CN209995012U

CN209995012U - lateral film-covering and soil-covering machine

Info

Publication number: CN209995012U
Application number: CN201920830851.7U
Authority: CN
Inventors: 李达; 石艳丽
Original assignee: Anhui Ruilifeng Agricultural Machinery Technology Co Ltd
Current assignee: Anhui Ruilifeng Agricultural Machinery Technology Co Ltd
Priority date: 2019-06-04
Filing date: 2019-06-04
Publication date: 2020-01-31
Anticipated expiration: 2029-06-04

Abstract

The utility model discloses an kind of side position tectorial membrane banking machine, including frame, drive arrangement, group native device, auger unearthing device, film frame device, the utility model discloses a through setting up above-mentioned group native device, auger unearthing device, film frame device realize constantly carrying out the film cover to the field ridge along with the motion of side position tectorial membrane banking machine among the technical scheme, the earthing gland the utility model discloses a device has solved prior art and has adopted artifical epiphragma, earthing compaction to have work efficiency low, film cover, the insufficient technical defect of compaction, the utility model discloses a technical scheme not only work efficiency is high and the film covers rigorously, still plays moisturizing, waterlogging drainage, suppresses weeds growth, improves the earth's surface temperature, promotes crop growth's effect.

Description

lateral film-covering and soil-covering machine

Technical Field

The utility model relates to agricultural machinery, in particular to an lateral position film covering and soil covering machine.

Background

For crop planting, due to climate reasons, film mulching is often needed on ridges after seeds are sown, namely, films are covered on the ridges, and after the covering is finished, soil compaction is adopted, so that the phenomenon that the films are blown away by wind is avoided. Meanwhile, furrows are required to be dug in ridges before reclamation, and the ditched soil is compacted into a thin film.

By the film mulching operation, the film mulching is carried out on the crops, and the effects of moisturizing, draining stagnant water, inhibiting weed growth, improving the surface temperature and promoting the growth of the crops can be achieved. Traditional laminating machine is just laminating machine, and the tectorial membrane mode is: the wheels of the tractor ride on the two sides of the ridge and pull the film covering machine to operate. When the ridge is wider or a larger plant is planted in the middle of the ridge to be coated with the film, the traditional film coating machine cannot work, if manual film coating is adopted, the labor intensity is too high, and the working efficiency is extremely low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that side position tectorial membrane banking machines are provided.

The utility model discloses a solve above-mentioned technical problem through following technical scheme:

lateral membrane covering and soil covering machines, which comprise a frame, a driving device, a soil shifting device, a packing auger soil discharging device and a membrane frame device;

the driving device is assembled on the frame and is in transmission connection with the soil shifting device and the auger soil discharging device;

the film frame device is assembled on the frame;

the rack comprises a front rack rod, a rear rack rod, a left rack rod and a right rack rod, wherein the front rack rod and the rear rack rod are parallel to each other, and the left rack rod and the right rack rod are respectively and fixedly connected to the left end and the right end of the front rack rod and the rear rack rod;

the rear frame rod and the front frame rod are both downwards fixedly connected with a supporting roller device;

the left end part of the rear frame rod is fixedly connected with a ditching plow downwards;

the left frame rod is downwards fixedly connected with a soil covering plough;

an th cross beam and a second cross beam are fixedly connected between the left frame rod and the right frame rod, and the th cross beam is positioned at the front side of the second cross beam;

the th cross beam is fixedly connected with a soil turning plough downwards, and the soil covering plough is positioned at the front side of the soil turning plough;

the driving device comprises a gearbox, the gearbox is positioned between the rear frame rod and the second cross beam, the gearbox is fixedly connected with a supporting piece, and the supporting piece is fixedly connected with the rack;

the gearbox is connected with a driving shaft, and the driving shaft is obliquely arranged;

the soil shifting device comprises a soil shifting rotating shaft, the soil shifting rotating shaft is parallel to the driving shaft, a plurality of shifting pieces are arranged at the right end of the soil shifting rotating shaft, and the soil shifting rotating shaft is positioned on the front side of the driving shaft;

the auger unearthing device comprises an auger feeding piece arranged on the front side of the earth poking rotating shaft, the auger feeding piece is in transmission connection with the earth poking rotating shaft, and the auger feeding piece is used for feeding and conveying earth poked loose from the earth poking rotating shaft;

the auger feeding piece is arranged in parallel with the soil stirring rotating shaft, the right end part of the auger feeding piece is fixedly connected with a supporting plate, and the supporting plate is fixedly connected with the rack; the right end part of the soil shifting rotating shaft is rotatably connected with the supporting plate;

the film frame device comprises a film placing rod and a film flattening rod, the film placing rod and the film flattening rod are fixedly connected to the rear end of the left frame rod, and the film placing rod and the film flattening rod are inclined upwards.

