CN214282126U - Manual type integrated machine for transplanting and throwing seedlings - Google Patents

Abstract

The utility model discloses a manual type integrated machine for transplanting and throwing seedlings, which comprises a seedling transplanting assembly and a clamping and lifting assembly; the rice transplanting assembly comprises a rice transplanting cylinder and a rice transplanting ring arranged at the lower end of the rice transplanting cylinder; the rice transplanting ring is arranged at the lower end of the inner wall of the rice transplanting cylinder and is integrally arranged in an annular shape; the ring surface of the rice transplanting ring is provided with a plurality of inner concave ring sectors and a plurality of outer convex ring sectors which are arranged alternately; the sector of each inner concave ring and the sector of each outer convex ring are connected end to form the rice transplanting ring; the inner concave ring sectors are connected with the inner wall of the rice transplanting cylinder through the connecting cylinder, and the inner diameter of an inscribed circle formed on the back surface of each inner concave ring sector can ensure that rice seedlings pass through; the chord length of the sector of the outer convex ring is matched with the rod diameter of the seedling close to the root; the clamping assembly lifting assembly comprises two seedling transplanting plates, a plurality of seedling transplanting clamping pieces and two lifting parts; the utility model discloses a manual formula all-in-one of transplanting rice seedlings of throwing seedlings can be quick batch transplant rice seedlings, improves the efficiency of transplanting rice seedlings.

Description

Manual type integrated machine for transplanting and throwing seedlings

Technical Field

The utility model relates to a checking device, in particular to a manual type integrated machine for transplanting and throwing seedlings.

Background

At present, farmers generally carry out manual operation when cultivating seedlings, particularly in hilly areas, the fields are arranged in a step shape, if the existing large-scale transplanter is adopted for transplanting seedlings, the position of the transplanter needs to be frequently moved to meet the requirement of transplanting seedlings due to the limitation of the size and the position of the fields, so that more time is wasted, the efficiency is low, and the existing large-scale transplanter is difficult to popularize in the hilly areas; for plain terrain, the transplanting efficiency can be improved by adopting the existing large-scale transplanting machine, but the transplanting machine still has the inconvenience of moving the position, and more importantly, the transplanting by adopting the large-scale transplanting machine needs to consume more power resources and is not easy to control. In addition, most farmers have limited acreage in the field and are not suitable for transplanting rice seedlings by using the large rice transplanter, so the large rice transplanter is difficult to popularize in hilly areas or plain areas, but if the rice seedlings are transplanted not by a rice transplanter but by hand, the efficiency is low, and more manpower is needed.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is not enough to above-mentioned prior art, and provide a manual formula all-in-one of transplanting rice seedlings that transplants rice seedlings, this manual formula all-in-one of transplanting rice seedlings can be quick transplants rice seedlings in batches, improves the efficiency of transplanting rice seedlings.

In order to solve the technical problem, the utility model discloses a technical scheme is:

a manual type integrated machine for transplanting rice seedlings and throwing rice seedlings comprises a rice seedling transplanting assembly and a clamping and lifting assembly for clamping and fixing the rice seedling transplanting assembly;

the rice transplanting assembly comprises a rice transplanting cylinder and a rice transplanting ring arranged at the lower end of the rice transplanting cylinder;

the rice transplanting ring is arranged on the inner wall of the rice transplanting cylinder close to the lower end of the rice transplanting cylinder and is integrally arranged in an annular shape; the ring surface of the rice transplanting ring is provided with a plurality of inner concave ring sectors and a plurality of outer convex ring sectors which are arranged alternately; the sector of each inner concave ring and the sector of each outer convex ring are connected end to form the rice transplanting ring;

the inner concave ring sectors are connected with the inner wall of the rice transplanting cylinder through the connecting cylinder, and the inner diameter of an inscribed circle formed on the back surface of each inner concave ring sector can ensure that rice seedlings pass through; the chord length of the sector of the outer convex ring is matched with the rod diameter of the seedling close to the root;

the clamping assembly lifting assembly comprises two seedling transplanting plates, a plurality of seedling transplanting clamping pieces and two lifting parts;

the two transplanting plates are arranged in parallel and are respectively arranged at the two transverse sides of the transplanting assembly; the two transplanting plates are connected through two connecting rods, and the two connecting rods are positioned at two longitudinal sides of the transplanting assembly;

the plurality of seedling transplanting clamping pieces are arranged between two adjacent seedling transplanting assemblies in a one-to-one correspondence manner; are respectively fixed with the two connecting rods and are in contact connection with the two adjacent rice transplanting assemblies;

the two lifting parts are symmetrically arranged and are respectively fixed with the two seedling transplanting plates at the respective positions.

