CN115529995A - Carbon fixation device for improving waxberry artificial forest and use method thereof - Google Patents

Abstract

The invention discloses a carbon fixing device for improving the red bayberry artificial forest and a using method thereof, and the carbon fixing device comprises a vehicle body, wherein a material pushing mechanism is fixedly connected to the vehicle body, the vehicle body is arranged in a driving mechanism, a material supplementing mechanism is fixedly connected to the vehicle body through a blanking chamber, a discharging mechanism is fixedly connected to the blanking chamber, a driving wheel is mounted on the vehicle body and driven by a diesel engine, the diesel engine is fixedly connected to the vehicle body, a driving position is arranged on one side of the diesel engine and fixedly connected to the vehicle body, and a cleaning shovel is fixedly connected to the advancing end of the vehicle body.

Description

Carbon fixation device for improving waxberry artificial forest and use method thereof

Technical Field

The invention relates to the technical field of artificial carbon sequestration, in particular to a carbon sequestration device for improving waxberry artificial forests and a using method thereof.

Background

Traditional afforestation methods are usually accompanied with scarfing (including cutting grass under the forest or refining a mountain), and soil preparation (including local soil preparation or comprehensive soil preparation) to facilitate survival and rapid growth of the forest, but these activities inevitably affect huge soil carbon reservoirs, resulting in release of a large amount of organic carbon in the soil.

In order to capture carbon and safely store the carbon to replace the direct emission of CO to the atmosphere, people lay vegetation in the open space under the forest, after the artificial forest of the waxberries is formed, the forest has no sunlight, and the shrubs cannot grow by the method, so the carbon can not be fixed by the shrubs, and the lichens have good carbon fixing effect.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a carbon fixing device for improving a waxberry artificial forest and a using method thereof, and solves the technical problems that when a traditional moss is paved by a paving machine, the machine needs to run to the side to clamp a moss roll after every moss roll is used, the running efficiency is low, or when the moss roll is replaced manually, the machine needs to be stopped, and the working time is delayed.

In order to realize the purpose, the invention is realized by the following technical scheme:

the technical scheme adopted by the invention for solving the technical problem is as follows: a carbon sequestration device for improving waxberry artificial forest and a using method thereof comprise:

a vehicle body;

the vehicle body is fixedly connected with a material pushing mechanism;

the pushing equipment includes fixed block, cavity, ejector pad, bolt, axis of rotation, gangbar and guide opening, fixed block fixed connection is in the automobile body, the upper end of fixed block with the automobile body upper end is same horizontal plane, a plurality of cavities have been seted up on the fixed block, and is a plurality of the cavity is linear arrangement, there is the ejector pad cavity inside, the ejector pad rotates by the bolt to be connected in the cavity, the lower extreme of ejector pad rotates and is connected with the axis of rotation, the axis of rotation is in the below of bolt, axis of rotation and gangbar fixed welding, the gangbar runs through a plurality ofly the cavity, gangbar and a plurality of cavity sliding connection, the gangbar will be a plurality of the ejector pad is established ties, the one end of gangbar extends from the guide opening the automobile body, the guide opening is seted up one side of automobile body.

Preferably, actuating mechanism includes the automobile body, install the drive wheel on the automobile body, the drive wheel is by diesel engine drive, diesel engine fixed connection be in on the automobile body, there is the driving position one side of diesel engine, driving position fixed connection be in on the automobile body, the forward end fixedly connected with of automobile body clears up the shovel.

Preferably, the feeding mechanism comprises the charging hopper, a blanking chamber is fixedly connected to the lower end of the charging hopper, the blanking chamber is fixedly connected to the vehicle body, the blanking chamber is located on the back face of the driving seat, a blanking hopper is rotatably connected to the inside of the blanking chamber, the blanking hopper is located at an outlet of the lower end of the charging hopper, one end of the blanking hopper is fixedly connected to an output shaft of a blanking motor, the blanking motor is fixedly connected to the side wall of the blanking chamber, and a moss roll is placed in the charging hopper.

