CN214385280U - Multi-functional automatic flowers transplanting device - Google Patents

Abstract

The utility model discloses a multi-functional automatic flowers transplanting device, include: the two support frames are symmetrically combined, the bottoms of the two support frames are supported on the ground, a space is formed between the middle part of the two support frames and the ground, the middle parts of the two support frames are provided with first through holes, the first through holes are communicated with the space, and the first through holes surround the trunk part of the flower; the at least two first electric push rods are connected to the support frame, arranged in the space and separated from the first through holes; the support piece is connected to the first electric push rod, is arranged in the space, moves up and down along the linear direction along with the extension and retraction of the first electric push rod, and is provided with a second through hole in the middle part and surrounds the trunk part of the flower; the three inclined digging pieces are uniformly distributed on the bottom surface of the supporting piece and are used for being inserted into the ground to pull out flowers and partial soil; the technical problems of large workload of manual operation and higher cost of using related equipment are solved.

Description

Multi-functional automatic flowers transplanting device

Technical Field

The utility model relates to a flowers technical field, specific multi-functional automatic flowers transplanting device that says so.

Background

The flowers are of various types and different in size and height, and are usually required to be transplanted when being planted, and for some flowers about 1.5 meters, the flowers are transplanted, so that the manual operation digging workload is large, related equipment is used, the cost is high, and particularly under the condition that the batch is not large, the flowers are not suitable for using professional equipment, and therefore a multifunctional automatic flower transplanting device is needed.

Disclosure of Invention

Aiming at the defects in the prior art, the multifunctional automatic flower transplanting device is provided to solve the technical problems of large workload of manual operation and higher cost of using related equipment in the prior art.

The technical scheme adopted for realizing the purpose is as follows: a multifunctional automatic flower transplanting device, comprising:

the bottom of the two support frames is supported on the ground after the two support frames are symmetrically combined, a space is formed between the middle part of the two support frames and the ground, a first through hole is formed in the middle part of the two support frames, the first through hole is communicated with the space, and the first through hole surrounds the trunk part of the flower;

the at least two first electric push rods are connected to the supporting frame, arranged in the space and separated from the first through holes;

a support member connected to the first electric push rod, disposed at the space, and moving up and down along a linear direction with the extension and retraction of the first electric push rod, and having a second through hole at a middle portion thereof, the second through hole surrounding a trunk portion of the flower;

and three inclined digging pieces which are uniformly distributed on the bottom surface of the supporting piece and are used for being inserted into the ground to pull out flowers and partial soil.

Further: the support frame includes: the frame body is of an L-shaped structure; the at least two universal wheels are connected to the bottom of one end of the frame body and are in direct contact with the ground; the connecting piece is connected to the other end of the frame body and used for connecting and combining the two support frames, and after the connecting piece is combined, the first through hole is formed in the middle of the connecting piece; the reinforcing piece is connected to the frame body and arranged in the space; and at least two balance weights connected to the frame body.

Further: the support piece is of a circular ring-shaped structure after being projected from the top to the bottom plane.

Further: the inclined excavating member includes: the section bar is connected to the bottom surface of the supporting piece; one end of the second electric push rod is connected with the section bar; the inserting head is connected to the other end of the second electric push rod and used for being inserted into the ground;

the inserting head is in an isosceles triangle structure after being unfolded; the shape of the part of soil dug out by the three insertion heads is an inverted cone structure.

