CN112205227A

CN112205227A - Mulching film laying device for agricultural planting

Info

Publication number: CN112205227A
Application number: CN202011218229.4A
Authority: CN
Inventors: 张莉
Original assignee: Wenzhou Qumo Agricultural Technology Co ltd
Current assignee: Wenzhou Qumo Agricultural Technology Co ltd
Priority date: 2020-11-04
Filing date: 2020-11-04
Publication date: 2021-01-12

Abstract

The invention provides a mulching film laying device for agricultural planting, relates to the technical field of agricultural machinery, and solves the problems that sharp objects existing on a ridge easily puncture a mulching film in the mulching film laying process, so that the effect of the mulching film is reduced; the ridging on the two sides of the ridge can not be realized, and the ridging on the top of the ridge can not be realized synchronously. A mulching film laying device for agricultural planting comprises a main body seat and a cylindrical rod; the main body seat is provided with a mulching film roller, and the main body seat is also provided with a burying structure. Through the arrangement of the auxiliary structure, two rotary connecting seats are arranged, the two rotary connecting seats are welded on the main body seat, and each rotary connecting seat is rotatably connected with a connecting rod B; the two connecting rods B are rotatably connected with a roller, and the roller is contacted with the cultivation ridge when the main body seat inclines, so that the flattening of sharp objects on the ridge can be realized, and the plastic film can be prevented from being pierced by the sharp objects on the ridge.

Description

Mulching film laying device for agricultural planting

Technical Field

The invention belongs to the technical field of agricultural machinery, and particularly relates to a mulching film laying device for agricultural planting.

Background

In the agricultural planting process, in order to preserve heat of the sown seeds, a layer of plastic film is usually paved on the soil sown by the seeds, so that the effects of increasing the temperature, preserving the water and the fertilizer, improving the physical and chemical properties of the soil, improving the soil fertility, inhibiting the growth of weeds and lightening diseases can be achieved.

As in application No.: the invention belongs to the technical field of agricultural mechanical equipment, and particularly relates to a mulching film laying device for agricultural planting, which aims at solving the problem that seeds are easy to die when holes are punched after mulching film laying. The invention can effectively avoid damaging the seeds, is beneficial to improving the survival rate of the seeds, is convenient for adjusting the distance between the three punching columns, and can punch holes according to the planting intervals.

The mulching film laying device for agricultural planting similar to the above application has the following defects:

one is that sharp objects existing on the soil ridges in the laying process of the mulching film easily puncture the mulching film, so that the effect of the mulching film is reduced, and the flattening of the sharp objects on the soil ridges can not be realized while the laying of the mulching film is realized through structural improvement; moreover, the existing device can not realize the ridging of both sides of the ridge in the use process and can not realize the ridging of the top of the ridge synchronously.

In view of the above, research and improvement are made on the existing structure and defects, and a mulching film laying device for agricultural planting is provided, so as to achieve the purpose of higher practical value.

Disclosure of Invention

In order to solve the technical problems, the invention provides a mulching film laying device for agricultural planting, aiming at solving the problems that the existing device is easy to puncture a mulching film by sharp objects existing on a ridge in the mulching film laying process, the effect of the mulching film is reduced, and the flattening of the sharp objects on the ridge can not be realized while the mulching film laying is realized through structural improvement; moreover, the existing device can not realize the ridging of both sides of the ridge in the using process and can not synchronously realize the ridging of the top of the ridge.