Preferably, discharge mechanism includes ejection of compact motor, ejection of compact motor fixed connection be in on the lateral wall of unloading room, the output shaft and the home roll fixed connection of ejection of compact motor, the home roll is rotated by the bearing and is connected in the unloading is indoor, there is the auxiliary roll one side of home roll, the auxiliary roll is also rotated by the bearing and is connected in the unloading is indoor, the home roll for the auxiliary roll leans on outside, the main ratchet of the other end fixedly connected with of home roll, the vice ratchet of the other end fixedly connected with of auxiliary roll, main ratchet with by the transmission ratchet transmission between the vice ratchet, the main ratchet the vice ratchet with the transmission ratchet all rotates to be connected on the lateral wall of unloading room.

Preferably, a plurality of anti-skid nails are fixedly connected to the auxiliary ratchet wheel and the main ratchet wheel, a baffle plate is arranged on one side of the discharging chamber for sealing, a port for discharging the moss roll is reserved after sealing, and a material spreading plate is fixedly connected to the tail of the vehicle body and is beneficial to the moss roll to fall on the ground.

Preferably, the pushing mechanism further comprises a first rotating cap, a connecting rod, a fixing column and a second rotating cap, the linkage rod is connected with the first rotating cap in a rotating mode, the first rotating cap is fixedly connected with the connecting rod, the other end of the connecting rod is fixedly connected with the second rotating cap, the second rotating cap is connected with the fixing column in a rotating mode, and the fixing column is fixedly connected to the main ratchet wheel.

Preferably, the end of the material pushing block, which is contacted with the moss roll, is an arc surface.

A use method of a carbon sequestration device for improving a waxberry artificial forest comprises the following specific steps:

s1: firstly, a user should drive the device to a specified position, and after checking that all components are intact, the lichen roll is added into a charging hopper according to the regulation;

s2: then starting a blanking motor and a discharging motor, wherein the blanking motor works, the lichen roll is put into a blanking chamber, and the blanking motor stops working after the blanking hopper rotates for a circle and is reset;

s3: when the discharging motor works, the moss rolls can be orderly taken out of the discharging chamber, a user needs to drive the device to run on a pavement needing to be paved, and meanwhile, the user needs to observe whether the moss rolls are paved correctly or not, make adjustment in time and clean hay and sundries on a cleaning shovel in time;

s4: after the moss roll in the feeding chamber is used up, the process of S2 should be repeated;

s5, the moss roll is required to be added into the charging hopper in the right direction at any time.

The invention has the beneficial effects that:

(1) According to the carbon fixation device for improving the waxberry artificial forest and the use method thereof, the cleaning shovel is driven to move when the vehicle body moves forwards, and can remove hay and branches on the ground, so that the moss roll can be better attached to the ground, and the survival rate is improved.

(2) The invention relates to a carbon fixation device for improving waxberry artificial forest and a using method thereof.A linkage rod drives a material pushing block to rotate back and forth by taking a bolt as a center when driving the lower end of the material pushing block to move back and forth, the upper end of the material pushing block also rotates back and forth to do a stirring cycle action, the material pushing block stirs moss when rotating, the moss is pushed to a material spreading plate, then the material pushing block returns to a position, the cambered surface on the material pushing block is contacted and slipped through the moss when the material pushing block does not stir the moss, the material pushing block rotates again to stir the moss to the material spreading plate after the return is finished, the motion of the material pushing block can comb moss coils to be orderly discharged, and the phenomenon of blocking in a discharging mechanism is prevented.

(3) According to the carbon sequestration device for improving the waxberry artificial forest and the using method thereof, when the feeding hopper rotates to a preset amplitude, the moss rolls in the feeding hopper can fall into the blanking chamber, the feeding hopper can reset after continuously rotating for a week, the blanking motor stops working, the bottom and the side of the feeding hopper can abut against the lowermost moss rolls in the charging hopper in the rotating process, and when the feeding hopper resets after rotating for a week, the lowermost moss rolls in the charging hopper can fall into the feeding hopper.