By adopting the technical scheme, the method has the following beneficial effects: compared with the prior art, the multifunctional automatic flower transplanting device is provided with the support frames, after the support frames are symmetrically combined, the bottoms of the support frames are supported on the ground, and the middle part of the support frames surrounds the trunk part of a flower through the first through hole, so that a stable support structure is formed; a first electric push rod is connected to the support frame, a support piece is connected to the first electric push rod, and an inclined digging piece is connected to the support piece; when the transplanting device is used, two operators sleeve the transplanting device at the flower position through the first through hole and the second through hole, the support frame and the ground form a support to control the action of the inclined digging element, the inclined digging element is inserted into the ground, then the first electric push rod is controlled to act, the support element, the inclined digging element and the flower with partial soil are pulled out from the ground and leave the ground, a flower pot is placed on the ground, the inclined digging element is operated to loosen the flower with partial soil, and the flower with partial soil falls into the flower pot, so that the transplanting purpose is realized, and the operation is more convenient; therefore, the technical problems of large workload of manual operation and high cost of using related equipment are solved, the workload of manual operation is reduced, the technical effect of reducing the use cost is achieved, and the practicability is realized.

Drawings

FIG. 1 is a schematic diagram of a three-dimensional assembly structure in an actual use state;

FIG. 2 is one of the schematic views of the three-dimensional final assembly structure of FIG. 1 with flowers removed;

FIG. 3 is a second schematic view of the three-dimensional assembly shown in FIG. 1 with flowers removed;

FIG. 4 is a schematic three-dimensional view of the inclined digging element;

in the figure: 10. the flower planting device comprises a support frame, 11, a space, 12, a first through hole, 13, a frame body, 14, a universal wheel, 15, a connecting piece, 16, a reinforcing piece, 17, a counterweight piece, 20, a first electric push rod, 30, a supporting piece, 31, a second through hole, 40, an inclined digging piece, 41, a section bar, 42, a second electric push rod, 43, an inserting head and 100 flowers.

Detailed Description

The technical solutions in the embodiments will be described clearly and completely with reference to the drawings in the embodiments, and it is obvious that the described embodiments are only a part of the embodiments, not all of the embodiments;

a multifunctional automatic flower transplanting device solves the technical problems of large workload of manual operation and higher cost of using related equipment in the related technology; the manufacturing and using method can be used, and the positive effects of reducing the workload of manual operation and reducing the use cost are achieved; the general idea is as follows:

one embodiment is as follows:

see fig. 1, 2, 3; a multifunctional automatic flower transplanting device, comprising:

two support frames 10, which are symmetrically combined and supported on the ground at the bottom, wherein a space 11 is formed between the middle part of the two support frames 10 and the ground, a first through hole 12 is formed in the middle part of the two support frames 10, the first through hole 12 is communicated with the space 11, and the first through hole 12 surrounds the trunk part of the flower 100;

at least two first electric push rods 20 connected to the support frame 10, disposed at the space 11, and spaced apart from the first through holes 12;

a support 30 connected to the first electric putter 20, disposed at the space 11, and moving up and down along a linear direction as the first electric putter 20 extends and contracts, and having a second through hole 31 at a middle portion of the support 30, the second through hole 31 surrounding a trunk portion of the flower 100;

and three inclined digging parts 40 uniformly distributed on the bottom surface of the support part 30 for inserting into the ground to extract the flowers 100 and a part of the soil;

specifically, in practice, the support frames 10 are provided, and after being symmetrically combined, the bottom part is supported on the ground, and the middle part surrounds the trunk part of the flower 100 through the first through hole 12, so that a stable support structure is formed; a first electric push rod 20 is connected to the support frame 10, a support member 30 is connected to the first electric push rod 20, and an inclined excavating part 40 is connected to the support member 30; when the transplanting device is used, two operators sleeve the flower 100 through the first through hole 12 and the second through hole 31, the support frame 10 forms a support with the ground, the inclined digging element 40 is controlled to act, the inclined digging element 40 is inserted into the ground, the first electric push rod 20 is controlled to act, the support element 30, the inclined digging element 40 and the flower 100 with partial soil are pulled out from the ground together, the flower 100 with partial soil is separated from the ground, a flower pot is placed on the ground, the inclined digging element 40 is operated to loosen the flower 100 with partial soil, and the flower 100 with partial soil falls into the flower pot, so that the transplanting purpose is realized, and the operation is more convenient;

