CN111441214A

CN111441214A - Multi-directional or omnidirectional tree grate

Info

Publication number: CN111441214A
Application number: CN202010359769.8A
Authority: CN
Inventors: 鲍诗度; 宋树德; 张瑶; 倪力; 林澄昀; 杨敏
Original assignee: Shanghai Qihe City Furniture Development Co ltd
Current assignee: Shanghai Qihe City Furniture Development Co ltd
Priority date: 2020-04-30
Filing date: 2020-04-30
Publication date: 2020-07-24

Abstract

The invention relates to a multi-directional tree grate. Another technical scheme of the invention is to provide an omnidirectional tree grate. The multi-directional tree grate provided by the invention can adjust the positions of tree holes in N directions, and the omni-directional tree grate provided by the invention can adjust the positions of the tree holes in all directions. Therefore, the invention can adjust the distance between the edge of the tree hole and the edge of the corresponding edge of the tree grate according to the specific distance between the greening landscape tree and the edge of the sidewalk, and the tree hole is changed along with different distances under the condition that the whole position of the tree grate is not changed, thereby ensuring that the edges of two sides of all the tree grates of the same row of greening landscape trees are positioned on the same straight line. And when the distance between the greening landscape trees and the edges of the sidewalks is too close, the tree grates can be installed by adjusting the distance between the edges of the tree holes and the edges of the corresponding edges of the tree grates.

Description

Multi-directional or omnidirectional tree grate

Technical Field

The invention relates to a tree grate, and belongs to the technical field of urban furniture.

Background

The tree grate is the popular name of tree pool cover plate, and is mainly used for landscaping, municipal construction and the like due to different calling laws in different dialects. The tree pool cover plate main body is formed by butt joint of two or four symmetrical plate bodies, a tree hole is formed in the center of the cover plate body, a plurality of water leakage holes are formed in the periphery of the tree hole, and after the tree pool cover plate main body is installed, a tree trunk is located in the tree hole. The tree pool cover plate is mainly used in tree pools of greening landscape trees on two sides of a street, and plays roles in preventing water and soil loss and beautifying the environment. The tree pool cover plate is usually made of various materials such as magnesite composite, cast iron and resin composite.

The street trees on two sides of the urban road are usually arranged close to the outer edge of the sidewalk for the sake of beauty and neatness, are aligned with the straight line center in the direction parallel to the sidewalk, and are used for planting the street trees, and the size and the welting position of a tree pool are the same. The street trees are mostly planted before the tree pool cover plate is laid, on one hand, the street trees cannot be guaranteed to be located at the center of the tree pool when being planted, and on the other hand, the street trees can be deviated from the center of the tree pool due to natural growth of the trees. Even if the street trees are positioned in the center of the tree pool during planting, the situation of deviating from the center can also occur along with the slow growth of the root system and the trunk after planting. The tree hole of the existing tree pool cover plate which is integrally formed is located at the center, so that the hole reservation requirement of an eccentric tree cannot be met, and the local part of the tree pool cover plate needs to be knocked off during installation. After the tree pool cover plate is installed, the tree pool cover plate is protruded along with the growth of tree roots, and the tree pool cover plate is also protruded along with the arch, so that the appearance of a greening city is influenced, the safety accident of stumbled pedestrians is easily caused, and the problem of restricting city builders and managers for a long time is solved.

The existing technical means for solving the problems in the market is to replace a tree pool cover plate with pervious concrete. But pervious concrete can influence the whole aesthetic measure of pavement, has certain construction requirement moreover, and its ventilative, water permeability is poor simultaneously, is unfavorable for trees and vegetation in the tree pool, and aesthetic measure is not as good as traditional tree pool apron yet, also has the problem of arching the damage along with the growth of trees root system moreover.

Disclosure of Invention

The purpose of the invention is: provides a tree grate which can adapt to different construction conditions.

In order to achieve the purpose, the technical scheme of the invention is to provide a multidirectional tree grate which comprises a basic frame structure buried in a foundation, wherein the top surface of the basic frame structure is exposed outside, and the multidirectional tree grate is characterized by further comprising a rotating structure with a tree hole in the middle, the outline of the rotating structure is an N-edge shape, N is larger than or equal to 4, the rotating structure is arranged in a rotating space on the top surface of the basic frame structure, the outline of the rotating space is matched with the outline of the rotating structure, and the tree hole of the rotating structure can be circumferentially adjusted in a plane where the top surface of the basic frame structure is located, so that the distance between the edge of the tree hole and the N edges of the rotating structure can be respectively and independently adjusted.