(4) According to the carbon fixation device for improving the waxberry artificial forest and the using method thereof, when the material pushing block reciprocates, lichen can be continuously lifted in a reciprocating manner, so that the lichen conveyed by the main roller can be timely separated from the anti-slip nails, and winding is prevented.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present invention;

FIG. 2 is a schematic view of a backside connection structure of the present invention;

FIG. 3 is a schematic view of the connection structure of the discharging mechanism;

FIG. 4 is a schematic view of a connection structure of a fixing block, a cavity and a material pushing block;

FIG. 5 is a schematic view of a connection structure of a material pushing block, a plug pin and a rotating shaft;

FIG. 6 is a schematic view of a connecting structure of a pusher block and a linkage rod;

FIG. 7 is a cross-sectional view of a fixed block;

FIG. 8 is an enlarged view of the point A in FIG. 3;

FIG. 9 is a view showing the operation of the lichen, the main roller and the sub roller;

FIG. 10 shows the moss and hopper after being correctly loaded manually;

in the figure: 1. a drive mechanism; 11. a vehicle body; 12. a drive wheel; 13. a diesel engine; 14. a driving position; 15. cleaning a shovel; 2. a material supplementing mechanism; 21. a charging hopper; 22. lichen roll; 23. a blanking chamber; 24. feeding a hopper; 25. a blanking motor; 3. a discharging mechanism; 31. a discharging motor; 32. a main roller; 33. a secondary roll; 34. a secondary ratchet; 35. a driving ratchet wheel; 36. a main ratchet wheel; 37. anti-skid nails; 38. a baffle plate; 39. paving a material plate; 4. a material pushing mechanism; 41. a fixed block; 42. a cavity; 43. a material pushing block; 44. a bolt; 45. a rotating shaft; 46. a linkage rod; 47. a guide port; 48. a first rotatable cap; 49. a connecting rod; 410. fixing the column; 411. a second rotatable cap.

Detailed Description

The embodiment of the invention provides a carbon fixing device for improving waxberry artificial forest and a using method thereof, and solves the technical problems that when lichen is paved by a traditional paving machine, the machine needs to drive to the side to clamp lichen rolls after every lichen roll is used, the driving efficiency is low, or when the lichen rolls are replaced manually, the machine needs to be stopped, and the working time is delayed.

In order to solve the technical problems, the technical scheme in the embodiment of the invention has the following general idea: the blanking motor 25 works to drive the blanking hopper 24 to rotate, the blanking hopper 24 rotates towards the charging hopper 21, when the blanking hopper 24 rotates to a preset amplitude, the moss roll 22 in the blanking hopper 24 can drop into the blanking chamber 23, the blanking hopper 24 can reset after continuing to rotate for a circle, the blanking motor 25 stops working, the bottom and the side of the blanking hopper 24 can abut against the lowermost moss roll 22 in the charging hopper 21 in the rotating process, when the blanking hopper 24 rotates for a circle to reset, the lowermost moss roll 22 in the charging hopper 21 can drop into the blanking hopper 24, the operation of automatically supplementing the moss roll 22 is realized, and the moss roll 22 does not need to be supplemented manually for multiple times.

In order to better understand the technical solution, the technical solution will be described in detail with reference to the drawings and the specific embodiments.