The invention relates to a mulching film laying device for agricultural planting, which is realized by the following specific technical means:

a mulching film laying device for agricultural planting comprises a main body seat and a cylindrical rod; the main body seat is provided with a mulching film roller, a burying structure and a second burying structure; an auxiliary structure is arranged on the main body seat; the second burying structure comprises through holes, soil taking arms, collecting hole rollers and bulges, each cylindrical rod is provided with one through hole, and the outer wall of each cylindrical rod is welded with three soil taking arms; the number of the rollers is two, and the two rollers are respectively welded on the two cylindrical rods; the two rollers are both contacted with the ground, and the two rollers are welded with bulges in an annular array shape; two collecting holes are formed in the cylindrical rod, the two collecting holes are formed in the gap positions of the three soil taking arms, and the collecting holes are communicated with the through holes; the through holes formed in the two cylindrical rods are of conical hole structures, and the two cylindrical rods are arranged in a mirror image mode.

Furthermore, the main body seat comprises a handle and a threaded shaft, and consists of two seat plates, and the handle with a concave structure is welded on the main body seat; the main part seat is threaded with a threaded shaft, the threaded shaft is connected with the mulching film roller in an inserting mode, and the threaded shaft forms a threaded dismounting type structure of the mulching film roller.

Furthermore, the main body seat also comprises a cutting plate and conical teeth, the cutting plate is welded on the main body seat, and the conical teeth are arranged on the bottom end surface of the cutting plate in a rectangular array; when main part seat and handle are the vertical state toper tooth and the plastic film contact of expansion, and cutting plate and toper tooth have constituteed the cutting structure of plastic film jointly.

Furthermore, the burying structure comprises two connecting rods A and rectangular blocks, and the two connecting rods A are rotatably connected to the main body seat; a rectangular block is rotationally connected to the two connecting rods A, and the bottom end faces of the rectangular blocks are in contact with soil.

Furthermore, bury structure still includes the plough utensil, the plough utensil is equipped with two altogether, and two plough utensils pass through bolt fixed connection respectively on two rectangular blocks, and the rectangular block of rotation connection on connecting rod A has constituteed plough utensil self-adaptation adjustment structure.

Furthermore, the second burying structure comprises two connecting seats, two cylindrical rods, an annular plate A and an arc-shaped plate, wherein the two connecting seats are welded on the main body seat, and each connecting seat is rotatably connected with one cylindrical rod; each cylindrical rod is rotatably connected with an annular plate A, and the annular plate A is connected with the main body seat in a welding manner; an arc-shaped plate is welded on each annular plate A and is of a quarter-ring structure.

Further, the second burying structure comprises two annular plates B which are welded on the two arc-shaped plates respectively, and the annular plates A, the arc-shaped plates and the annular plates B jointly form a semi-sealed soil taking structure.

Furthermore, the auxiliary structure comprises two rotary connecting seats, two connecting rods B and a roller, wherein the two rotary connecting seats are welded on the main body seat, and each rotary connecting seat is rotatably connected with one connecting rod B; the two connecting rods B are rotatably connected with a roller, and the roller is contacted with the cultivation ridge when the main body seat inclines.

Compared with the prior art, the invention has the following beneficial effects:

can realize automatically burying of plastic film both sides at the in-process of expanding the plastic film through the setting of burying the structure, specifically as follows: firstly, two connecting rods A are arranged, and the two connecting rods A are rotatably connected to the main body seat; a rectangular block is rotatably connected to the two connecting rods A, and the bottom end faces of the rectangular blocks are in contact with soil; secondly, because of the plough utensil is equipped with two altogether, and two plough utensils pass through bolt fixed connection respectively on two rectangular blocks, and rotate the rectangular block of connecting on connecting rod A and constitute plough utensil self-adaptation adjustment structure to can also realize the small-angle adjustment of plough utensil on the basis of guaranteeing that the plough utensil level is marchd.