Furthermore, the rice transplanting cylinder is symmetrically provided with two cylinder body notches on the cylinder body wall surface close to the lower end, and the height of the cylinder body notches is matched with the height of the rice seedlings;

the wall surface of the rice transplanting cylinder body between the two cylinder body cuts is a rice transplanting ring fixing wall;

the sector of the concave ring is fixed with the fixed wall of the rice transplanting ring through the connecting cylinder.

Furthermore, the seedling transplanting ring is symmetrically provided with two seedling transplanting ring cuts, and the positions of the seedling transplanting ring cuts correspond to the positions of the seedling transplanting cylinder cuts.

Furthermore, the inner wall of the rice transplanting ring is provided with a soft cushion.

Further, the connecting cylinder is an elastic member.

Furthermore, the seedling transplanting plate is provided with a positioning bolt for fixing the seedling transplanting cylinder.

Furthermore, the lower end surface of the rice transplanting ring is higher than the bottom surface of the rice transplanting cylinder.

The utility model discloses following beneficial effect has:

the utility model can transplant rice in batches through a plurality of rice transplanting cylinders, improves the rice transplanting efficiency, and has simple structure and convenient use; the proper rice transplanting and seedling throwing height can be selected according to rice fields under different conditions through the positioning bolts, and the height adjusting operation is simple; after the seedlings fall into the rice field from the seedling transplanting cylinder, the seedlings are more stable by slightly pressing the device, and the openings arranged at the bottom of the seedling transplanting cylinder can not damage the roots of the seedlings while ensuring the stable seedlings.

Drawings

Fig. 1 is a schematic structural view of a manual integrated machine for transplanting and throwing seedlings according to embodiment 1 of the present invention;

FIG. 2 is a partial schematic view of portion A of FIG. 1;

FIG. 3 is a top plan view of the rice transplanting assembly of FIG. 1;

FIG. 4 is a bottom view of the rice transplanting assembly of FIG. 1;

fig. 5 is a top view of a rice transplanting assembly of a manual rice transplanting and seedling throwing integrated machine according to embodiment 2 of the present invention;

FIG. 6 is a bottom view of the seedling insertion assembly of FIG. 5;

fig. 7 is a partial cross-sectional view of the rice transplanting barrel of fig. 1;

in the figure: 1. a seedling transplanting cylinder; 1-1, cutting a cylinder body; 2-1, a rice transplanting plate; 2-2, transplanting rice seedling clamping sheets; 2-3, connecting rod; 3. a pulling section; 4. transplanting rings; 4-1, cutting the rice transplanting ring; 5. a connecting cylinder.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific preferred embodiments.

In the description of the present invention, it should be understood that the terms "left side", "right side", "upper part", "lower part" and the like indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, which is only for convenience of description and simplification of description, and do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, "first", "second" and the like do not indicate the degree of importance of the component parts, and thus, are not to be construed as limiting the present invention. The specific dimensions used in the present embodiment are only for illustrating the technical solution, and do not limit the protection scope of the present invention.

Example 1

As shown in fig. 1, a manual integrated machine for rice transplanting and seedling throwing mainly comprises two parts, wherein one part is a plurality of rice transplanting assemblies which are distributed in a row shape at equal intervals, and the other part clamps the rice transplanting assemblies to assemble the integrated machine and is convenient for lifting and pulling the clamping and pulling assemblies, specifically:

the rice transplanting assembly comprises a rice transplanting cylinder and a rice transplanting ring arranged at the lower end of the rice transplanting cylinder.

The rice transplanting barrel is characterized in that two barrel body notches are symmetrically arranged on the wall surface of the barrel body close to the lower end, the height of each barrel body notch is preferably equal to or slightly higher than the height of a rice seedling so as to observe the operation condition during rice transplanting, and the width of each barrel body notch is preferably equal to or slightly larger than the width of the rice seedling so as to facilitate the whole movement of the rice transplanting assembly through the clamping assembly. The wall surface of the rice transplanting cylinder body between the two cylinder body cuts is a rice transplanting ring fixing wall for fixing the rice transplanting ring. Therefore, the two seedling planting ring fixing walls are arranged symmetrically. The direction of the connecting line of the two cylinder cuts is the moving direction of the manual type rice transplanting and seedling throwing integrated machine.