Preferably, the rotating structure comprises M layers of sub rotating structures nested inside and outside, the outlines of the sub rotating structures are all N-sided, M is more than or equal to 2, the M layers of sub rotating structures are sequentially defined as a layer 1 sub rotating structure to a layer M sub rotating structure from outside to inside, and then the tree holes are located in the layer M sub rotating structure, and the centers of the tree holes and the center of the layer M sub rotating structure are separated by a certain distance L>0, the sub-rotating structure of the 1 st layer is arranged on the top surface of the basic frame structure, the sub-rotating structure of the M +1 st layer can be adjusted in N directions along the circumferential direction in the sub-rotating space of the sub-rotating structure of the M th layer, M is 1, … … and M-1, and the center of the sub-rotating space of the sub-rotating structure of the M th layer is separated from the center of the sub-rotating structure of the M th layer by a certain distance L_m，L_m>0。

The eccentricity ratio of the tree holes formed through the structure relative to the whole multi-directional tree grate follows the following rule, if the diameter of the layer 1 sub rotating structure is not changed, the larger the diameter of the tree holes is, the smaller the eccentricity ratio is; if the tree hole diameter is not changed, the larger the diameter of the sub-rotating structure of the 1 st layer is, the larger the eccentricity is.

Preferably, the rotating structure is overlapped in a rotating space on the top surface of the base frame structure; the 1 st layer of sub-rotating structures are lapped in the rotating space on the top surface of the basic frame structure, and the (m + 1) th layer of sub-rotating structures are lapped in the sub-rotating space of the mth layer of sub-rotating structures.

Preferably, the N-polygon is a regular N-polygon.

Preferably, the m-th layer of sub-rotating structure is formed by encircling J sub-rotating sheets, J is larger than or equal to 2, and two adjacent sub-rotating sheets are connected and fixed through a fastener.

The invention also provides another technical scheme that the omnidirectional tree grate comprises a base frame structure buried in a foundation, wherein the top surface of the base frame structure is exposed outside, the omnidirectional tree grate is characterized by further comprising a rotating structure with tree holes in the middle, the outline of the rotating structure is circular, the rotating structure is arranged in a rotating space on the top surface of the base frame structure, the outline of the rotating space is matched with the outline of the rotating structure, the tree holes of the rotating structure can be adjusted in the circumferential direction in the plane of the top surface of the base frame structure, and the distance between the edges of the tree holes and the edges of the rotating structure can be adjusted in the omnidirectional direction.

Preferably, the rotating structure comprises M layers of sub rotating structures which are nested inside and outside, the outlines of the sub rotating structures are circular, M is more than or equal to 2, the M layers of sub rotating structures are sequentially defined as a layer 1 sub rotating structure to a layer M sub rotating structure from outside to inside, and then the tree holes are located in the layer M sub rotating structure, and the centers of the tree holes and the circle center of the layer M sub rotating structure are separated by a certain distance L>0, the sub-rotating structure of the 1 st layer is arranged on the top surface of the basic frame structure, the sub-rotating structure of the (M + 1) th layer can be adjusted in the sub-rotating space of the sub-rotating structure of the M th layer in an omnidirectional way along the circumferential direction, M is 1, … … and M-1, and the circle center of the sub-rotating space of the sub-rotating structure of the M th layer is separated from the circle center of the sub-rotating structure of the M th layer by a certain distance L_m，L_m>0。

The eccentricity ratio of the tree holes formed through the structure relative to the whole omnidirectional tree grate follows the following rule, if the diameter of the layer 1 sub-rotating structure is not changed, the larger the diameter of the tree holes is, the smaller the eccentricity ratio is; if the tree hole diameter is not changed, the larger the diameter of the sub-rotating structure of the 1 st layer is, the larger the eccentricity is.

Preferably, the swivel structure is overlapped in a swivel space of the top surface of the base frame structure.

Preferably, the layer 1 sub-rotation structure is overlapped in the rotation space of the top surface of the base frame structure, and the layer m +1 sub-rotation structure is overlapped in the sub-rotation space of the layer m sub-rotation structure.

