CN115004912A

CN115004912A - Rhizome treatment integrated device for sand whip transplantation

Info

Publication number: CN115004912A
Application number: CN202210889174.2A
Authority: CN
Inventors: 任珩; 赵文智; 庄艳丽; 周海; 杜军; 杨淇越; 罗维成
Original assignee: Northwest Institute of Eco Environment and Resources of CAS
Current assignee: Northwest Institute of Eco Environment and Resources of CAS
Priority date: 2022-07-27
Filing date: 2022-07-27
Publication date: 2022-09-06
Anticipated expiration: 2042-07-27
Also published as: CN115004912B

Abstract

The invention provides a rhizome treatment integrated device for transplanting sand whips, which comprises a base plate and a middle bag body, wherein connecting seats are respectively fixed at four corners of the base plate, vertical rods are vertically fixed in the connecting seats, transverse rods are respectively connected between the top ends and the bottom ends of two adjacent vertical rods, and the other ends of four inclined rods are respectively connected to the outer sides of columnar ports; four sides of the bottom surface of the middle bag body are respectively stuck on the sticking seats of the transverse rods at the bottom side, four sides of the middle bag body close to the top end are respectively stuck on the sticking seats of the transverse rods at the top side, and the opening of the middle bag body is stuck at the bottom end of the columnar port, so that the installation of the middle bag body between the substrate, the vertical rod and the columnar port is completed. The base plate, the auxiliary rods and the middle bag body can be degraded, transplanting of the rhizomes of the pizzle is completed in a matched mode, the connecting seat, the vertical rods, the transverse rods, the inclined rods and the columnar ports can be recycled, efficiency of the rhizomes of the pizzle can be improved, transplanting utilization rate of equipment can be improved, and the transplanting machine is economical and practical.

Description

Rhizome treatment integrated device for sand whip transplantation

Technical Field

The invention belongs to the technical field of auxiliary equipment for planting of pizzles and particularly relates to a rhizome treatment integrated device for transplanting of pizzles.

Background

The sandpennis is a typical dryland and sandland gramineae plant, has strong adaptability to flowing sand dunes, is a pioneer species and a dominant species gathered by sand plants, and is widely distributed in regions such as inner Mongolia muddy Dakesha west, Kubuqi desert, badan Jilin desert, Mauusu desert and Gansu Hexi corridor sand land. The pizzle is an excellent material for fixing a flowing and semi-flowing dune by means of huge underground multi-stage rhizomes, and if the pizzle is successfully transplanted to a bare dune, the pizzle rhizomes can quickly occupy bare land and quickly expand to form patch vegetation and dune plant communities. However, at present, researches on the sand penis are mainly focused on semiarid regions with relatively rich rainfall, the number of arid regions such as the badagyrin desert with the rainfall of about 100mm, the sand land of the riverside corridor in Gansu province and the like is relatively small, and particularly, a technology for treating the desert by using a sand penis rhizome transplantation technology is not reported.

The transplanting difficulty of the rhizome of the sandwhip is high, the main reason is that the rhizome of the sandwhip is low in water content, only a small number of fibrous roots are distributed on the rhizome, once the rhizome of the sandwhip is dug out of sand, the aspects of original soil conservation, water protection, root integrity and the like cannot be guaranteed, the survival rate of the rhizome of the sandwhip in the transplanting process is extremely low, and the traditional rough rhizome transplanting mode cannot be basically applied to arid areas such as the badan Jilin desert with the precipitation of about 100mm, the sandlot of the riverside of Gansu and the like. And because the natural rainfall is less in an extreme arid area with the rainfall of about 100mm, the rhizome transplantation technology is greatly limited by water, and the survival rate of the rhizome of the Verbena compressa after being transplanted for a long time cannot be guaranteed, the rhizome of the Verbena compressa needs to be pretreated by liquid medicine and then transplanted.

However, the existing pretreatment and transplantation need to be carried out separately, and the transplanting efficiency of the rhizomes of the Verbena compressa is influenced. Based on this, provided a rhizome handles integrative device for sand whip is transplanted.

Disclosure of Invention

The technical problem to be solved by the present invention is to provide an integrated device for rhizome treatment for transplantation of a firecracker, aiming at overcoming the defects in the prior art, so as to solve the problems in the background art.

