two starting devices (10) are fixedly arranged on the mounting plate (2), the two starting devices (10) are positioned on one side, close to the crushing assembly (5), of the connecting frame (9), and each starting device (10) is connected with the connecting frame (9);

a plurality of ploughs (11), wherein the plurality of ploughs (11) are arranged at intervals along the length direction of the connecting frame (9), the plurality of ploughs (11) are all fixedly arranged on the connecting frame (9), and each ploughing (11) is positioned below the mounting plate (2);

the soil loosening device (12) is fixedly arranged on the connecting frame (9) and is positioned on one side of the plough (11) close to the crushing assembly (5);

sprinkler (13), it is including water tank (14) and spraying mechanism (15), and water tank (14) are fixed to be set up on mounting panel (2), and spraying mechanism (15) are fixed to be set up the lower extreme at mounting panel (2) to spraying mechanism (15) are located loosening the soil device (12) and are close to one side of smashing subassembly (5).

3. An injection soil enhancement device for landscaping, as claimed in claim 2, wherein the activation device (10) comprises:

the first connecting arm (16) is in a vertical state, and the lower end of the first connecting arm is fixedly connected with the connecting frame (9);

first electronic jar (17), it is articulated with mounting panel (2), and first electronic jar (17) are located between link (9) and crushing unit (5), and the output of first electronic jar (17) is articulated with the upper end of first connecting arm (16).

4. An injection soil synergistic device for landscaping as in claim 3, wherein the soil loosening device (12) comprises:

the axis of the connecting roller (18) is parallel to the axis of the first connecting shaft (7), the connecting roller (18) is positioned below the mounting plate (2), and the connecting pipe is connected with the connecting frame (9) through two second shaft seats (19);

needle-like ripper (20), quantity is a plurality of, and a plurality of needle-like ripper (20) evenly distributed is on connecting roller (18), and every needle-like ripper (20) all fixes the setting on connecting roller (18).

5. An injection soil enhancement device for landscaping, as claimed in claim 4, wherein the spraying mechanism (15) comprises:

the axis of the infusion tube (21) is parallel to the axis of the connecting roller (18), and the infusion tube (21) is fixedly arranged on the mounting plate (2) through a mounting frame (22);

the number of the spray heads (23) is a plurality, the spray heads (23) are uniformly distributed along the length direction of the infusion tube (21), each spray head (23) is fixedly arranged on the infusion tube (21), and each spray head (23) faces downwards vertically.

6. An injection soil enhancement device for landscaping, as claimed in claim 4, wherein the size reduction assembly (5) comprises:

the number of the second connecting arms (24) is two, the two second connecting arms are arranged at intervals along the length direction of the connecting roller (18), each second connecting arm (24) is formed with a hinged portion (25), and each hinged portion (25) is hinged with the mounting plate (2);

the number of the second electric cylinders (26) is two, the two second electric cylinders are arranged at intervals along the length direction of the connecting roller (18), each second electric cylinder (26) is hinged with the mounting plate (2), the two second electric cylinders (26) are positioned on one side, close to the synergistic assembly (4), of the second connecting arm (24), and the output end of each second electric cylinder (26) is hinged with one end, close to the synergistic assembly (4), of the hinged portion (25) of the second connecting arm (24);

the axis of the crushing roller (27) is parallel to the axis of the connecting roller (18), two ends of the crushing roller (27) are respectively coupled with the two second connecting arms (24), and the crushing roller (27) is positioned below the mounting plate (2);

and the arc-shaped shielding plate (28) is sleeved above the crushing roller (27), and the arc-shaped shielding plate (28) is fixedly arranged on the two second connecting arms (24).

7. An injection soil enhancement device for landscaping, as claimed in claim 6, wherein the differential assembly (6) comprises:

the worm (29) is in a horizontal state, the worm (29) is positioned above the mounting plate (2), the length direction of the worm (29) is vertical to the length direction of the grinding roller (27), and two ends of the worm (29) are in shaft joint with the mounting plate (2) through a third shaft seat (30);

the number of the worm wheels (31) is two, the two worm wheels (31) are arranged at intervals along the length direction of the worm (29), and the two worm wheels (31) are meshed with the worm (29);

the motor (32) is fixedly arranged on the mounting plate (2), and an output shaft of the motor (32) is fixedly connected with the turbine (31) far away from the crushing assembly (5);

the axis of the second connecting shaft (33) is coaxial with the hinge part (25), the second connecting shaft (33) is in shaft connection with the mounting plate (2), and the second connecting shaft (33) is fixedly inserted into the turbine (31) close to the crushing assembly (5);

a first belt wheel (34) which is fixedly sleeved on the second connecting shaft (33);

the second belt wheel (35) is fixedly sleeved on the second connecting shaft (33), and the diameter of the second belt wheel (35) is larger than that of the first belt wheel (34);

a third belt wheel (36) fixedly sleeved on a driving shaft (40) of the vehicle (1), wherein the third belt wheel (36) is connected with the first belt wheel (34) through a first belt (37), and the third belt wheel (36) is a low-speed output end of the differential assembly (6);

and a fourth belt wheel (38) fixedly sleeved at the end part of the crushing roller (27), wherein the fourth belt wheel (38) is connected with the second belt wheel (35) through a second belt (39), the diameter of the fourth belt wheel (38) is smaller than that of the third belt wheel (36), and the fourth belt wheel (38) is a high-speed output end of the differential assembly (6).

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