CN219688732U

CN219688732U - Tool for filling plant-growing strips

Info

Publication number: CN219688732U
Application number: CN202321206932.2U
Authority: CN
Inventors: 刘保存; 刘佳; 钱润鹏; 胡雨; 范梦奇; 陈港; 慕长斌; 张鹏志
Original assignee: Fourth Engineering Co Ltd of China Railway Construction Bridge Engineering Bureau Group Co Ltd
Current assignee: Fourth Engineering Co Ltd of China Railway Construction Bridge Engineering Bureau Group Co Ltd
Priority date: 2023-05-18
Filing date: 2023-05-18
Publication date: 2023-09-15
Anticipated expiration: 2033-05-18

Abstract

A tool for filling plant-growing strips relates to the technical field of plant-growing strip filling in plant greening engineering. The utility model aims to solve the problem that the existing plant-growing strip filling tool is laborious in the filling process. The utility model comprises a supporting frame, a frame net sheet and a plurality of loading funnels; the frame mesh is detachably arranged at the top of the supporting frame, the charging hoppers are uniformly inserted on the frame mesh, and a plant growth strip is arranged at the lower part of each charging hopper; the frame net piece comprises an outer frame, an inner fixing net and four frame supporting legs; the frame mesh is inserted on the support frame through the four frame support legs, and the separation and the installation of the frame mesh and the support frame are realized through lifting or lowering. The utility model is mainly used for filling the plant growth strips.

Description

Tool for filling plant-growing strips

Technical Field

The utility model relates to the technical field of plant greening engineering plant growth strip filling, in particular to a plant growth strip filling tool for slender plants.

Background

In the highway engineering slope protection construction process, a plant protection technology is widely introduced at present, and especially for a steep rock slope, plant growth substrates need to be sprayed on the slope surface, for example, the direct spraying substrates are easy to slide off, at the moment, plant growth strips need to be installed on the slope for supporting and stabilizing the soil substrates which are likely to slide off in initial spraying, and a base plate is also provided for initial growth of plants. The plant growth strips are generally slender, and need to be filled with screened humus, if single-person filling is adopted, two persons are needed to finish filling of one strip, the efficiency is low, the construction is slow, but the plant growth strips are generally filled with local humus on site, and the mechanized construction cannot be realized; the existing plant strip filling tool, such as a plant strip filling hopper disclosed in Chinese patent CN202557852U, can realize rapid filling of plant strips, but because the plant strips are longer, the hopper is higher, so that constructors are required to raise arms to fill soil into the hopper, and the labor is wasted; meanwhile, as the funnel is fixedly arranged at the bottom of the feed chute, when the plant growth strip is arranged on the funnel, constructors need to squat down or bend the body for installation, and the labor is wasted; therefore, a tool capable of improving the filling efficiency and saving labor is needed to assist the site operation.

Disclosure of Invention

The technical problems to be solved by the utility model are as follows: the existing plant growth strip filling tool is laborious in the filling process; it is further desirable to provide a tool for loading a strip of plant material.

The utility model adopts the technical scheme for solving the technical problems that:

a tool for filling plant growth strips comprises a support frame, a frame net sheet and a plurality of loading funnels; the frame mesh is detachably arranged at the top of the supporting frame, the charging hoppers are uniformly inserted on the frame mesh, and a plant growth strip is arranged at the lower part of each charging hopper; the frame net piece comprises an outer frame, an inner fixing net and four frame supporting legs; the frame mesh is inserted on the support frame through the four frame support legs, and the separation and the installation of the frame mesh and the support frame are realized through lifting or lowering.

Further, the support frame comprises four steel pipe columns and two horizontal trusses; four steel-pipe column circumference sets up, and two horizontal trusses install side by side from top to bottom between four steel-pipe columns for the fixation of steel-pipe column.

Further, the internal fixation net is a grid structure formed by welding a plurality of steel bars arranged longitudinally and steel bars arranged transversely.

Further, the inner diameter of the grid on the inner fixed net is equal to the outer diameter of the discharging pipe at the bottom of the charging hopper and smaller than the minimum outer diameter of the conical cylinder at the top of the charging hopper, so that the inner fixed net and the charging hopper are in interference fit.

Further, the charging hopper is rolled by a thin steel plate or directly used as a finished product.

Further, the amount of memory in each hopper is equal to the amount of memory in the plant strip.

Further, the length of the frame supporting legs is longer than the length of the bottom of the charging hopper extending out of the frame net sheet.

Further, two ends of the frame net sheet are respectively welded with a lifting handrail.

Further, the upper opening of each plant growth strip is sleeved at the discharge hole at the bottom of the charging hopper, and each plant growth strip is hung at the lower end of the frame net sheet through two hooks.

Further, the tool also comprises a pushing rod which is inserted into the plant growing strip from the upper opening of the charging hopper and moves up and down.

Compared with the prior art, the utility model has the beneficial effects that:

1. the utility model has the advantages of simple and convenient manufacture, convenient use and light structure, and can improve the filling efficiency of the plant growth strips.

2. Due to the design mode of the frame net sheet, the plant growth strips and the charging hopper, constructors can fill the plant growth strips without lifting arms, and the labor-saving requirement is met.