in another embodiment:

see fig. 1, 2, 3; in practice, the support frame 10 comprises: a frame body 13, the appearance is an L-shaped structure; at least two universal wheels 14 connected to the bottom of one end of the frame body 13 and directly contacted with the ground; the connecting piece 15 is connected to the other end of the frame body 13 and used for connecting and combining the two support frames 10, and after the connecting piece 15 is combined, the first through hole 12 is formed in the middle part; a reinforcing member 16 connected to the frame body 13 and disposed at the space 11; and at least two weight members 17 connected to the frame body 13;

the frame body 13 is formed by assembling and welding a plurality of first hollow square tubes, is of an L-shaped structure, can form reliable support, is beneficial to forming the space 11, is convenient for installing and arranging other components, and does not influence the action of an operator;

the universal wheel 14 is a common structure in the prior art, such as a universal wheel with a brake, and is connected to the frame body 13 through a screw, so that the support frame 10 can be moved conveniently, and the use is relatively convenient;

the connecting pieces 15 are formed by bending strip-shaped plates, are approximately in omega-shaped structures in appearance, are welded with the frame body 13, and are connected through outer hexagonal bolts, so that the support frame 10 is convenient to mount and dismount;

the reinforcing piece 16 is a second hollow square tube and is welded with the frame body 13, so that the reliability of the structure is improved;

the weight member 17 includes: the L-shaped hook and the balancing weight are welded on the frame body 13 and clamped at the L-shaped hook; the balancing weight can be a cement block, and the weight is five jin; the weight 17 is arranged to prevent the support frame 10 from being supported and falling off the ground when the inclined digging part 40 is inserted into the ground;

in another embodiment:

see fig. 1, 2, 3, 4; in practice, the first electric push rod 20 and the second electric push rod 42 are both of the conventional structure in the prior art, such as: the TJC-C2-T3-P type, which is intended to generate driving force, can be directly and unambiguously known by those of ordinary skill in the art, after reviewing the disclosure, as to how to set it, without requiring creative effort and without undue experimentation;

in another embodiment:

see fig. 1, 2, 3; in practice, the support member 30 has a circular ring-shaped structure after being projected from the top to the bottom plane; the supporting member 30 is a circular plate, is connected with the first telescopic shaft on the first electric push rod 20 through a first section bar, can move up and down synchronously along with the extension and retraction of the first telescopic shaft, and forms an installation platform, which is beneficial to installing the inclined digging part 40;

in another embodiment:

see fig. 1, 2, 3, 4; in practice, the inclined digging elements 40 comprise: a section bar 41 connected to the bottom surface of the supporting member 30; a second electric push rod 42, one end of which is connected with the section bar 41; and an insertion head 43 connected to the other end of the second electric putter 42 for inserting into the ground; the inserting head 43 is in an isosceles triangle structure after being unfolded and is welded with a second telescopic shaft on the second electric push rod 42; the shape of the soil dug out by the three insertion heads 43 is an inverted cone structure, which is beneficial to the lifting of flowers 100 and part of soil;

the section bar 41 is connected with the bottom surface of the support 30 through screws; the section bar 41 is of a bending structure and is formed by bending a cuboid-shaped plate, the bending angle is 45 degrees, so that the included angle between the second electric push rod 42 and the vertical line is 45 degrees, the insertion head 43 can be inserted into the ground to support the flower 100 and part of soil, the insertion head 43 can be used for loosening the flower 100 and part of soil, and the flower 100 and part of soil can be placed in a flowerpot;

in another embodiment:

see FIG. 1; the flower 100 is a structure of the prior art, has a height of about 1.5 m, and is used for tying the branches of the flower 100 by ropes so that the flower 100 has a substantially cylindrical shape in order to facilitate the first through hole 12 and the second through hole 31 to be sleeved on the flower 100; the flower 100 is not the invention of the present invention, but is only for better describing the present invention, so as to facilitate understanding of the technical solution of the present invention, and after seeing the disclosure, the ordinary skilled person in the art can directly and unambiguously know how to set up, without paying creative labor and without performing excessive tests;