In order to solve the technical problems, the invention adopts the technical scheme that: a rhizome treatment integrated device for sand whip transplantation comprises a base plate and an intermediate bag body, wherein connecting seats are respectively fixed at four corners of the base plate, vertical rods are vertically fixed in the connecting seats, a transverse rod is respectively connected between the top end and the bottom end of each two adjacent vertical rods, two sticking seats are fixed on each transverse rod, the top ends of the vertical rods are rotatably connected with vertical rod hinge seats, inclined rods are rotatably connected in the vertical rod hinge seats, and the other ends of the four inclined rods are respectively connected to the outer sides of columnar ports;

the bottom surface four sides of middle bag body are pasted respectively on the seat that pastes of bottom side transverse bar, the four sides that are close to the top of middle bag body are pasted respectively on the seat that pastes of top side transverse bar, the bottom at the column port is pasted to the opening of middle bag body to accomplish the installation of middle bag body between base plate and montant and column port.

Further, the outside vertical fixation of connecting seat has the articulated seat of transverse bar, another outside of connecting seat and the articulated seat looks vertically of transverse bar is fixed with the joint seat, the one end of transverse bar is rotated and is connected in the articulated seat of transverse bar, the other end joint of transverse bar is in the joint seat rather than another adjacent connecting seat.

Furthermore, the joint of the transverse rod and the clamping seat is tightly clamped by filling materials.

Furthermore, the included angle between the installation direction of the vertical rod hinged seat and the plane where the transverse rod is located is 30-60 degrees.

Further, the column port comprises four arcs, four the arcs pass through the connecting band reciprocal anchorage, the outside middle section circumferential direction of arc is connected with the articulated seat in top, the other end rotation of diagonal pole is connected in the articulated seat in top.

Furthermore, the inclined rod is a telescopic rod, and the included angle between the inclined rod and the horizontal plane is 15-30 degrees.

Furthermore, an auxiliary adhesive block is fixed on the outer side of the inclined rod, and the part of the middle bag body close to the opening is adhered to the bottom surface of the auxiliary adhesive block.

Furthermore, an auxiliary rod is vertically fixed between the pasting seat of the top side transverse rod and the pasting seat of the bottom side transverse rod on the same vertical surface, and the auxiliary rod is perpendicular to the base plate.

Further, the base plate, the auxiliary rod and the middle bag body are all made of biodegradable materials, and the degradation time of the middle bag body is not longer than that of the base plate and the auxiliary rod.

Furthermore, the connecting seat, the vertical rod, the transverse rod, the oblique rod and the columnar port are all made of rigid plastics.

Compared with the prior art, the invention has the following advantages:

according to the invention, the middle bag body is connected through the base plate and the vertical rods, the connection of the vertical rods on the base plate is firstly completed when the bag is used, then the transverse rods on the top side and the transverse rods on the bottom side are respectively arranged among the four vertical rods, and meanwhile, the bottom sides of the sticking seats of the transverse rods on the bottom side are stuck with the base plate, so that the auxiliary rods are connected, and the stability of the connection of the base plate is improved; then the middle lower part of the middle bag body is stuck and connected between the base plate and the transverse rod; connecting the oblique rods, adhering the middle upper part of the middle bag body to the bottom surfaces of the auxiliary adhesive blocks of the oblique rods after connection, adjusting the caliber of the columnar port according to the thickness of the root of the sand whip to be processed, adjusting through the tightening degree of the connecting belt, and connecting the top opening of the middle bag body to the bottom of the columnar port after adjustment, so that the integral installation of the middle bag body can be completed; then putting the root of the sandy whip to be treated into the middle bag body through the columnar port, pouring a rooting agent aqueous solution through the columnar port, observing the amount of the rooting agent aqueous solution and replenishing timely until the rooting treatment is finished, excavating a planting pit with the volume not less than the volume enclosed by the base plate, the vertical rod, the inclined rod and the bottom of the columnar port in the sandy whip planting area, putting the modified sand whip into the planting pit, and continuously replenishing the amount of the rooting agent aqueous solution; when the base plate, after the complete degradation of auxiliary rod and middle bag body is accomplished, because the stopping of transverse rod also takes place the degradation, it breaks away from to become flexible between transverse rod and the joint seat, open the connecting band of column port after, handheld arc lifts up outside the slant, can drive diagonal rod and montant in step and shift up, the montant can drive the transverse rod who connects through the articulated seat of transverse rod and shift up, the connecting seat and the base plate of the bottom side of being connected with the montant simultaneously break away from, the base plate degrades completely this moment, can accomplish the basic arc, the diagonal rod, the montant, the separation of transverse rod and connecting seat, husky whip is accomplished simultaneously and is planted, can use the connecting seat, the montant, the transverse rod, diagonal rod and column port cycle, can improve husky whip's planting efficiency, can improve the transplanting rate of utilization of equipment again, and is economical and practical.