3. Because the frame net piece is detachably connected with the support frame and can move up and down in a series, when the situation that the filled soil material is large in size and high in humidity and is not easy to fall down is met, the frame net piece can vibrate up and down and is matched with the pushing rod, the falling of the soil material is accelerated, and the filling plumpness of the plant growing strips is ensured.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model.

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of the structure of the frame mesh assembled with the loading hopper;

figure 3 is a schematic view of the attachment of the plant growing strip to the frame mesh by hooks.

Reference numerals illustrate: 1-a supporting frame; 1-1-steel pipe column; 1-2-horizontal trusses; 2-frame mesh; 2-1-an outer frame; 2-2-internal fixation net; 2-3-frame legs; 3-a charging hopper; 4-plant-growing strips; 5-lifting the armrests; 6, hooking; 7-a pushing rod.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions in the embodiments will be clearly and completely described with reference to the accompanying drawings in the embodiments of the present utility model, and the following embodiments are used to illustrate the present utility model, but are not intended to limit the scope of the present utility model.

Referring to fig. 1, an embodiment of the present utility model provides a tool for loading a plant growing strip, comprising a support frame 1, a frame mesh 2 and a number of loading hoppers 3; the frame net piece 2 detachably install at the top of support frame 1, a plurality of charging hopper 3 even cartridge is on frame net piece 2, a plant-growing strip 4 is installed to the lower part of every charging hopper 3.

Referring to FIG. 1, the supporting frame 1 comprises four steel pipe columns 1-1 with phi 48mm and two horizontal trusses 1-2; the four steel pipe columns 1-1 are circumferentially arranged and enclose a square or rectangular structure; the two horizontal trusses 1-2 are arranged between the four steel pipe columns 1-1 side by side up and down and used for fixing the steel pipe columns 1-1 and guaranteeing the stability of the support frame 1.

Referring to fig. 1 and 2, the frame net sheet 2 includes an outer frame 2-1, an inner fixing net 2-2 and four frame legs 2-3; the inner fixing net 2-2 is welded in the outer frame 2-1, four frame supporting legs 2-3 are respectively vertically welded at four top corners of the bottom of the outer frame 2-1, the frame net 2 is inserted on four steel pipe columns 1-1 on the support frame 1 through the four frame supporting legs 2-3, and the separation and the installation of the frame net 2 and the support frame 1 are realized through lifting or lowering.

Furthermore, the outer frame 2-1 is formed by welding four steel bars with the diameter of 20 mm; the internal fixation net 2-2 is a grid structure formed by welding a plurality of steel bars which are arranged longitudinally with phi 16mm and steel bars which are arranged transversely, and is welded on the outer frame 2-1 at the same time, wherein 4 steel bars which are arranged longitudinally are arranged in groups of every 2 steel bars, 8 steel bars which are arranged transversely are arranged in groups of every 2 steel bars, the short steel bars are arranged downwards and the long steel bars are arranged upwards, and the intersection of the four steel bars is the position for installing the charging hopper 3.

Further, the inner diameter of the grid on the internal fixed net 2-2 is equal to the outer diameter of the discharging pipe at the bottom of the charging hopper 3 and is smaller than the minimum outer diameter of the conical cylinder at the top of the charging hopper 3, so that the internal fixed net 2-2 and the charging hopper 3 are in interference fit, the connection stability of the internal fixed net 2-2 and the charging hopper 3 is ensured, and meanwhile, the plugging effect can be realized.

Furthermore, the number of the grids on the inner fixing net 2-2 for inserting the loading hopper 3 is eight, so that the number of the loading hopper 3 and the plant growth belts 4 is also eight.

The charging hopper 3 is rolled by a thin steel plate or directly used as a finished product.

Further, the amount of the memory of each charging hopper 3 is equal to the memory amount of the plant growing strips 4, and when the charging hopper 3 is filled with soil, the charging hopper 3 is only required to be filled, so that the plant growing strips 4 can be ensured to be filled.

Further, the length of the frame supporting leg 2-3 is longer than the length of the bottom of the loading funnel 3 extending out of the frame net 2, when the frame net 2 is placed on the ground, a certain distance is reserved between the lowest end of the loading funnel 3 and the ground, so that the loading funnel 3 can be stably positioned on the frame net 2, instability is not generated due to the fact that the loading funnel 3 extends out of the frame net 2 too long, and meanwhile a placing space is reserved for the plant growth strips 4.

Furthermore, two ends of the frame net sheet 2 are respectively welded with a lifting handrail 5, so that the frame net sheet 2 is convenient to carry.

Referring to fig. 3, the upper opening of each plant growth strip 4 is sleeved at the discharge hole at the bottom of the charging hopper 3, and each plant growth strip 4 is hung at the lower end of the frame mesh 2 through two hooks 6, wherein one end of each hook 6 hooks the upper edge of the upper port of the plant growth strip 4, and the other end of each hook 6 hooks the steel bars of the inner fixing net 2-2, so that the plant growth strip 4, the charging hopper 3 and the frame mesh 2 are connected to form a complete filling system.