Preferably, the supporting roller device on the rear frame rod comprises an th roller and a second roller, the second roller is positioned at the right end part of the rear frame rod, and the th roller is positioned between the second roller and the furrow plough;

the support roller device positioned on the front frame rod comprises a third roller, and the third roller is positioned at the right end part of the front frame rod.

Preferably, the support member comprises an th connecting rod welded on the top surface of the gearbox, the th connecting rod is arranged obliquely, and the end of the th connecting rod is welded on the right end of the second cross beam;

the rear frame rod is provided with a suspension matched with the th link, and the other end of the th link is fixed on the suspension.

And a second connecting rod is fixedly connected to the right frame rod and fixedly connects the gearbox with the right frame rod.

Preferably, the drive shaft is provided with the bearing plate, the bearing plate slope sets up, fixedly connected with on the bearing plate two with drive shaft complex antifriction bearing, the drive shaft is rotated in proper order and is connected antifriction bearing.

Preferably, the right end of the driving shaft is connected with a gearbox, the left end of the driving shaft is fixedly connected with a driving belt wheel, the soil-shifting rotating shaft is fixedly connected with a driven belt wheel, and the driving belt wheel is in transmission connection with the driven belt wheel through a transmission belt.

Preferably, the auger feeding part comprises a feeding barrel, a feeding auger shaft is rotatably connected in the feeding barrel, a feeding port corresponding to the shifting sheet is formed in the right end of the feeding barrel, a discharging port is formed in the left end of the feeding barrel, and the right end of the feeding auger shaft is located in the feeding port.

Preferably, the left end part of the soil shifting rotating shaft is fixedly connected with an th chain wheel;

the left end part of the feeding auger shaft is fixedly connected with a second chain wheel, and the th chain wheel is connected with the second chain wheel through a chain in a transmission way.

Preferably, the left end part of the feeding barrel is fixedly connected with an end plate, and the right end part of the feeding auger shaft penetrates through the end plate and is connected with a second chain wheel;

the right end of the soil shifting rotating shaft penetrates through the end plate and then is connected with an th chain wheel.

Preferably, the top of the end plate is connected with an end rod leftwards, and the end rod is connected with a film pressing roller downwards.

Preferably, the left end of the th cross beam is fixedly connected with an extension bar leftwards, the end of the extension bar is connected with a third four-roller downwards, the st roller, the second roller, the third roller and the fourth roller are all provided with wheel rods, and the wheel rods are respectively and fixedly connected to the corresponding side walls of the rear frame bar, the front frame bar and the extension bar.

Compared with the prior art, the utility model has the following advantages:

the utility model discloses a kind of side position tectorial membrane banking machine, the device of dialling soil that sets up among the technical scheme, auger unearthing device, film frame device realize constantly carrying out the film cover to the ridge along with the motion of side position tectorial membrane banking machine, the earthing gland the utility model discloses a device has solved prior art and has adopted artifical epiphragma, earthing compaction to have work efficiency low, film cover, the insufficient technical defect of compaction, the utility model discloses a technical scheme not only work efficiency is high and the film covers tightly, can play moisturizing, waterlogging, restrain weeds growth, improve the earth's surface temperature, promotes the effect that the crop grows.

Drawings

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

fig. 2 is a schematic structural diagram of an embodiment of the present invention;

FIG. 3 is a schematic structural view of a feeding member of the auger according to the embodiment of the present invention;

FIG. 4 is a schematic structural diagram of another viewing angles of the auger feeding member in the embodiment of the present invention shown in FIG. 3;

FIG. 5 is a schematic structural view of the soil-shifting rotating shaft according to the embodiment of the present invention;

FIG. 6 is a schematic structural view of a feeding auger shaft according to an embodiment of the present invention;

fig. 7 is a diagram of the position relationship between the connecting end and the suspension according to the embodiment of the present invention.