As shown in fig. 1, 4, 5, 6 and 7, the carbon sequestration device for improving the bayberry artificial forest according to the present invention includes:

a vehicle body 11;

the vehicle body 11 is fixedly connected with a material pushing mechanism 4;

the pushing mechanism 4 comprises a fixing block 41, a cavity 42, a pushing block 43, a bolt 44, a rotating shaft 45, a linkage rod 46 and a guide port 47, wherein the fixing block 41 is fixedly connected in the vehicle body 11, the upper end of the fixing block 41 and the upper end of the vehicle body 11 are on the same horizontal plane, the fixing block 41 is provided with a plurality of cavities 42, the cavities 42 are linearly arranged, the pushing block 43 is connected in the cavity 42 in a rotating manner through the bolt 44, the lower end of the pushing block 43 is rotatably connected with the rotating shaft 45, the rotating shaft 45 is arranged below the bolt 44, the rotating shaft 45 and the linkage rod 46 are fixedly welded, the linkage rod 46 penetrates through the cavities 42, the linkage rod 46 and the cavities 42 are in sliding connection, the linkage rod 46 connects the pushing blocks 43 in series, one end of the linkage rod 46 extends out of the guide port 47, the guide port 47 is arranged on one side of the vehicle body 11, and one end, in contact with the pushing block 43 and the moss coil 22, is an arc surface.

In the embodiment of the present invention, the linkage rod 46 slides back and forth in the fixed block 41 to drive the rotation shaft 45 to move back and forth, the rotation shaft 45 moves back and forth to drive the lower end of the material pushing block 43 to move back and forth, because the material pushing block 43 is rotatably connected to the cavity 42 by the bolt 44, the lower end of the material pushing block 43 moves back and forth to drive the material pushing block 43 to rotate back and forth around the bolt 44, the upper end of the material pushing block 43 also rotates back and forth to perform a poking cycle, when the moss is on the material pushing block 43, the moss is poked by the material pushing block 43 when the material pushing block 43 rotates to push the moss to the material spreading plate 39, and then the material pushing block 43 returns to reset, at this time, the arc surface on the material pushing block 43 slides through contact with the moss, the moss cannot poke by the material spreading plate 39, after the rotating reset is completed, the material pushing block 43 rotates again to poke the moss to stir the moss to sequentially discharge the moss rolls 22, so as to prevent the occurrence of a blocking situation in the discharging mechanism 3.

Specifically, as shown in fig. 1, the driving mechanism 1 includes a vehicle body 11, a driving wheel 12 is mounted on the vehicle body 11, the driving wheel 12 is driven by a diesel engine 13, the diesel engine 13 is fixedly connected to the vehicle body 11, a driving position 14 is arranged on one side of the diesel engine 13, the driving position 14 is fixedly connected to the vehicle body 11, and a cleaning shovel 15 is fixedly connected to the advancing end of the vehicle body 11.

In the embodiment of the invention, after a user goes to a driving seat 14, the diesel engine 13 is started, the diesel engine 13 drives the driving wheel 12 to work, the user needs to control the advancing direction of the vehicle body 11, the vehicle body 11 can drive the cleaning shovel 15 to move when advancing, and the cleaning shovel 15 can remove hay and tree branches on the ground, so that the moss roll 22 can be better attached to the ground, and the survival rate is improved.

Specifically, as shown in fig. 2 and fig. 3, the feeding mechanism 2 includes the charging hopper 21, a discharging chamber 23 is fixedly connected to a lower end of the charging hopper 21, the discharging chamber 23 is fixedly connected to the vehicle body 11, the discharging chamber 23 is located on a back side of the driving seat 14, a discharging hopper 24 is rotatably connected to the discharging chamber 23, the discharging hopper 24 is located at an outlet of a lower end of the charging hopper 21, one end of the discharging hopper 24 is fixedly connected to an output shaft of a discharging motor 25, the discharging motor 25 is fixedly connected to a sidewall of the discharging chamber 23, and a moss roll 22 is placed in the charging hopper 21.