Further, the hook 6 is made of double-strand 8# iron wires.

Referring to fig. 3, the loading tool further comprises a pushing rod 7, the pushing rod 7 is formed by welding a steel bar with the diameter of 12mm and a steel plate with the diameter of 60mm, and the pushing rod 7 is inserted into the plant growth belt 4 from the upper opening of the loading hopper 3 and moves up and down, so that the problem that soil in the plant growth belt 4 cannot smoothly fall down due to the fact that the frame net 2 vibrates up and down in the loading process of the plant growth belt 4 is solved.

The working process of the utility model is further described below to further demonstrate the working principle and advantages of the utility model:

step 1, laterally placing and supporting a frame mesh 2;

step 2, hooking the plant growth belts 4 on the frame net sheet 2 through hooks 6 until all the plant growth belts 4 are installed;

step 3, horizontally placing the frame net sheet 2 on the ground, wherein the plant growth strips 4 are in a bending state, respectively inserting a charging hopper 3 at the installation position of the plant growth strips 4, and simultaneously, arranging a discharge hole of the charging hopper 3 in a feed inlet of the plant growth strips 4;

step 4, filling soil into the charging hopper 3 and filling the soil;

step 5, the constructor lifts the frame net 2 through the lifting handrails 5 at two sides of the frame net 2 and places the frame net 2 on the supporting frame 1, soil in the charging hopper 3 automatically enters the plant growth strip 4 under the action of gravity, and if the soil in the charging hopper 3 cannot smoothly enter the plant growth strip 4, the frame net 2 is lifted again and vibrated, or a pushing rod 7 is inserted in the charging hopper 3, so that the plant growth strip 4 is filled;

and 6, pulling the charging hopper 3 out of the frame net sheet 2, and detaching the plant growth strips 4 one by one and sealing.

Although the utility model herein has been described with reference to particular embodiments, it is to be understood that these embodiments are merely illustrative of the principles and applications of the present utility model. It is therefore to be understood that numerous modifications may be made to the illustrative embodiments and that other arrangements may be devised without departing from the spirit and scope of the present utility model as defined by the appended claims. It should be understood that the different dependent claims and the features described herein may be combined in ways other than as described in the original claims. It is also to be understood that features described in connection with separate embodiments may be used in other described embodiments.

Claims

1. A tool for loading a strip of plant material, characterized by: the device comprises a supporting frame (1), a frame net sheet (2) and a plurality of loading funnels (3); the frame net piece (2) is detachably arranged at the top of the supporting frame (1), the charging funnels (3) are uniformly inserted on the frame net piece (2), and a plant growing strip (4) is arranged at the lower part of each charging funnel (3); the frame net piece (2) comprises an outer frame (2-1), an inner fixing net (2-2) and four frame supporting legs (2-3); the inner fixing net (2-2) is fixed in the outer frame (2-1), four frame supporting legs (2-3) are vertically welded at four top corners of the bottom of the outer frame (2-1) respectively, the frame net sheet (2) is inserted on the supporting frame (1) through the four frame supporting legs (2-3), and the frame net sheet (2) is separated from the supporting frame (1) and installed through lifting or lowering.

2. A tool for loading plant tape according to claim 1, wherein: the support frame (1) comprises four steel pipe columns (1-1) and two horizontal trusses (1-2); four steel pipe columns (1-1) are circumferentially arranged, and two horizontal trusses (1-2) are arranged between the four steel pipe columns (1-1) side by side up and down and used for fixing the steel pipe columns (1-1).

3. A tool for loading plant tape according to claim 1, wherein: the internal fixation net (2-2) is a grid structure formed by welding a plurality of steel bars which are longitudinally arranged and steel bars which are transversely arranged.

4. A tool for loading plant tape according to claim 3, wherein: the inner diameter of the grid on the inner fixed net (2-2) is equal to the outer diameter of the discharging pipe at the bottom of the charging funnel (3) and is smaller than the minimum outer diameter of the conical cylinder at the top of the charging funnel (3), so that the inner fixed net (2-2) is in interference fit with the charging funnel (3).

5. A tool for loading plant tape according to claim 1, wherein: the charging hopper (3) is formed by rolling a thin steel plate or directly using a finished product.

6. A tool for loading plant tape according to claim 1, wherein: the memory amount of each charging hopper (3) is equal to the memory amount of the plant growing strip (4).

7. A tool for loading plant tape according to claim 1, wherein: the length of the frame supporting legs (2-3) is longer than the length of the bottom of the charging hopper (3) extending out of the frame net sheet (2).

8. A tool for loading plant tape according to claim 1, wherein: two ends of the frame net sheet (2) are respectively welded with a lifting handrail (5).

9. A tool for loading plant tape according to claim 1, wherein: the upper opening of each plant growth strip (4) is sleeved at the discharge hole at the bottom of the charging hopper (3), and each plant growth strip (4) is hung at the lower end of the frame net sheet (2) through two hooks (6).

10. A tool for loading plant tape according to claim 1, wherein: the tool also comprises a pushing rod (7), and the pushing rod (7) is inserted into the plant growing strip (4) from the upper opening of the charging hopper (3) and moves up and down.