Bury the setting of structure through the second, can also realize the top earthing up of plastic film when expanding the plastic film, specifically as follows: firstly, two connecting seats are arranged, the two connecting seats are welded on the main body seat, and each connecting seat is rotatably connected with a cylindrical rod; each cylindrical rod is rotatably connected with an annular plate A, and the annular plate A is connected with the main body seat in a welding manner; each annular plate A is welded with an arc-shaped plate which is of a quarter-ring structure, and the arc-shaped plates can realize earth shoveling action when the device moves forwards; secondly, two annular plates B are arranged, the two annular plates B are respectively welded on the two arc-shaped plates, and the annular plate A, the arc-shaped plates and the annular plates B jointly form a semi-sealed soil sampling structure; thirdly, each cylindrical rod is provided with a through hole, and the outer wall of each cylindrical rod is welded with three soil taking arms; the number of the rollers is two, and the two rollers are respectively welded on the two cylindrical rods; the two rollers are both contacted with the ground, and the two rollers are welded with bulges in an annular array shape; two collecting holes are formed in the cylindrical rod, the two collecting holes are formed in the gap positions of the three soil taking arms, and the collecting holes are communicated with the through holes, so that the arc-shaped plate can be shoveled out of soil and poured into the collecting holes and the through holes in the rotating process of the roller and the soil taking arms; fourthly, because of the through-hole of seting up on two cylindricality poles is the toper hole column structure, and two cylindricality poles are the mirror image form and set up to soil that enters into in the through-hole can automatic landing accomplish compressing tightly of plastic film.

Fifthly, through the arrangement of the auxiliary structure, two rotary connecting seats are arranged, the two rotary connecting seats are welded on the main body seat, and each rotary connecting seat is rotatably connected with a connecting rod B; the two connecting rods B are rotatably connected with a roller, and the roller is contacted with the cultivation ridge when the main body seat inclines, so that the flattening of sharp objects on the ridge can be realized, and the plastic film can be prevented from being pierced by the sharp objects on the ridge.

Through the arrangement of the cutting plate and the conical teeth, the cutting plate is welded on the main body seat, and the conical teeth are arranged on the bottom end surface of the cutting plate in a rectangular array; when main part seat and handle are the vertical state toper tooth and the plastic film contact of expansion, and cutting plate and toper tooth have constituteed the cutting structure of plastic film jointly to conveniently realize cutting off of plastic film.

Drawings

Fig. 1 is a schematic axial view of the present invention.

Fig. 2 is a schematic axial view of the present invention in another direction of fig. 1.

Fig. 3 is a schematic front view of the present invention.

Fig. 4 is an enlarged, on-axis view of a second buried structure of the present invention.

Fig. 5 is a schematic axial view of the present invention in operation.

Fig. 6 is a left side view of the structure of fig. 5 according to the present invention.

Fig. 7 is an enlarged, axial view of the buried structure of the present invention.

Fig. 8 is an enlarged axial view of the main body seat and the mulching film roll according to the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a main body seat; 101. a handle; 102. a threaded shaft; 103. cutting the board; 10301. a tapered tooth; 2. a mulching film roller; 3. a buried structure; 301. a connecting rod A; 302. a rectangular block; 303. a plough tool; 4. a second buried structure; 401. a connecting seat; 402. a cylindrical rod; 403. an annular plate A; 404. an arc-shaped plate; 405. an annular plate B; 406. a through hole; 407. a soil taking arm; 408. a collection well; 409. a roller; 40901. a protrusion; 5. an auxiliary structure; 501. rotating the connecting seat; 502. a connecting rod B; 503. and (3) a roller.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 8:

the invention provides a mulching film laying device for agricultural planting, which comprises a main body seat 1 and a cylindrical rod 402; the main body seat 1 is provided with a mulching film roller 2, the main body seat 1 is also provided with a buried structure 3, and the main body seat 1 is also provided with a second buried structure 4; the main body seat 1 is provided with an auxiliary structure 5; referring to fig. 4, the second buried structure 4 includes through holes 406, soil-sampling arms 407, a roller 409 of a collecting hole 408 and a projection 40901, each cylindrical rod 402 is provided with one through hole 406, and the outer wall of each cylindrical rod 402 is welded with three soil-sampling arms 407; the number of the rollers 409 is two, and the two rollers 409 are respectively welded on the two cylindrical rods 402; the two rollers 409 are both contacted with the ground, and the bulges 40901 are welded on the two rollers 409 in an annular array shape; two collecting holes 408 are formed in the cylindrical rod 402, the two collecting holes 408 are formed in the gap positions of the three soil sampling arms 407, and the collecting holes 408 are communicated with the through holes 406, so that the arc-shaped plate 404 can be shoveled out of soil and poured into the collecting holes 408 and the through holes 406 in the rotating process of the roller 409 and the soil sampling arms 407; referring to fig. 4, the through holes 406 formed in the two cylindrical rods 402 are both of a tapered hole structure, and the two cylindrical rods 402 are arranged in a mirror image shape, so that soil entering the through holes 406 can automatically slide down to complete the compaction of the mulching film.

Referring to fig. 8, the main body seat 1 comprises a handle 101 and a threaded shaft 102, the main body seat 1 is composed of two seat plates, and the handle 101 with a concave structure is welded on the main body seat 1; the main body seat 1 is connected with a threaded shaft 102 in a threaded manner, the threaded shaft 102 is connected with the mulching film roller 2 in an inserting manner, and the threaded shaft 102 forms a threaded detachable structure of the mulching film roller 2.

Referring to fig. 1 and 5, the main body base 1 further includes a cutting plate 103 and tapered teeth 10301, the cutting plate 103 is welded on the main body base 1, and the tapered teeth 10301 are disposed on the bottom end surface of the cutting plate 103 in a rectangular array; when the main body seat 1 and the handle 101 are in a vertical state, the conical teeth 10301 are in contact with the unfolded mulching film, and the cutting plate 103 and the conical teeth 10301 jointly form a cutting structure of the mulching film, so that the mulching film is conveniently cut off.

Referring to fig. 2, the buried structure 3 includes two connection rods a301 and a rectangular block 302, the two connection rods a301 are provided, and both the two connection rods a301 are rotatably connected to the main body base 1; two connecting rods A301 are all connected with a rectangular block 302 in a rotating mode, and the bottom end face of the rectangular block 302 is in contact with soil.

Referring to fig. 2, the burying structure 3 further includes two plows 303, the two plows 303 are fixedly connected to the two rectangular blocks 302 through bolts, and the rectangular blocks 302 rotatably connected to the connecting rod a301 form a self-adaptive adjustment structure of the plows 303, so that small-angle adjustment of the plows 303 can be realized on the basis of ensuring that the plows 303 horizontally travel.

Referring to fig. 2 and 4, the second buried structure 4 includes two connecting seats 401, two cylindrical rods 402, an annular plate a403 and an arc plate 404, the two connecting seats 401 are welded to the main body seat 1, and one cylindrical rod 402 is rotatably connected to each connecting seat 401; each cylindrical rod 402 is rotatably connected with an annular plate A403, and the annular plate A403 is connected with the main body seat 1 in a welding manner; an arc-shaped plate 404 is welded on each annular plate A403, the arc-shaped plates 404 are of a quarter-ring structure, and the arc-shaped plates 404 can realize earth shoveling when the device moves forwards.

Referring to fig. 4, the second buried structure 4 includes two annular plates B405, the two annular plates B405 are welded to the two arc plates 404, and the annular plate a403, the arc plates 404, and the annular plate B405 together constitute a semi-sealed soil sampling structure.

Referring to fig. 5, the auxiliary structure 5 includes two rotation connecting seats 501, two connecting rods B502 and a roller 503, the two rotation connecting seats 501 are welded on the main body seat 1, and each rotation connecting seat 501 is rotatably connected with one connecting rod B502; the two connecting rods B502 are rotatably connected with a roller 503, and when the main body seat 1 inclines, the roller 503 is contacted with the cultivation ridge, so that the flattening of sharp objects on the ridge can be realized, and the mulching film can be prevented from being pierced by the sharp objects on the ridge.