In the embodiment of the present invention, a user should ensure that there are enough rolls 22 to be paved in the charging hopper 21, after the rolls 22 of moss in the discharging chamber 23 are paved, the discharging motor 25 should be started at the driving position 14, the discharging motor 25 rotates to drive the discharging hopper 24 to rotate, the discharging hopper 24 rotates towards the charging hopper 21, when the discharging hopper 24 rotates to a preset extent, the rolls 22 of moss in the discharging hopper 24 drop into the discharging chamber 23, the discharging hopper 24 continues to rotate for one week and then resets, the discharging motor 25 stops working, the bottom and the side of the discharging hopper 24 during the rotation process have an abutting effect on the lowest roll 22 in the charging hopper 21, and when the discharging hopper 24 rotates for one week and resets, the lowest roll 22 in the charging hopper 21 drops into the discharging hopper 24, which is the whole material supplementing process without manual multiple times of material feeding, and after one roll 22 of moss is used in the conventional machine, one roll of moss needs to be supplemented manually, which greatly delays the working efficiency.

Specifically, as shown in fig. 2, 3 and 8, the discharging mechanism 3 includes a discharging motor 31, the discharging motor 31 is fixedly connected to a side wall of the discharging chamber 23, an output shaft of the discharging motor 31 is fixedly connected to a main roller 32, the main roller 32 is rotatably connected to the inside of the discharging chamber 23 by a bearing, one side of the main roller 32 is provided with a sub roller 33, the sub roller 33 is also rotatably connected to the inside of the discharging chamber 23 by a bearing, the main roller 32 is located outside the sub roller 33, the other end of the main roller 32 is fixedly connected to a main ratchet 36, the other end of the sub roller 33 is fixedly connected to a sub ratchet 34, the main ratchet 36 and the sub ratchet 34 are driven by a driving ratchet 35, the main ratchet 36, the sub ratchet 34 and the driving ratchet 35 are rotatably connected to the side wall of the discharging chamber 23, the sub ratchet 34 and the main ratchet 36 are fixedly connected to a plurality of anti-skid nails 37, one side of the discharging chamber 23 is provided with a baffle 38 for sealing, a moss feeding opening for feeding the moss roll 22 is reserved on the discharging mechanism 11, and the tail of the vehicle body 11 is fixedly connected to a spreading roll 39, and the moss roll 22 is beneficial to be dropped on the ground.

In the embodiment of the present invention, after the discharging motor 31 is started, the main roller 32 is driven to rotate, the rotation direction of the main roller 32 is towards the outside of the discharging chamber 23, the main roller 32 is driven to rotate, the main ratchet 36 is driven to rotate, the transmission ratchet 35 is driven to rotate, the auxiliary ratchet 34 is driven to rotate, the auxiliary roller 33 is driven to rotate, the rotation direction of the auxiliary roller 33 is consistent with that of the main roller 32, the moss roll 22 falls between the main roller 32 and the auxiliary roller 33, the main roller 32 is driven to rotate, the anti-slipping nails 37 are driven to be inserted into the moss roll 22 for placing, and the moss roll 22 is driven to be pushed outwards by the anti-slipping nails 37, at this time, under the action of the auxiliary roller 33, the moss roll 22 can rotate in the discharging chamber 23, and one end of the moss roll 22 can extend out from the discharging chamber 23.

It will be appreciated that when the pusher block 43 is returned to its original position, the loop on the pusher block 43 slides over the moss and the pusher block 43 does not pull on the moss, but the pusher block 43 pushes up the moss and the moss is lifted, and the moss on the main roller 32 is released from the studs 37 on the main roller 32, which further facilitates the main roller 32 to convey the moss to be laid down and the moss is released from the main roller 32, so as to prevent the machine from being jammed without the moss being released from the main roller 32.

Specifically, as shown in fig. 2, fig. 4, fig. 5, fig. 6 and fig. 7, the pushing mechanism 4 further includes a first rotating cap 48, a connecting rod 49, a fixed column 410, and a second rotating cap 411, the linkage rod 46 is rotatably connected to the first rotating cap 48, the first rotating cap 48 is fixedly connected to the connecting rod 49, the other end of the connecting rod 49 is fixedly connected to the second rotating cap 411, the second rotating cap 411 is rotatably connected to the fixed column 410, and the fixed column 410 is fixedly connected to the main ratchet 36.