Detailed Description

The embodiments of the present invention will be described in detail below, and the present embodiment is implemented on the premise of the technical solution of the present invention, and a detailed implementation manner and a specific operation process are given, but the scope of the present invention is not limited to the following embodiments.

As shown in figure 1, lateral membrane mulching and soil covering machines comprise a frame 1, a driving device, a soil shifting device, an auger soil discharging device and a membrane frame device;

the driving device is assembled on the frame 1 and is in transmission connection with the soil shifting device and the auger soil discharging device;

the film frame device is assembled on the machine frame 1 and is used for placing a film roll to be covered on a ridge, and the film roll is flattened by the film flattening rod 134.

Frame 1 specifically includes preceding hack lever 12 (is located the front side), back hack lever 14 (is located the rear side), left hack lever 13 (is located the left side) and right hack lever 11 (is located the right side), preceding hack lever 12 is parallel to each other with back hack lever 14, the length of back hack lever 14 is greater than preceding hack lever 12, left hack lever 13 and right hack lever 11 are fixed connection respectively at the left end and the right-hand member of preceding hack lever 12 with back hack lever 14, the preceding tip welding of left hack lever 13 is at the left end of preceding hack lever 12 promptly, the rear end welding of left hack lever 13 has stretching out towards the left at the left end of back hack lever 14 (the left end of back hack lever 14), consequently, the rear end welding of left hack lever 13 is at the left end of back hack lever 14 and is close. Meanwhile, the left frame rod 13 and the right frame rod 11 are obliquely arranged, that is, the front end and the rear end of the left frame rod 13 and the right frame rod 11 are not vertically welded with the front frame rod 12 and the rear frame rod 14 (the whole frame 1 is similar to a trapezoidal structure).

The rear frame rod 14 and the front frame rod 12 are both downwards fixedly connected with a supporting roller device; the supporting roller device is used for supporting the whole machine frame 1 and promoting the whole machine frame 1 to roll in the field.

Specifically, the supporting roller device on the rear frame rod 14 includes a th roller 142 and a second roller 144, the second roller 144 is located at the right end of the rear frame rod 14, the th roller 142 is located between the second rollers 144 and the furrowing plough 141 (the furrowing plough 141 is fixedly connected downwards at the left end of the rear frame rod 14);

the supporting roller device on the front frame bar 12 includes a third roller 121, and the third roller 121 is located at the right end of the front frame bar 12.

In order to increase the stability of the support transportation of the support roller device by steps, an extension bar is fixedly connected to the left end of the cross beam 21 (the cross beam 21 is welded between the left frame bar 13 and the right frame bar 11), the extension bar extends out of the left frame bar 13, and the end of the extension bar is connected with a fourth roller 211 downwards.

The th rollers 142, the second rollers 144, the third rollers 121 and the fourth rollers 211 are respectively provided with wheel bars fixedly connected to the sidewalls of the corresponding rear frame bar 14, the front frame bar 12 and the extension bar.

The whole frame 1 is supported in the above mode.

A ditching plow 141 is fixedly connected to the left end of the rear frame bar 14 in a downward direction (the ditching plow 141 is located at the left end of the rear frame bar 14, i.e. the left end of the rear frame bar 14 extends to the left), a soil covering plow 131 is fixedly connected to the left frame bar 13 in a downward direction, and the soil covering plow 131 is located at the front side of the cross beam 21 and at the rear side of the front frame bar 12.

An th cross beam 21 and a second cross beam 22 are fixedly connected between the left frame rod 13 and the right frame rod 11, and the th cross beam 21 is positioned at the front side of the second cross beam 22;

the th cross beam 21 is fixedly connected with a turning plow 212 downwards (the turning plow 131 is positioned at the front side of the turning plow 212), and the turning plow 212 is close to the position of the right frame rod 11.

As shown in fig. 2: the driving device comprises a gearbox 312, the gearbox 312 is located between the rear frame rod 14 and the second cross beam 22, and the gearbox 312 is fixedly connected with a support piece which is fixedly connected with the machine frame 1.