Drawings

FIG. 1 is a top view of the overall structure of the present invention;

FIG. 2 is a side view of the overall structure of the present invention;

FIG. 3 is a schematic diagram of another state in an embodiment of the invention.

Description of reference numerals:

1-a substrate; 2-a connecting seat; 21-transverse rod hinge seats; 22-a bayonet mount; 3-a vertical rod; 31-a vertical rod hinge seat; 4-a transverse bar; 41-sticking seat; 42-an auxiliary rod; 5-an oblique rod; 51-auxiliary sticking block; 6-cylindrical port; 61-an arc plate; 62-a connecting band; 63-a top hinged seat; 7-middle bag body.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 and fig. 2, the present invention provides a technical solution: a rhizome treatment integrated device for transplanting of sand whips comprises a base plate 1 and a middle bag body 7, wherein connecting seats 2 are respectively fixed at four corners of the base plate 1, vertical rods 3 are vertically fixed in the connecting seats 2, the four vertical rods 3 and the base plate 1 form a bottom frame of the transplanting integrated device, transverse rods 4 are respectively connected between the top ends and the bottom ends of two adjacent vertical rods 3, and when the lengths of the four transverse rods are 20cm, the bottom frame is a square with the length of 20, and is specifically shown in figure 1;

when the lengths of the two transverse rods are 5-8cm and the lengths of the two outer transverse rods are 15-20cm, the bottom frame is rectangular, and particularly as shown in fig. 3, the length of the vertical rod 3 is 20 cm.

The outside vertical fixation of connecting seat 2 has the articulated seat 21 of transverse bar, another outside of the articulated seat 21 looks vertically of transverse bar of connecting seat 2 and transverse bar is fixed with joint seat 22, the one end of transverse bar 4 is rotated and is connected in the articulated seat 21 of transverse bar, the other end joint of transverse bar 4 is in the joint seat 22 of another connecting seat 2 rather than adjacent, transverse bar 4 passes through the stopping chucking with joint seat 22 junction, and the stopping also is biodegradable material, and is the same with base plate 1's material, and after the stopping explanation, it breaks away from to become flexible between transverse bar 4 and the joint seat 22.

Two sticking seats 41 are fixed on the transverse rod 4, four sides of the bottom surface of the middle bag body 7 are respectively stuck on the sticking seats 41 of the transverse rod 4 at the bottom side, four sides of the middle bag body 7 close to the top end are respectively stuck on the sticking seats 41 of the transverse rod 4 at the top side, and therefore the installation of the middle lower part of the middle bag body 7 is completed.

In order to improve the stability and avoid the middle bag body 7 from being crushed or damaged due to pressure, an auxiliary rod 42 is vertically fixed between the sticking seat 41 of the top-side transverse rod 4 and the sticking seat 41 of the bottom-side transverse rod on the same vertical plane, and the auxiliary rod 42 is perpendicular to the base plate 1.

The top end of the vertical rod 3 is rotatably connected with a vertical rod hinging seat 31, the vertical rod hinging seat 31 rotates at the top end of the vertical rod 3, the adjustment of the direction of the vertical rod hinging seat 31 is facilitated, and the included angle between the installation direction of the vertical rod hinging seat and the plane of the transverse rod is 30-60 degrees.

The rotation of the hinged seat 31 of the vertical rod is connected with an oblique rod 5, namely the oblique rod 5 and the transverse rod 4 are obliquely arranged, the outer side of the oblique rod 5 is fixed with an auxiliary adhesive block 51, and the part of the middle bag body 7 close to the opening is adhered to the bottom surface of the auxiliary adhesive block 51.