In the embodiment of the present invention, the main ratchet 36 drives the fixed column 410 to rotate when rotating, the fixed column 410 drives the second rotating cap 411 to rotate, the second rotating cap 411 drives the linkage rod 46 to move, the linkage rod 46 drives the first rotating cap 48 to move, and the first rotating cap 48 drives the connecting rod 49 to slide back and forth in the guide opening 47.

The motor is powered by a battery (not shown).

When the device is used, a user starts the diesel engine 13 after going up the driving position 14, the diesel engine 13 drives the driving wheel 12 to work, the user controls the traveling direction of the vehicle body 11 through a steering wheel (not shown in the figure), the vehicle body 11 drives the cleaning shovel 15 to move when traveling, the cleaning shovel 15 removes hay and tree branches on the ground so that the moss rolls 22 better fit the ground, and the survival rate is improved, the user should ensure that the charging hopper 21 has enough moss rolls 22 to be laid (the user should correctly add moss, and the state diagram after adding moss is shown in fig. 10), after the moss rolls 22 in the charging chamber 23 are laid, the driving position 14 starts the blanking motor 25, the blanking motor 25 rotates to drive the discharging hopper 24 to rotate, the discharging hopper 24 rotates towards the charging hopper 21, when the discharging hopper 24 rotates to a preset amplitude, the moss rolls 22 in the discharging chamber 23 fall into the discharging chamber, the discharging hopper 24 continuously rotates for a circle, the blanking motor 25 is reset, the discharging hopper 24 stops working, the bottom and the side of the lower hopper 24 abut against the moss rolls 22 in the charging hopper 21, and the lowest moss rolls 24, and the whole charging hopper 24 can fall into the lowest hopper 21; after the discharging motor 31 is started, the main roller 32 is driven to rotate, the rotation direction of the main roller 32 is towards the outside of the discharging chamber 23, the main roller 32 drives the main ratchet wheel 36 to rotate, the main ratchet wheel 36 drives the transmission ratchet wheel 35 to rotate, the transmission ratchet wheel 35 drives the auxiliary ratchet wheel 34 to rotate, the auxiliary ratchet wheel 34 drives the auxiliary roller 33 to rotate, the rotation directions of the auxiliary roller 33 and the main roller 32 are consistent, the moss roll 22 falls between the main roller 32 and the auxiliary roller 33, the main roller 32 rotates to drive the anti-skid nails 37 to be inserted into the moss roll 22 and drive the moss roll 22 to be lowered, the anti-skid nails 37 drive the moss roll 22 to be moved outwards, at the moment, under the action of the auxiliary roller 33, the moss roll 22 can rotate in the discharging chamber 23, one end of the moss roll 22 can extend out from the discharging chamber 23, the main ratchet wheel 36 can drive the fixed column 410 to rotate when rotating, the fixed column 410 drives the second rotating cap 411 to rotate, and the second rotating cap 411 drives the linkage rod 46 to move, the linkage rod 46 drives the first rotating cap 48 to move, the first rotating cap 48 drives the connecting rod 49 to slide back and forth in the guide opening 47, the linkage rod 46 drives the rotating shaft 45 to move back and forth when sliding back and forth in the fixed block 41, the rotating shaft 45 moves back and forth to drive the lower end of the material pushing block 43 to move back and forth, because the material pushing block 43 is connected to the cavity 42 by the bolt 44, the lower end of the material pushing block 43 moves back and forth to drive the material pushing block 43 to rotate back and forth with the bolt 44 as the center, at the same time, the upper end of the material pushing block 43 also rotates back and forth to do a stirring cycle action, when the moss is on the moss 43, the material pushing block 43 is stirred when rotating to push the moss to move up the material spreading plate 39, then the material pushing block 43 rotates back and returns back, at the arc surface on the material pushing block 43 slides through the moss by contacting with the moss, the moss can not be stirred by the material pushing block 43, after the rotation return is finished, the moss pushing block 43 rotates again to stir up the moss spreading plate 39, the push block 43 can move to comb out the moss roll 22 to discharge moss in sequence, so that the moss roll 3 is prevented from being blocked, meanwhile, when the push block 43 returns to reset, the arc surface on the push block 43 is in contact with moss to slide, the moss cannot be pushed by the push block 43, but the moss can be jacked up by the push block 43 to lift the moss, and the moss on the main roller 32 can be separated from the anti-skid nails 37 on the main roller 32, so that the moss can be conveyed by the main roller 32 to be paved, and the moss can be separated from the main roller 32 to prevent the machine from being blocked after the moss is not separated from the main roller 32.