Specifically, the supporting member includes an th link 3121 welded to the top surface of the transmission case 312, a th link 3121 is obliquely disposed, and a end of the th link 3121 is welded to the right end of the top surface of the second cross member 22;

the rear frame lever 14 is provided with a suspension 3122 engaged with the th link 3121, and the other end of the th link 3121 is fixed on the suspension (because the th link 3121 is obliquely arranged, the other end is obliquely upward, so the suspension 3122 is designed to fixedly connect the rear frame lever 14, the suspension 3122, the th link 3121 and the second beam 22 to fixedly reinforce the top surface of the transmission case 312).

The right frame rod 11 is fixedly connected with a second connecting rod (the second connecting rod is welded to the bottom of the gearbox 312 towards the left), and the gearbox 312 and the right frame rod 11 are fixedly connected by the second connecting rod (the bottom of the gearbox 312 is supported and welded on the right frame rod 11 by the second connecting rod).

As shown in fig. 1, the transmission case 312 is connected with the driving shaft 31, the driving shaft 31 is disposed obliquely towards the left, in order to increase the rotating stability of the driving shaft 31, the driving shaft 31 is provided with a bearing plate 143, the bearing plate 143 is disposed obliquely, two rolling bearings 1431 matched with the driving shaft 31 are fixedly connected to the bearing plate 143, the driving shaft 31 is sequentially connected with the rolling bearings 1431 in a rotating manner, upright posts are welded to the bottom of the bearing plate 143, the side walls of the upright posts are welded to the side walls of the rear frame post 14, and the bearing plate 143 is supported by the rear frame post 14.

The drive shaft 31 belt drive connects the device of digging earth, and the concrete structure of the device of digging earth is:

the soil shifting device comprises a soil shifting rotating shaft 32, wherein the soil shifting rotating shaft 32 is parallel to a driving shaft 31, a plurality of shifting pieces 321 are arranged at the right end of the soil shifting rotating shaft 32, and the soil shifting rotating shaft 32 is positioned at the front side of the driving shaft 31;

the driving shaft 31 is in transmission connection with the soil-shifting rotating shaft 32 in the following mode:

a driving pulley 311 is fixedly connected to the left end of the driving shaft 31, a driven pulley 322 is fixedly connected to the shaft of the soil-shifting rotating shaft 32 near the center, and the driving pulley 311 and the driven pulley 322 are in transmission connection through a transmission belt ( supporting plates 3211 are arranged at the right end of the soil-shifting rotating shaft 32, and a bearing matched with the soil-shifting rotating shaft 32 is arranged on the supporting plate 3211)

The soil shifting rotating shaft 32 is in chain transmission connection with the auger soil discharging device, and the auger soil discharging device is used for conveying soil stirred by the soil from lower inclination to upper direction through the shifting sheet 321 in the rotating process of the soil shifting rotating shaft 32.

Specifically, the auger unearthing device comprises an auger feeding piece 33 arranged on the front side of the earth poking rotating shaft 32, and the auger feeding piece 33 is in chain transmission connection with the earth poking rotating shaft 32.

The auger feeding piece 33 is used for feeding and conveying soil loosened by the soil stirring rotating shaft 32. Auger feeding piece 33 and stirring pivot 32 parallel arrangement, auger feeding piece 33's right-hand member fixed connection is on backup pad 3211, backup pad 3211 fixed connection frame 1 (backup pad 3211 welds in frame 1, has on its left lateral wall with stirring pivot 32 complex bearing), sets up backup pad 3211 and can support stirring pivot 32.

As shown in fig. 3 to 4, the auger feeding member 33 has the following specific structure:

the auger feeding part 33 comprises a feeding barrel, a feeding auger shaft 331 is rotationally connected in the feeding barrel (the feeding auger shaft 331 is a conventional auger conveying part disclosed in the prior art, and a spiral conveying structure is arranged on the shaft body of the conventional auger conveying part), a feeding port 3321 corresponding to the shifting piece 321 is formed in the right end part of the feeding barrel, the feeding port 3321 is positioned on the front side of the shifting piece 321, and soil turned and fed by the shifting piece enters from the feeding port 3321. A discharge port 3322 is formed at the left end of the feeding barrel (a feeding cavity is formed in the feeding barrel), the right end of the feeding auger shaft 331 is positioned in the feed port 3321 (the left end of the feeding auger shaft 331 penetrates through the left barrel mouth of the feeding barrel).