The other ends of the four oblique rods 5 are respectively connected to the outer sides of the columnar ports 6; the inclined rod 5 is a telescopic rod, and the included angle between the inclined rod and the horizontal plane is 15-30 degrees, so that the tightening installation of the opening when the middle bag body 7 is installed can be completed.

Column port 6 comprises four arc 61, four arc 61 passes through connecting band 62 reciprocal anchorage, the outside middle section circumferential direction of arc 61 is connected with the articulated seat in top 63, the other end rotation of diagonal pole 5 is connected in the articulated seat in top 63.

In order to facilitate the use, the base plate 1, the auxiliary rod 42 and the middle bag body 7 are all made of biodegradable materials, and the degradation time of the middle bag body 7 is not more than that of the base plate 1 and the auxiliary rod 42.

In order to facilitate recycling, the connecting seat 2, the vertical rod 3, the transverse rod 4, the oblique rod 5 and the columnar port 6 are all made of hard plastics.

In conclusion, when the base plate is used, the vertical rods 3 on the base plate 1 are connected, then the transverse rod 4 on the top side and the transverse rod 4 on the bottom side are respectively installed between the four vertical rods 3, meanwhile, the bottom side of the sticking seat 41 of the transverse rod 4 on the bottom side is stuck to the base plate 1, and the auxiliary rod 42 is connected, so that the stability of the connection of the base plate 1 is improved;

then, the middle lower part of the middle bag body 1 is bonded and connected between the base plate 1 and the transverse rod 4.

The slant rods 5 are connected, the middle upper part of the middle bag body 7 is adhered to the bottom surface of the auxiliary adhesive block 51 of the slant rods 5 after connection, the caliber of the columnar port 6 is adjusted according to the thickness of the root of the firecracker to be processed, adjustment is performed through the tightening degree of the connecting belt 62, the top end opening of the middle bag body 7 is connected to the bottom of the columnar port 6 after adjustment is completed, and the integral installation of the middle bag body 7 can be completed.

Then, putting the root of the sandwhip to be treated into an intermediate bag body 7 through a columnar port 6, and pouring a rooting agent aqueous solution into the intermediate bag body through the columnar port 6, wherein the rooting agent aqueous solution is prepared by taking indolebutyric acid, naphthylacetic acid, water and a fertilizer containing nitrogen, phosphorus and potassium as raw materials;

then observing the amount of the aqueous solution of the rooting agent and supplementing the aqueous solution in time until the rooting treatment is finished, excavating a planting pit with the volume not less than the volume enclosed by the bottoms of the base plate 1, the vertical rod 3, the inclined rod 5 and the columnar port 6 in the sand whip planting area, placing the modified planting pit into the planting pit, and continuing to supplement the amount of the aqueous solution of the rooting agent.

The base plate 1, the auxiliary rod 42 and the middle bag body 7 are all made of biodegradable materials, and the degradation time of the middle bag body 7 is not more than that of the base plate 1 and the auxiliary rod 42, so that the middle bag body 7 is degraded firstly in the using process, sandy soil around the planting pits can permeate into the middle area in the degradation process, then the base plate 1 and the auxiliary rod 42 are degraded, and the connecting seat 2 at the bottom is not connected with the base plate 1 after the degradation is finished;