Specifically, a use method of the carbon sequestration device for improving the waxberry artificial forest comprises the following specific steps:

s1: firstly, a user should drive the device to a specified position, and after checking that all components are intact, the lichen roll 22 is added into the charging hopper 21 according to the regulation;

s2: then starting the blanking motor 25 and the discharging motor 31, enabling the blanking motor 25 to work, putting the lichen roll 22 into the blanking chamber 23, and enabling the blanking motor 25 to stop working after the blanking hopper 24 rotates for a circle and is reset;

s3: when the discharging motor 31 works, the moss roll 22 is orderly taken out of the discharging chamber 23, a user needs to drive the device to run on a pavement to be paved, and meanwhile, the user needs to observe whether the moss roll 22 is paved correctly or not, make adjustment in time, and clear the hay and sundries on the cleaning shovel 15 in time;

s4: after the roll of moss 22 in the discharge chamber 23 has been used up, the process S2 should be repeated;

s5, the moss coil 22 is required to be added into the charging hopper 21 in the correct direction at any time.

The foregoing shows and describes the general principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the embodiments and descriptions given above are only illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a improve fixed carbon device of artifical woods of red bayberry which characterized in that includes:

a vehicle body (11);

the vehicle body (11) is fixedly connected with a material pushing mechanism (4);

the pushing mechanism (4) comprises a fixed block (41), a cavity (42), a pushing block (43), a plug pin (44), a rotating shaft (45), a linkage rod (46) and a guide opening (47), the fixed block (41) is fixedly connected in the vehicle body (11), the upper end of the fixed block (41) and the upper end of the vehicle body (11) are on the same horizontal plane, a plurality of cavities (42) are arranged on the fixing block (41), the cavities (42) are arranged linearly, a material pushing block (43) is arranged in the cavity (42), the material pushing block (43) is rotatably connected in the cavity (42) through a bolt (44), the lower end of the material pushing block (43) is rotationally connected with a rotating shaft (45), the rotating shaft (45) is arranged below the bolt (44), the rotating shaft (45) and the linkage rod (46) are fixedly welded, the linkage rod (46) penetrates through the cavities (42), the linkage rod (46) is connected with the cavities (42) in a sliding mode, the linkage rod (46) connects a plurality of the material pushing blocks (43) in series, one end of the linkage rod (46) extends out of the vehicle body (11) from the guide opening (47), the guide opening (47) is formed in one side of the vehicle body (11).

2. The apparatus of claim 1, further comprising: the driving mechanism (1), the car body (11) is arranged in the driving mechanism (1).

3. The device for increasing carbon sequestration of artificial waxberry forest according to claim 2, wherein: actuating mechanism (1) includes automobile body (11), install drive wheel (12) on automobile body (11), drive wheel (12) are driven by diesel engine (13), diesel engine (13) fixed connection be in on automobile body (11), there is driving position (14) one side of diesel engine (13), driving position (14) fixed connection be in on automobile body (11), the forward end fixedly connected with clearance shovel (15) of automobile body (11).