The soil shifting rotating shaft 32 and the feeding auger shaft 331 are connected in a transmission way as follows:

as shown in fig. 5 to 6, the left end of the soil stirring rotating shaft 32 is fixedly connected with a th chain wheel 323, the left end of the feeding auger shaft 331 is fixedly connected with a second chain wheel 333, and the th chain wheel 323 and the second chain wheel 333 are in transmission connection through a chain.

As shown in figure 1, in order to separate soil generated by a gear shifting piece and interfere chain transmission, an end plate 34 is fixedly connected to the left end of a feeding barrel, the right end of a feeding auger shaft 331 penetrates through the end plate 34 and then is connected with a second chain wheel 333, the right end of a soil shifting rotating shaft 32 penetrates through the end plate 34 and then is connected with an chain wheel 323, the side wall of the feeding barrel is welded to the bottom of a frame 1 (part of the side wall of the feeding barrel is welded to the bottom of the frame 1, meanwhile, the feeding barrel is also fixed on the frame 1 under the action of a supporting plate 3211, and particularly, the supporting plate 3211 is welded to the frame 1 due to the welding of the supporting plate 3211 at the right end of the feeding barrel.

In order to increase the stability of the feeding barrel, an end rod is connected to the left of the top of the end plate 34, and the end rod is connected with a film pressing roller 341 downward (the feeding barrel has a heavy weight, and is supported by the film pressing roller 341, and the film pressing roller 341 presses the covered film).

The film frame device comprises a film placing rod (used for placing a film roll), a film flattening rod 134 (after film covering, flattening is performed, namely film placing is performed while pressing film, the film placing rod and the film flattening rod 134 are fixedly connected to the rear end of the left frame rod 13, the film placing rod and the film flattening rod 134 incline upwards, meanwhile, the height of the film flattening rod 134 is lower than that of the film placing rod (convenient for flattening), in order to increase the number of film placing, the film placing rods are designed into two, namely, a th film placing rod 132 and a second film placing rod 133 (a th film placing rod 132 is located at the rear side of the second film placing rod 132, and the second film placing rod 133 is located at the rear side of the film flattening rod 134).

As shown in fig. 2, a connecting end 1411 is further assembled on the rear frame rod 14, the connecting end 1411 is composed of two vertical backward connecting blocks (through holes are formed in the connecting blocks, and the connecting blocks are arranged at intervals), and the tractor pulls the device after the connecting shaft of the tractor is inserted into the connecting end 1411.

As shown in fig. 7, in order to increase the stability of the whole device, the connecting ends 1411 and the suspension 3122 are designed as a geometrical triangle structure, that is, the suspension 3122 is disposed at the middle portion of the rear frame rod 14 (the corresponding driving shaft 31 and the transmission case 312 are located at the corresponding central positions), and the connecting ends 1411 are designed as two, connecting ends 1411 are on the right side of the suspension 3122, and connecting ends are on the left side.

The working principle and the process are as follows:

firstly, the whole device is placed in a field, the tractor pulls the whole device to move ( roller 142, second roller 144, third roller 121 and fourth roller 211 roll relative to the ground), and in the actual working process, the wheel rods on roller 142, second roller 144, third roller 121 and fourth roller 211 are adjusted correspondingly according to the geographic characteristics of the field.

The transmission 312 has a power input shaft, which is connected to a power output shaft at the rear end of the tractor through a transmission shaft (also called a universal joint) to transmit rotary power to the transmission 312 (wherein the transmission 312 is a conventional gear transmission disclosed in the prior art) to drive the driving shaft 31 to rotate, and the driving shaft 31 is a power input end of the whole device, specifically:

the driving belt wheel 311 on the driving shaft 31 drives the driven belt wheel 322 on the earth stirring rotating shaft 32 to rotate, the earth stirring rotating shaft 32 is driven by the driven belt wheel 322 to rotate, the -th chain wheel 323 on the left end part of the earth stirring rotating shaft 32 rotates along with the rotation, and the -th chain wheel 323 is in chain transmission connection with the second chain wheel 333 on the left end part of the feeding auger shaft 331, so that the feeding auger shaft 331 is positioned in the feeding barrel to rotate.