The specific use mode and function of the embodiment are as follows:

when the mulching film unfolding device is pulled to unfold a mulching film, firstly, two connecting rods A301 are arranged, and the two connecting rods A301 are rotatably connected to the main body seat 1; a rectangular block 302 is rotatably connected to each of the two connecting rods A301, and the bottom end faces of the rectangular blocks 302 are in contact with soil; secondly, because the number of the plows 303 is two, the two plows 303 are respectively fixedly connected to the two rectangular blocks 302 through bolts, and the rectangular blocks 302 rotatably connected to the connecting rod A301 form a self-adaptive adjustment structure of the plows 303, small-angle adjustment of the plows 303 can be realized on the basis of ensuring that the plows 303 horizontally advance; thirdly, two connecting seats 401 are arranged, the two connecting seats 401 are welded on the main body seat 1, and each connecting seat 401 is rotatably connected with a cylindrical rod 402; each cylindrical rod 402 is rotatably connected with an annular plate A403, the annular plates A403 are welded with the main body seat 1, each annular plate A403 is welded with an arc-shaped plate 404, and the arc-shaped plates 404 are of a quarter-circle structure, so that the arc-shaped plates 404 can shovel soil when the device moves forwards; fourthly, two annular plates B405 are arranged, the two annular plates B405 are respectively welded on the two arc-shaped plates 404, and the annular plate A403, the arc-shaped plates 404 and the annular plate B405 jointly form a semi-sealed soil sampling structure; fifthly, because each cylindrical rod 402 is provided with a through hole 406, and the outer wall of each cylindrical rod 402 is welded with three soil-taking arms 407; the number of the rollers 409 is two, and the two rollers 409 are respectively welded on the two cylindrical rods 402; the two rollers 409 are both contacted with the ground, and the bulges 40901 are welded on the two rollers 409 in an annular array shape; two collecting holes 408 are formed in the cylindrical rod 402, the two collecting holes 408 are formed in the gap positions of the three soil sampling arms 407, and the collecting holes 408 are communicated with the through holes 406, so that the arc-shaped plate 404 can be shoveled out of soil and poured into the collecting holes 408 and the through holes 406 in the rotating process of the roller 409 and the soil sampling arms 407; sixthly, through holes 406 formed in the two cylindrical rods 402 are both in a conical hole-shaped structure, and the two cylindrical rods 402 are arranged in a mirror image shape, so that soil entering the through holes 406 can automatically slide off to complete the compaction of the mulching film; seventh, two rotary connecting seats 501 are provided, and the two rotary connecting seats 501 are welded on the main body seat 1, and each rotary connecting seat 501 is rotatably connected with a connecting rod B502; a roller 503 is rotatably connected to the two connecting rods B502, and when the main body seat 1 inclines, the roller 503 is in contact with the cultivation ridge, so that the flattening of sharp objects on the ridge can be realized, and the mulching film can be prevented from being pierced by the sharp objects on the ridge;

in the using process, the cutting plate 103 is welded on the main body seat 1, and the bottom end surface of the cutting plate 103 is in a rectangular array shape and is provided with tapered teeth 10301; when the main body seat 1 and the handle 101 are in a vertical state, the conical teeth 10301 are in contact with the unfolded mulching film, and the cutting plate 103 and the conical teeth 10301 jointly form a cutting structure of the mulching film, so that the mulching film is conveniently cut off.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. The utility model provides a mulching film laying device for farming which characterized in that: comprises a main body seat (1) and a cylindrical rod (402); the mulching film roller (2) is installed on the main body seat (1), the burying structure (3) is further installed on the main body seat (1), and the second burying structure (4) is further installed on the main body seat (1); an auxiliary structure (5) is arranged on the main body seat (1); the second burying structure (4) comprises through holes (406), soil taking arms (407), collecting holes (408), idler wheels (409) and bulges (40901), each cylindrical rod (402) is provided with one through hole (406), and the outer wall of each cylindrical rod (402) is welded with three soil taking arms (407); the number of the rollers (409) is two, and the two rollers (409) are respectively welded on the two cylindrical rods (402); the two rollers (409) are in contact with the ground, and the protrusions (40901) are welded on the two rollers (409) in an annular array shape; two collecting holes (408) are formed in the cylindrical rod (402), the two collecting holes (408) are formed in the gap positions of the three soil sampling arms (407), and the collecting holes (408) are communicated with the through hole (406); through holes (406) formed in the two cylindrical rods (402) are both in a conical hole structure, and the two cylindrical rods (402) are arranged in a mirror image shape.