The multi-directional tree grate provided by the invention can adjust the positions of tree holes in N directions, and the omni-directional tree grate provided by the invention can adjust the positions of the tree holes in all directions. Therefore, the invention can adjust the distance between the edge of the tree hole and the edge of the corresponding edge of the tree grate according to the specific distance between the greening landscape tree and the edge of the sidewalk, and the tree hole is changed along with different distances under the condition that the whole position of the tree grate is not changed, thereby ensuring that the edges of two sides of all the tree grates of the same row of greening landscape trees are positioned on the same straight line. And when the distance between the greening landscape trees and the edges of the sidewalks is too close, the tree grates can be installed by adjusting the distance between the edges of the tree holes and the edges of the corresponding edges of the tree grates.

Drawings

Fig. 1 is a schematic structural view of an omnidirectional grate disclosed in embodiment 1;

FIG. 2 is a schematic view of the overlapping structure of the omni-directional grate of FIG. 1;

FIG. 3 is a schematic view of the installation of the omni-directional grate of FIG. 1;

FIG. 4 is an enlarged view of a portion of FIG. 3;

FIG. 5 is a schematic view of a multi-directional grate disclosed in example 2;

fig. 6 and 7 are schematic views of different direction adjustment of the multi-directional grate shown in fig. 5.

Detailed Description

The invention will be further illustrated with reference to the following specific examples. It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. Further, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the teaching of the present invention, and such equivalents may fall within the scope of the present invention as defined in the appended claims.

Example 1

The omni-directional tree grate disclosed in this embodiment is shown in fig. 1, and includes a base frame structure 1 and a rotating structure overlapping the base frame structure 1. In this embodiment, the base frame structure 1 is a hollow circular structural member. The hollow part one of the base frame structure 1, in which the swivel structure overlaps, is also circular. In this embodiment, the rotating structure is a 3-layer structure nested inside and outside, and includes an outer ring rotating structure 2, a middle ring rotating structure 3, and an inner ring rotating structure 4. The circular outer ring rotating structure 2 is in lap joint with the base frame structure 1, a circular hollow part II is arranged on the outer ring rotating structure 2, and the hollow part II is eccentrically arranged relative to the circle center of the outer ring rotating structure 2. The middle ring rotating structure 3 is overlapped in the hollow part II of the outer ring rotating structure 2. The middle ring rotating structure 3 is provided with a circular hollow part III, and the hollow part III is eccentrically arranged relative to the center of the middle ring rotating structure 3. The inner ring rotating structure 4 is lapped in the hollow part three of the middle ring rotating structure 3. The inner ring rotating structure 4 is provided with a tree hole 5, and the tree hole 5 is eccentrically arranged relative to the center of the inner ring rotating structure 4.

In this embodiment, the outer ring rotating structure 2, the middle ring rotating structure 3 and the inner ring rotating structure 4 are formed by splicing two sub rotating structures. Taking the outer ring rotating structure 2 as an example, the outer ring rotating structure 2 is formed by splicing a sub rotating structure one 2-1 and a sub rotating structure two 2-2. Two pairs of bolt fixing structures 2-3 are arranged at two butt joints of the first sub-rotating structure 2-1 and the second sub-rotating structure 2-2, two bolt fixing structures 2-3 on the pair of bolt fixing structures 2-3 are respectively fixed on the first sub-rotating structure 2-1 and the second sub-rotating structure 2-2, and two bolts respectively penetrate through the two pairs of bolt fixing structures 2-3 to connect the first sub-rotating structure 2-1 and the second sub-rotating structure 2-2 into a whole. The structures of the middle ring rotating structure 3 and the inner ring rotating structure 4 are the same as the outer ring rotating structure 2, and are not described again here.

The lap joint structure described above is shown in fig. 2, the lap joint structure between the outer ring rotating structure 2 and the base frame structure 1, the lap joint structure between the outer ring rotating structure 2 and the middle ring rotating structure 3, and the lap joint structure between the middle ring rotating structure 3 and the inner ring rotating structure 4 are all the same, taking the lap joint between the outer ring rotating structure 2 and the middle ring rotating structure 3 as an example, the lap joint structure includes a round step 3-1 located at the edge of the middle ring rotating structure 3 and L-shaped steps 2-4 located at the two edges of the hollow part of the outer ring rotating structure 2, and the round step 3-1 is lapped on the L-shaped step 2-4, so that the middle ring rotating structure 3 is lapped in the second hollow part of the outer ring rotating structure 2.