after the base plate 1, the auxiliary rod 42 and the middle bag body 7 are completely degraded, the filling material of the transverse rod 4 is degraded, the transverse rod 4 is loosened and separated from the clamping seat 22, after the connecting belt 63 of the columnar port 6 is opened, the handheld arc-shaped plate 61 is obliquely lifted upwards, the inclined rod 5 and the vertical rod 3 can be synchronously driven to move upwards, the vertical rod 3 can drive the transverse rod 4 connected by the transverse rod hinged seat 21 to move upwards, meanwhile, the connecting seat 2 at the bottom side connected with the vertical rod 3 is separated from the substrate 1, at the moment, the substrate 1 is completely degraded, the separation of the arc-shaped plate 61, the inclined rod 5, the vertical rod 3, the transverse rod 3 and the connecting seat 2 of the foundation can be completed, the husky whip is accomplished simultaneously and is planted, can recycle connecting seat 2, montant 3, transverse bar 4, slant pole 5 and column port 6, can improve the planting efficiency of husky whip, can improve equipment's transplanting rate of utilization again, economical and practical.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an integrative device is handled with rhizome to sand whip transplantation which characterized in that: the bag comprises a base plate (1) and a middle bag body (7), wherein connecting seats (2) are respectively fixed at four corners of the upper part of the base plate (1), vertical rods (3) are vertically fixed in the connecting seats (2), the connecting seats (2) are also fixed at positions, close to the top ends, of the vertical rods (3), transverse rods (4) are respectively connected between the top ends and the bottom ends of two adjacent vertical rods (3), two sticking seats (41) are fixed on the transverse rods (4), the top ends of the vertical rods (3) are rotatably connected with vertical rod hinging seats (31), inclined rods (5) are rotatably connected in the vertical rod hinging seats (31), and the other ends of the four inclined rods (5) are respectively connected to the outer sides of columnar ports (6);

the bottom surface four sides of middle bag body (7) paste respectively on the seat (41) that pastes of bottom side horizontal pole (4), the four sides that are close to the top of middle bag body (7) paste respectively on the seat (41) that pastes of top side horizontal pole (4), the bottom at column port (6) is pasted to the opening of middle bag body (7) to the installation of the middle bag body (7) between base plate (1) and montant (3) and column port (6) is accomplished.

2. A rhizome processing integrated device for sand whip transplantation as claimed in claim 1, wherein a transverse rod hinging seat (21) is vertically fixed on the outer side of the connecting seat (2), a clamping seat (22) is fixed on the other outer side of the connecting seat (2) perpendicular to the transverse rod hinging seat (21), one end of the transverse rod (4) is rotatably connected in the transverse rod hinging seat (21), and the other end of the transverse rod (4) is clamped in the clamping seat (22) of the other connecting seat (2) adjacent to the transverse rod.

3. The rhizome processing integrated device for the transplantation of the sand whip as claimed in claim 2, wherein the joint of the transverse rod (4) and the clamping seat (22) is clamped by filling material.

4. The rhizome processing integrated device for the transplanting of the sand whip as claimed in claim 1, wherein an included angle between the installation direction of the vertical rod hinge seat (31) and the plane of the transverse rod (4) is 30-60 degrees.

5. The rhizome processing integrated device for the transplantation of the sand whip as claimed in claim 1, wherein the cylindrical port (6) is composed of four arc plates (61), the four arc plates (61) are fixed with each other through a connecting belt (62), the middle section of the outer side of each arc plate (61) is circumferentially and rotatably connected with a top end hinged seat (63), and the other end of the inclined rod (5) is rotatably connected in the top end hinged seat (63).

6. The rhizome processing integrated device for the transplantation of the sand whips as claimed in claim 1, wherein the inclined rod (5) is a telescopic rod, and the included angle between the inclined rod and the horizontal plane is 15-30 degrees.

7. The rhizome processing integrated device for the transplantation of the sand whip as claimed in claim 1, wherein an auxiliary adhesive block (51) is fixed to the outer side of the slant bar (5), and a portion of the middle bag body (7) close to the opening is adhered to the bottom surface of the auxiliary adhesive block (51).

8. The rhizome processing integrated device for the transplantation of the sand whip as claimed in claim 1, wherein an auxiliary rod (42) is vertically fixed between the sticking seat (41) of the top side transverse rod (4) and the sticking seat (41) of the bottom side transverse rod on the same vertical plane, and the auxiliary rod (42) is vertical to the base plate (1).

9. A rhizome processing integrated device for the transplantation of Verbena compressa according to claim 8, wherein the base plate (1), the auxiliary rod (42) and the middle bag body (7) are made of biodegradable material, and the degradation time of the middle bag body (7) is not more than that of the base plate (1) and the auxiliary rod (42).

10. The rhizome processing integrated device for the transplantation of the sand whips as claimed in claim 1, wherein the connecting seat (2), the vertical rod (3), the transverse rod (4), the inclined rod (5) and the cylindrical port (6) are all made of rigid plastics.