4. The device for increasing carbon sequestration for waxberry artificial forest according to claim 3, further comprising: the feeding mechanism (2) is fixedly connected to the car body (11) through a discharging chamber (23), the feeding mechanism (2) comprises the charging hopper (21), the lower end of the charging hopper (21) is fixedly connected with the discharging chamber (23), the discharging chamber (23) is fixedly connected to the car body (11), the discharging chamber (23) is arranged on the back face of the driving seat (14), a discharging hopper (24) is connected to the discharging chamber (23) in a rotating mode, the discharging hopper (24) is arranged at the lower end outlet of the charging hopper (21), one end of the discharging hopper (24) is fixedly connected with an output shaft of a discharging motor (25), the discharging motor (25) is fixedly connected to the side wall of the discharging chamber (23), and a moss roll (22) is placed in the charging hopper (21).

5. The device for increasing carbon sequestration for waxberry artificial forests according to claim 1, further comprising: the discharging mechanism (3), the discharging mechanism (3) is fixedly connected in the discharging chamber (23).

6. The device for increasing carbon sequestration for waxberry artificial forest according to claim 5, wherein: discharge mechanism (3) are including ejection of compact motor (31), ejection of compact motor (31) fixed connection is in on the lateral wall of unloading room (23), the output shaft and main roller (32) fixed connection of ejection of compact motor (31), main roller (32) are connected by the bearing rotation in unloading room (23), there is vice roller (33) one side of main roller (32), vice roller (33) also rotate by the bearing and connect in unloading room (23), main roller (32) for vice roller (33) leans on outward, the other end fixedly connected with main ratchet (36) of main roller (32), the other end fixedly connected with vice ratchet (34) of vice roller (33), main ratchet (36) with by transmission ratchet (35) transmission between vice ratchet (34), main ratchet (36), vice ratchet (34) with transmission ratchet (35) all rotate to be connected on the lateral wall of unloading room (23).

7. The device according to claim 6, wherein the carbon sequestration for the bayberry artificial forest is enhanced by: the auxiliary ratchet wheel (34) and the main ratchet wheel (36) are fixedly connected with a plurality of anti-skid nails (37), one side of the discharging chamber (23) is sealed by a baffle (38), a port for discharging the moss roll (22) is reserved after the discharging chamber is sealed, the tail part of the vehicle body (11) is fixedly connected with a spreading plate (39), and the spreading plate (39) is favorable for the moss roll (22) to fall on the ground.

8. The device according to claim 7, wherein the carbon sequestration for the bayberry artificial forest is enhanced by: pushing equipment (4) still include first rotation cap (48), connecting rod (49), fixed column (410), second rotation cap (411), it is connected with to rotate on gangbar (46) first rotation cap (48), fixedly connected with connecting rod (49) on first rotation cap (48), the other end and the second of connecting rod (49) rotate cap (411) fixed connection, cap (411) and fixed column (410) are rotated to the second and are connected, fixed column (410) fixed connection be in on main ratchet (36).

9. The device for improving waxberry artificial forest carbon sequestration according to claim 8, wherein the end of the push block (43) in contact with the roll of lichen (22) is a cambered surface.

10. The use method of the device for improving carbon sequestration of the bayberry artificial forest according to any one of claims 6-9, comprising the following specific steps:

s1: firstly, a user should drive the device to a specified position, and after checking that all components are intact, the lichen roll (22) is added into the charging hopper (21) according to the regulation;

s2: then starting a blanking motor (25) and a discharging motor (31), wherein the blanking motor (25) works, the lichen roll (22) is put into a blanking chamber (23), and the blanking motor (25) stops working after the blanking hopper (24) rotates for a circle and resets;

s3: when the discharging motor (31) works, the moss roll (22) can be orderly taken out of the discharging chamber (23), a user needs to drive the device to run on a pavement to be paved, and meanwhile, the user needs to observe whether the moss roll (22) is paved correctly or not, make adjustment in time, and clear the hay and sundries on the cleaning shovel (15) in time;

s4: after the moss roll (22) in the feeding chamber (23) is used up, the process of S (2) should be repeated;

s5, the moss roll (22) is required to be added into the charging hopper (21) in the right direction at any time.

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