The effect of the omni-directional tree grate installed on the sidewalk according to the present embodiment is shown in fig. 3, and in conjunction with fig. 4, the tree trunk shown in fig. 3 and 4 is not planted in the center of the planting area, but is shifted to one side, and is assumed to be shifted to the right side. The size of the grate used should be adapted to the size of the planting area. In the case shown in fig. 3 and 4, since the trunk is biased to the right, the right side of the planting region is small and the left side is large with the trunk as the center. Since the tree hole of the conventional tree grate is located at the center position, the size of the portion of the tree grate located at the left side of the tree hole is identical to that of the portion located at the right side of the tree hole. The trunk needs to be located in the tree hole, but the right side of the planting area is small and the left side is large, so that the trunk cannot enter the tree hole without processing the tree grate. If a conventional tree grate is used, the part of the tree grate on the left side of the tree hole needs to be cut small, and the tree grate is damaged, so that the trunk can be put into the tree hole of the tree grate. When the omnidirectional tree grate disclosed in the embodiment is adopted, the hollow part two, the hollow part three and the tree holes 5 are eccentrically arranged, so that the trunk can be placed into the tree holes 5 only by rotating the outer ring rotating structure 2, the middle ring rotating structure 3 and the inner ring rotating structure 4 to proper positions and reducing the distance between the right side edge of the rotated tree holes 5 and the right side edge of the outer ring rotating structure 2 to be matched with the length of the right side part of the planting area with the trunk as the center, the omnidirectional tree grate disclosed in the embodiment does not need to be broken, meanwhile, the whole position of the omnidirectional tree grate disclosed in the embodiment can also be fixed at a preset position, and the left side edge and the right side edge of all the omnidirectional tree grates of the same row of greening landscape trees are positioned on the same straight line.

In this embodiment, the eccentricity ratio of the tree holes 5 with respect to the omni-directional tree grate is shown in the following tables 1 and 2, and in the following tables 1 and 2, the inner circle diameter represents the diameter of the tree holes 5, and the outer circle diameter represents the diameter of the outer ring rotating structure 2.

TABLE 1

TABLE 2

From table 1 and table 2 above, it can be seen that:

when the diameter of the outer ring rotating structure 2 is 1200mm and the diameter of the tree hole 5 is between 400mm and 600mm, the eccentricity ratio of the tree hole 5 relative to the omnidirectional tree grate is 33% -50%; when the diameter of the outer ring rotating structure 2 is 1400mm and the diameter of the tree hole 5 is between 400mm and 600mm, the eccentricity ratio of the tree hole 5 relative to the omnidirectional tree grate is 43% -57%.

Example 2

As shown in fig. 5, the multi-directional grate disclosed in this embodiment is different from embodiment 1 in that: the basic frame structure 6, the outer ring rotation structure 7, the middle ring rotation structure 8 and the inner ring rotation structure 9 are all square, so different from the embodiment 1, the difference is that the multi-directional tree grate disclosed in the embodiment can realize the adjustment of 4 directions, that is, the multi-directional tree grate disclosed in the embodiment can realize the independent adjustment of the distance between the edges of the tree hole 10 in the four directions, namely, the edges of the tree hole 10 in the upper, lower, left and right directions and the corresponding edges of the multi-directional tree grate in the four directions. Fig. 6 and 7 schematically illustrate the effect of the multi-directional grate disclosed in this embodiment after two different directional adjustments.

The tree hole 10 in this embodiment is also square, and it should be noted that the tree hole 5 in this embodiment may also be round. Similarly, the tree hole 5 in embodiment 1 may be the square tree hole 10 in this embodiment.

The other structures and operation principles of this embodiment are the same as those of embodiment 1, and are not described herein again.

The multidirectional tree grate and the multidirectional tree grate provided by the invention have the advantages that the modular and standardized design of the components is skillfully utilized, and the hole adjustment requirements of various angles and eccentric positions can be met through the combination and rotation of a plurality of eccentric circles or eccentric polygons by the design principles of combination splicing and rotation. And along with the increase of the tree age, when the trunk length exceeds the radius of the hole of the tree pit, the tree can be dismantled layer by layer from inside to outside, and the tree is convenient to install and maintain.