The rice transplanting rings are integrally arranged in a ring shape as shown in figures 2-4. The annular surface of the rice transplanting ring is provided with a plurality of inner concave ring sectors and a plurality of outer convex ring sectors, the inner concave ring sectors and the outer convex ring sectors are arranged alternately, in other words, the rice transplanting ring is formed by connecting a plurality of inner concave ring sectors and outer convex ring sectors which are arranged alternately in series. The inner concave ring sectors are connected with the fixed wall of the rice transplanting cylinder through the connecting cylinder, and the inner diameter of an inscribed circle formed on the back surface of each inner concave ring sector can enable rice seedlings to smoothly pass through the inscribed circle. The chord length of the sector of the outer convex ring is as much as or slightly larger than the rod diameter of the seedling close to the root. When the roots of the seedlings are fixed, in order not to damage the roots of the seedlings, the inner wall of the seedling transplanting ring is provided with a soft cushion. In order to ensure the stability of the rice transplanting ring, the utility model is provided with a filling layer between the rice transplanting ring and the rice transplanting cylinder.

The rice transplanting ring is provided with a rice transplanting ring cut, and the direction of the rice transplanting ring cut is consistent with that of the rice transplanting cylinder cut.

The size of the seedling transplanting ring is required to be different according to seedlings with different sizes, so that the connecting cylinder arranged on the outer wall of the seedling transplanting ring is an elastic component, and the seedling transplanting ring can be slightly expanded outwards according to the falling gravity of the seedlings.

The clamping component lifting component comprises two transplanting plates, a plurality of transplanting clamping pieces and two lifting parts as shown in figure 1;

the two transplanting plates are arranged in parallel and are respectively arranged at two sides of the transplanting assembly in the transverse direction (the left and right direction in the drawing); meanwhile, the two transplanting plates are connected through two connecting rods, and the two connecting rods are positioned at two sides of the transplanting assembly in the longitudinal direction (the front-back direction in the drawing).

The plurality of seedling transplanting clamping pieces are arranged between two adjacent seedling transplanting assemblies in a one-to-one correspondence manner; are respectively fixed with the two connecting rods and are in contact connection with the two adjacent rice transplanting assemblies.

The two lifting parts are symmetrically arranged and are fixed with the two seedling transplanting plates at the positions of the two lifting parts respectively. The lifting part can be simply arranged as a plate and also can be arranged as a handle.

The manual integrated machine for transplanting and throwing seedlings as shown in fig. 1 is used for transplanting and throwing seedlings as follows: before use, selecting the number of the seedling transplanting clamping pieces and the seedling transplanting assemblies according to actual conditions, then adjusting the height of the seedling transplanting cylinder through a positioning bolt, placing the whole seedling transplanting device in a rice field when the seedling transplanting device is used, supporting the whole seedling transplanting device through a seedling transplanting plate and the seedling transplanting cylinder, directly contacting the rice field at the lower end of the seedling transplanting cylinder with hands, keeping the seedling transplanting plate horizontal, continuously inserting a plurality of seedlings into each seedling transplanting cylinder, enabling the seedlings to fall into the field under the action of self gravity, completing batch seedling transplanting, after the seedlings fall into the field, supporting a lifting part, slightly moving the seedling transplanting cylinder upwards to enable the seedling transplanting cylinder to be slightly higher than the surface of the rice field, then moving the whole seedling transplanting device leftwards or rightwards to enable the roots of the seedlings to be positioned between two adjacent sector ring areas on a seedling transplanting ring, slightly pressing the seedling transplanting cylinder downwards to enable the adjacent sector ring areas on the seedling transplanting ring to be pressed at the roots between the two sector ring areas, the seedlings are driven to be pressed downwards, the effect of stabilizing the seedlings is achieved, and the transplanting is finished; and finally, moving the integrated machine for transplanting rice seedlings in the reverse direction to enable the rice seedlings to be basically positioned on the axis of the rice seedling transplanting cylinder, and because the rice seedling transplanting cylinder and the rice seedling transplanting ring are provided with openings in the same direction, the device can be continuously pushed to move to the next rice seedling transplanting position only by slightly lifting the rice seedling transplanting plate.

Example 2

The embodiment discloses a rice transplanting assembly with another structure, which is different from the embodiment 1 only in that the rice transplanting cylinder and the rice transplanting ring are not provided with rice transplanting ring notches. The rest of the structure is the same as that of embodiment 1, and is not described herein again.