2. The mulching film laying device for agricultural planting according to claim 1, wherein: the main body seat (1) comprises a handle (101) and a threaded shaft (102), the main body seat (1) consists of two seat plates, and the handle (101) with a concave structure is welded on the main body seat (1); the main body seat (1) is connected with a threaded shaft (102) in a threaded manner, the threaded shaft (102) is connected with the mulching film roller (2) in an inserting manner, and the threaded shaft (102) forms a threaded detachable structure of the mulching film roller (2).

3. The mulching film laying device for agricultural planting according to claim 1, wherein: the main body seat (1) further comprises a cutting plate (103) and conical teeth (10301), the cutting plate (103) is welded on the main body seat (1), and the conical teeth (10301) are arranged on the bottom end surface of the cutting plate (103) in a rectangular array; when the main body seat (1) and the handle (101) are in a vertical state, the conical teeth (10301) are in contact with the unfolded mulching film, and the cutting plate (103) and the conical teeth (10301) jointly form a cutting structure of the mulching film.

4. The mulching film laying device for agricultural planting according to claim 1, wherein: the buried structure (3) comprises two connecting rods A (301) and rectangular blocks (302), the two connecting rods A (301) are arranged, and the two connecting rods A (301) are rotatably connected to the main body seat (1); two connecting rods A (301) are connected with a rectangular block (302) in a rotating mode, and the bottom end face of the rectangular block (302) is in contact with soil.

5. The mulching film laying device for agricultural planting according to claim 1, wherein: the buried structure (3) further comprises two plows (303), the two plows (303) are fixedly connected to the two rectangular blocks (302) through bolts respectively, and the rectangular blocks (302) rotatably connected to the connecting rod A (301) form a self-adaptive adjusting structure of the plows (303).

6. The mulching film laying device for agricultural planting according to claim 1, wherein: the second buried structure (4) comprises two connecting seats (401), two cylindrical rods (402), an annular plate A (403) and arc plates (404), the two connecting seats (401) are welded on the main body seat (1), and each connecting seat (401) is rotatably connected with one cylindrical rod (402); each cylindrical rod (402) is rotatably connected with an annular plate A (403), and the annular plate A (403) is connected with the main body seat (1) in a welding way; an arc-shaped plate (404) is welded on each annular plate A (403), and the arc-shaped plate (404) is of a quarter-ring structure.

7. The mulching film laying device for agricultural planting according to claim 1, wherein: the second buried structure (4) comprises two annular plates B (405), the two annular plates B (405) are welded on the two arc-shaped plates (404) respectively, and the annular plate A (403), the arc-shaped plates (404) and the annular plates B (405) jointly form a semi-sealed soil sampling structure.

8. The mulching film laying device for agricultural planting according to claim 1, wherein: the auxiliary structure (5) comprises two rotary connecting seats (501), two connecting rods B (502) and a roller (503), the two rotary connecting seats (501) are welded on the main body seat (1), and each rotary connecting seat (501) is rotatably connected with one connecting rod B (502); the two connecting rods B (502) are rotatably connected with a roller (503), and when the main body seat (1) inclines, the roller (503) is contacted with the cultivation ridge.