Claims

1. The utility model provides a multidirectional tree comb, including the foundation frame structure who buries underground in the ground, foundation frame structure's top surface exposes out, a serial communication port, still include the revolution mechanic that there is the tree hole in the middle part, revolution mechanic's profile is the N polygon, N is greater than or equal to 4, revolution mechanic locates the rotation space of foundation frame structure top surface, the profile and revolution mechanic's profile in rotation space suit, revolution mechanic's tree hole can carry out the regulation of N directions along circumference in foundation frame structure top surface place plane, make the distance between the edge of tree hole and the marginal N limit of revolution mechanic independently adjustable respectively.

2. The multi-directional tree grate of claim 1, wherein the rotating structure comprises M layers of sub-rotating structures nested inside and outside, the sub-rotating structures are all N-sided in outline, M is more than or equal to 2, the M layers of sub-rotating structures are sequentially defined from the outer side to the inner side as the sub-rotating structures of the 1 st layer to the sub-rotating structures of the M layers, the tree holes are positioned in the sub-rotating structures of the M layers, and the centers of the tree holes and the center of the sub-rotating structures of the M layers are separated by a certain distance L>0, the sub-rotating structure of the 1 st layer is arranged on the top surface of the basic frame structure, the sub-rotating structure of the M +1 st layer can be adjusted in N directions along the circumferential direction in the sub-rotating space of the sub-rotating structure of the M th layer, M is 1, … … and M-1, and the center of the sub-rotating space of the sub-rotating structure of the M th layer is separated from the center of the sub-rotating structure of the M th layer by a certain distance L_m，L_m>0。

3. A multi-directional grate as claimed in claim 2, wherein said rotating structure is overlapped in a rotating space of a top surface of said base frame structure; the 1 st layer of sub-rotating structures are lapped in the rotating space on the top surface of the basic frame structure, and the (m + 1) th layer of sub-rotating structures are lapped in the sub-rotating space of the mth layer of sub-rotating structures.

4. A multidirectional grate as in claim 2 wherein said N-sided polygon is a regular N-sided polygon.

5. The multi-directional grate of claim 2, wherein the m-th layer of sub-rotating structures are surrounded by J sub-rotating sheets, J is greater than or equal to 2, and two adjacent sub-rotating sheets are connected and fixed by fasteners.

6. The utility model provides an all-round tree comb, including the foundation frame structure who buries underground in the ground, foundation frame structure's top surface exposes out, a serial communication port, still include the revolution mechanic that there is the tree hole in the middle part, revolution mechanic's profile is circular, revolution mechanic locates the rotation space of foundation frame structure top surface, the profile in rotation space suits with revolution mechanic's profile, revolution mechanic's tree hole can carry out the regulation of all-round along circumference in foundation frame structure top surface place plane for the distance between tree hole edge and revolution mechanic's the edge is independent adjustable in all-round.

7. The omnidirectional tree grate of claim 6, wherein the rotating structure comprises M layers of sub-rotating structures nested inside and outside, the sub-rotating structures are all circular in outline, M is more than or equal to 2, the M layers of sub-rotating structures are sequentially defined as a layer 1 sub-rotating structure to a layer M sub-rotating structure from outside to inside, the tree holes are positioned in the layer M sub-rotating structure, and the centers of the tree holes are separated from the center of the layer M sub-rotating structure by a certain distance L>0; the layer 1 sub-rotating structure is arranged on the top surface of the basic frame structure; the M + 1-th layer of sub-rotating structures can be adjusted in the circumferential direction in the sub-rotating space of the M-th layer of sub-rotating structures in an omnidirectional manner, wherein M is 1, … …, and M-1, the circle center of the sub-rotating space of the M-th layer of sub-rotating structures and the circle center of the M-th layer of sub-rotating structuresThe centers of the circles are separated by a certain distance L_m，L_m>0。

8. An omnidirectional grate as recited in claim 7, wherein said rotating structure rides within said rotating space on a top surface of said base frame structure.

9. An omnidirectional grate as recited in claim 8, wherein said layer 1 subspinning structure is overlapped within a rotation space of a top surface of said base frame structure, and said layer m +1 subspinning structure is overlapped within a subspinning space of said layer m subspinning structure.

10. The omnidirectional tree grate of claim 7, wherein the m-th layer of sub-rotating structures is formed by encircling J sub-rotating sheets, J is larger than or equal to 2, and two adjacent sub-rotating sheets are connected and fixed through fasteners.