Because the stirring piece 321 is driven by the soil stirring rotating shaft 32 to rotate, the soil is loosened continuously by the stirring piece 321, and after the soil is loosened, the feeding auger shaft 331 rotates (the right end part of the feeding barrel is provided with the feeding port 3321 corresponding to the stirring piece, and the right end part of the feeding auger shaft 331 is positioned at the feeding port 3321, so that the loosened soil contacts the feeding port 3321, and the soil is driven upwards to the discharging port 3322 by the feeding auger shaft 331 continuously in an inclined manner to discharge.

the film placed on the second film placing rod 133 and the film placed on the film placing rod 132 continuously cover the ridge (the tractor drives the whole device to move continuously), the soil discharged from the discharge port 3322 on the feeding barrel is continuously driven by the feeding auger shaft 331 to continuously press the film surface, and at the same time, the film flattening rod 134 is continuously arranged to flatten the film (the film flattening rod 134 flattens the film placed on the second film placing rod 133).

During the movement of the whole device dragged by the tractor, the ditching plow 141, the earthing plow 131 and the turning plow 212 on the frame 1 continuously turn over the soil.

The device structure is as follows: effectively solved traditional laminating machine for just laminating machine to the wheel of tractor is ridden in the ridge both sides, pulls the laminating machine and carries out the defect that the operation mode had, and is wider when meetting the ridge promptly, perhaps when planting great plant in the middle of the ridge and need the tectorial membrane, traditional laminating machine can't work, adopts the utility model discloses a device goes on with the mode of side position tectorial membrane, has effectively solved the technical defect of traditional tectorial membrane device, and when the tectorial membrane process met above-mentioned geographical position, still can be in the same direction as, and the clear tectorial membrane that carries on.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not intended to limit the present invention, and all modifications, equivalents, improvements, etc. made within the spirit and principles of the present invention should be included within the scope of the present invention.

Claims

1, kinds of side position tectorial membrane banking machines, characterized by, including stander, drive unit, pluck native device, auger unearthing device, film frame device;

the film frame device is assembled on the frame;

the left frame rod is downwards fixedly connected with a soil covering plough;

2. The side-positioning mulch-covering and soil-covering machine of claim 1 wherein the support roller means on the rear frame bar comprises a th roller, a second roller, the second roller being located at the right end of the rear frame bar, the th roller being located between the second roller and the furrow plow;

3. The side-positioning mulch applicator according to claim 1 wherein the support includes an th link welded to the top surface of the gearbox, the th link being disposed at an incline, the end of the th link being welded to the right end of the second beam;

the rear frame rod is provided with a suspension matched with the th connecting rod, and the other end of the th connecting rod is fixed on the suspension;

4. The lateral-position film-mulching and soil-covering machine as claimed in claim 3, wherein the driving shaft is provided with a bearing plate, the bearing plate is arranged obliquely, two rolling bearings matched with the driving shaft are fixedly connected to the bearing plate, and the driving shaft is sequentially connected with the rolling bearings in a rotating manner.

5. The lateral film-mulching and soil-covering machine according to claim 4, wherein the right end of the driving shaft is connected with a gear box, the left end of the driving shaft is fixedly connected with a driving pulley, the soil-shifting rotating shaft is fixedly connected with a driven pulley, and the driving pulley and the driven pulley are in transmission connection through a transmission belt.

6. The lateral position film-covering and soil-covering machine of claim 5, wherein the auger feeding piece comprises a feeding barrel, a feeding auger shaft is rotationally connected in the feeding barrel, a feeding port corresponding to the shifting sheet is formed in the right end of the feeding barrel, a discharging port is formed in the left end of the feeding barrel, and the right end of the feeding auger shaft is positioned in the feeding port.

7. The lateral mulching and soil-covering machine of claim 6, wherein the left end of the soil-shifting rotating shaft is fixedly connected with an th chain wheel;

8. The lateral film-mulching and soil-covering machine according to claim 7, wherein the left end of the feeding cylinder is fixedly connected with an end plate, and the right end of the feeding auger shaft penetrates through the end plate and is connected with a second chain wheel;

9. The machine for mulch covering and soil covering in side position of claim 8 wherein the top of the end plate is connected with an end rod to the left, the end rod is connected with a mulch pressing roller downwards.

10. The lateral mulching and soil-covering machine of claim 2, wherein an extension bar is fixedly connected to the left end of the cross beam, a third fourth roller is connected to the end of the extension bar, and the , second, third and fourth rollers are provided with wheel bars fixedly connected to the side walls of the corresponding rear frame bar, front frame bar and extension bar.