the working principle is as follows: when the flower transplanting device is used, two operators sleeve the flower 100 through the first through hole 12 and the second through hole 31, the support frame 10 forms a support with the ground, the inclined digging element 40 is controlled to act, the inclined digging element 40 is inserted into the ground, the first electric push rod 20 is controlled to act, the support element 30, the inclined digging element 40 and the flower 100 with partial soil are pulled out from the ground together, a flower pot is placed on the ground, the inclined digging element 40 is operated to loosen the flower 100 with partial soil, the flower 100 with partial soil falls into the flower pot, the transplanting purpose is realized, then the operators lift the transplanting device, the processes are repeated, the operation is relatively convenient, and the manual workload is relatively less;

in the description, it is to be understood that the terms "upper", "lower", "left", "right", "front", "rear", and the like indicate orientations or positional relationships based on the positional relationships illustrated in the drawings, and are only for convenience of description or simplicity of description, but do not indicate specific orientations that are necessary; the operation process described in the embodiment is not an absolute use step, and corresponding adjustment can be made during actual use;

unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art; the use of "first," "second," and the like in the description and in the claims does not denote any order, quantity, or importance, but rather the terms "a" and "an" and the like are used to distinguish one element from another, and likewise, are not intended to denote an absolute limitation of quantity, but rather denote the presence of at least one, as may be determined by the context of the embodiment;

the above description is only for the preferred embodiment, but the scope of protection is not limited thereto, and any person skilled in the art should be covered by the protection scope, which is equivalent to or changed from the technical solution and the utility model concept disclosed in the present disclosure.

Claims (4)

1. A multi-functional automatic flowers transplanting device which characterized in that includes:

the two support frames (10) are symmetrically combined, the bottoms of the two support frames are supported on the ground, a space (11) is formed between the middle part of the two support frames (10), the middle part of the two support frames (10) is provided with a first through hole (12), the first through hole (12) is communicated with the space (11), and the first through hole (12) surrounds the trunk part of the flower (100);

at least two first electric push rods (20) connected to the support frame (10), arranged at the space (11), and spaced apart from the first through holes (12);

a support member (30) connected to the first electric putter (20), disposed at the space (11), and moved up and down along a straight line direction in accordance with the extension and contraction of the first electric putter (20), and a second through hole (31) is formed at a middle portion of the support member (30), the second through hole (31) surrounding a trunk portion of the flower (100);

and three inclined digging pieces (40) uniformly distributed on the bottom surface of the support member (30) for inserting into the ground, extracting the flowers (100) and a part of the soil.

2. The multifunctional automatic flower transplanting device according to claim 1, wherein: the support frame (10) comprises: a frame body (13) with an L-shaped appearance; at least two universal wheels (14) connected to the bottom of one end of the frame body (13) and directly contacted with the ground; the connecting piece (15) is connected to the other end of the frame body (13) and used for connecting and combining the two support frames (10), and after the connecting piece (15) is combined, the first through hole (12) is formed in the middle part; a reinforcing member (16) connected to the frame body (13) and disposed at the space (11); and at least two weight members (17) connected to the frame body (13).

3. The multifunctional automatic flower transplanting device according to claim 1, wherein: the supporting piece (30) is of a circular ring-shaped structure after being projected on a plane from top to bottom.

4. The multifunctional automatic flower transplanting device according to claim 1, wherein: the inclined digging member (40) includes: a section bar (41) connected to the bottom surface of the support (30); a second electric push rod (42) with one end connected with the section bar (41); and an insertion head (43) connected to the other end of the second electric push rod (42) for inserting into the ground;

the shape of the insertion head (43) is an isosceles triangle structure after being unfolded; the shape of the part of soil dug out by the three insertion heads (43) is an inverted cone structure.

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