The manual integrated machine for transplanting and throwing seedlings adopts the seedling transplanting assembly of the embodiment, and when the operation of transplanting and throwing seedlings is performed, the difference from the embodiment 1 is that when the operation of transplanting and throwing seedlings at the next seedling transplanting position is performed, the manual integrated machine for transplanting and throwing seedlings needs to be lifted up through the lifting part, and the lifting height is at least higher than the height of the seedlings planted at the previous position.

Example 3

The embodiment discloses a seedling transplanting assembly with another structure, which is different from the embodiment 2 only in that the lower end surface of a seedling transplanting ring is higher than the bottom surface of a seedling transplanting cylinder, after the seedling transplanting is finished, when the whole seedling transplanting device is moved to the next seedling transplanting position, the seedling transplanting cylinder does not need to be lifted to a higher position, the transplanted seedlings can be prevented from being taken up, meanwhile, the embodiment can also effectively prevent the bottom surface of the seedling transplanting ring from being worn in the dragging process of the seedling transplanting device, and the service life of the seedling transplanting device is effectively prolonged.

The above detailed description describes the preferred embodiments of the present invention, but the present invention is not limited to the details of the above embodiments, and the technical idea of the present invention can be within the scope of the present invention to perform various equivalent transformations, which all belong to the protection scope of the present invention.

Claims (7)

1. A manual formula all-in-one of transplanting rice seedlings of throwing rice seedlings which characterized in that: comprises a transplanting component and a clamping and lifting component for clamping and fixing the transplanting component;

the rice transplanting assembly comprises a rice transplanting cylinder and a rice transplanting ring arranged at the lower end of the rice transplanting cylinder;

the rice transplanting ring is arranged on the inner wall of the rice transplanting cylinder close to the lower end of the rice transplanting cylinder and is integrally arranged in an annular shape; the ring surface of the rice transplanting ring is provided with a plurality of inner concave ring sectors and a plurality of outer convex ring sectors which are arranged alternately; the sector of each inner concave ring and the sector of each outer convex ring are connected end to form the rice transplanting ring;

the inner concave ring sectors are connected with the inner wall of the rice transplanting cylinder through the connecting cylinder, and the inner diameter of an inscribed circle formed on the back surface of each inner concave ring sector can ensure that rice seedlings pass through; the chord length of the sector of the outer convex ring is matched with the rod diameter of the seedling close to the root;

the clamping lifting assembly comprises two seedling transplanting plates, a plurality of seedling transplanting clamping pieces and two lifting parts;

the two transplanting plates are arranged in parallel and are respectively arranged at the two transverse sides of the transplanting assembly; the two transplanting plates are connected through two connecting rods, and the two connecting rods are positioned at two longitudinal sides of the transplanting assembly;

the plurality of seedling transplanting clamping pieces are arranged between two adjacent seedling transplanting assemblies in a one-to-one correspondence manner; are respectively fixed with the two connecting rods and are in contact connection with the two adjacent rice transplanting assemblies;

the two lifting parts are symmetrically arranged and are respectively fixed with the two seedling transplanting plates at the respective positions.

2. The manual type integrated machine for transplanting rice seedlings and throwing rice seedlings according to claim 1, wherein: the rice seedling transplanting cylinder is characterized in that two cylinder body notches are symmetrically arranged on the wall surface of the cylinder body close to the lower end, and the height of each cylinder body notch is matched with the height of a rice seedling;

the wall surface of the rice transplanting cylinder body between the two cylinder body cuts is a rice transplanting ring fixing wall;

the sector of the concave ring is fixed with the fixed wall of the rice transplanting ring through the connecting cylinder.

3. The manual type integrated machine for transplanting rice seedlings and throwing rice seedlings according to claim 1, wherein: the rice transplanting ring is symmetrically provided with two rice transplanting ring cuts, and the positions of the rice transplanting ring cuts correspond to the positions of the rice transplanting cylinder cuts.

4. A manual type integrated machine for transplanting rice seedlings and throwing rice seedlings according to claim 3, wherein: the inner wall of the rice transplanting ring is provided with a soft cushion.

5. A manual type integrated machine for transplanting rice seedlings and throwing rice seedlings according to claim 3, wherein: the connecting cylinder is an elastic component.

6. The manual type integrated machine for transplanting rice seedlings and throwing rice seedlings according to claim 1, wherein: and the seedling transplanting plate is provided with a positioning bolt for fixing the seedling transplanting cylinder.

7. The manual type integrated machine for transplanting rice seedlings and throwing rice seedlings according to claim 1, wherein: the lower end surface of the rice transplanting ring is higher than the bottom surface of the rice transplanting cylinder.

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