CN110583283A

CN110583283A - Root system separator

Info

Publication number: CN110583283A
Application number: CN201910840913.7A
Authority: CN
Inventors: 聂呈荣; 刘颖圣; 段松坡; 田庆文; 孙睿昕
Original assignee: Foshan University
Current assignee: Foshan University
Priority date: 2019-09-06
Filing date: 2019-09-06
Publication date: 2019-12-20
Anticipated expiration: 2039-09-06
Also published as: CN110583283B

Abstract

The invention discloses a root system separator, which comprises an upper frame, a first underframe and a second underframe which are arranged at intervals up and down, wherein the upper frame and the first underframe are fixed through a first supporting component, the first underframe and the second underframe are arranged through a second supporting component, the first supporting component and the second supporting component are symmetrically arranged in a mirror structure, the first supporting component comprises four first vertical rods, two first side supporting components and four first middle supporting components, thereby forming a frame structure with a plurality of space triangles by assembling, bearing external stress from all angles and improving bearing capacity, the tree root can extend to the periphery of the root system separator after passing through the grid net from top to bottom, thereby prevent that the root from upwards growing and break through the soil layer and destroy the road surface to reduced the quantity of first montant, also strived for bigger activity space for the root system growth when improving structural stability.

Description

Root system separator

Technical Field

The invention relates to the field of urban greening planting, in particular to a root separator.

Background

The urban green land garden plant configuration is to reasonably configure various plants in a garden according to the requirements of garden layout and the inherent ecological habits, ornamental characteristics and the like of the plants to exert the ecological function and the ornamental function of the plants in a combined form to the maximum extent, and finally bring beautiful and healthy enjoyment to people. In the process of building urban garden greenbelts, the quality of plant configuration is one of the most intuitive and obvious factors for evaluating the quality of urban greenbelts. Often can meet the tree root and upwards grow and break through the phenomenon that the soil layer destroyed the road surface in city greenery patches gardens, can influence the normal planning construction of city gardens like this, hinder people's normal trip even, prevent the tree root to upwards grow and break through the soil layer and destroy the road surface through the root system separator now, but current root system separator is in order to improve the ability of accepting external stress, vertical support column figure is more, lead to current root system separator to remain 93% filling soil space at most, the free growth space of root system in underground soil is few, and then be unfavorable for the planting of the intensive plant of root system.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the root system separator is provided, and a larger moving space is provided for root system growth while the structural stability is improved.

The solution of the invention for solving the technical problem is as follows:

a root system separator comprises an upper frame and two bottom frames which are arranged at an upper interval and a lower interval, wherein the upper frame comprises six top frames which are rectangular, the top frames are horizontally arranged, a grid net is arranged in the top frames, the six top frames are averagely divided into three groups which are arranged side by side in the front and the rear, each group comprises two top frames which are arranged side by side in the left and the right, every two adjacent top frames are connected with each other to form the rectangular top frame, the bottom frames comprise six bottom frames which correspond to the shape and the size of the top frames, the positions of the six bottom frames correspond to the positions of the six top frames one by one, the two bottom frames are divided into a first bottom frame and a second bottom frame which are arranged at an upper interval and a lower interval, supporting assemblies are arranged between the upper frame and the first bottom frame and between the first bottom frame, and a second supporting assembly arranged between the first bottom frame and the second bottom frame, the second supporting component and the first supporting component are symmetrically arranged in a mirror structure mode by the horizontal plane where the first underframe is located, the first supporting component comprises four first vertical rods which are vertically arranged, two first side supporting components and four first middle supporting components, the four first vertical rods are respectively arranged between the four corners of the top frame and the first underframe, the two first side supporting components are bilaterally symmetrically arranged on the left side and the right side between the top frame and the first underframe, the first side supporting component comprises three first side inclined rods which are respectively obliquely arranged between each group of top frames and the underframe, the head and the tail of the three first side inclined rods are sequentially connected to form the first side supporting components of a zigzag structure, the two ends of the first side supporting components are respectively connected with the end parts of the two first vertical rods, and the joint of the two adjacent first side inclined rods is fixed between the two adjacent groups of top frames, the junction of two adjacent first side down tube is fixed in between two adjacent sets of underframe in addition, and four first well supporting member are interval setting around being between two first supporting member, and wherein two first well supporting member set up front side and rear side between roof-rack and first underframe respectively, and two other first well supporting member set up respectively between two adjacent sets of roof-rack and two adjacent sets of underframe, first well supporting member include two first well down tubes, two first well down tubes are the slope respectively and set up between every group roof-rack and the underframe, two first well down tubes end to end connection form the first well supporting member of zigzag structure, the junction between two first well down tubes is fixed in between two underframe of every group, the both ends of first well supporting member are fixed in the bottom of roof-rack.

As a further improvement of the above scheme, two ends of two first middle support members located at the front side and the rear side between the top frame and the first bottom frame are respectively fixed at the upper ends of the four first vertical rods, and two ends of the other two first middle support members are fixed between the two adjacent groups of top frames.

As a further improvement of the above scheme, be connected with first two-way connecting piece between two adjacent first side down tube, be connected with between two first well down tube first two-way connecting piece, wherein the upper end of two first montants that are in the front side between roof-rack and the first chassis is connected with three-way connecting piece, the upper end of first montant pass through three-way connecting piece and be connected with corresponding first well down tube and first side down tube respectively, the both ends of two first montants that are in the front side between roof-rack and the first chassis in addition are connected with second two-way connecting piece, first montant pass through second two-way connecting piece and be connected with corresponding first side down tube and first well down tube respectively.

As a further improvement of the above scheme, two cross-connected stabilizer bars are arranged in the bottom frame, and two ends of each stabilizer bar are respectively fixedly connected with two opposite angles of the bottom frame.

As a further improvement of the above scheme, the bottom frame is further provided with first lugs connected to the outer edges of two adjacent frames, the first lugs extend outward, the first lugs are provided with first connection holes, the bottom frame is provided with first grooves on the top surfaces of the two adjacent frames, the first grooves correspond to the first lugs in shape, size and position, the bottom surfaces of the first grooves are provided with first connection screw holes corresponding to the first connection holes, and first fixing screws are connected between the first connection screw holes and the first connection holes.

As a further improvement of the above scheme, the first ear plates are provided in plurality, the first grooves are provided in plurality, and the plurality of first grooves correspond to the plurality of first ear plates one to one.

As a further improvement of the above scheme, the top frame is provided with second lug pieces connected to the outer edges of two adjacent frames, the second lug pieces extend outwards, second connection holes are formed in the second lug pieces, second grooves are formed in the top surfaces of the two adjacent frames of the top frame, the second grooves correspond to the second lug pieces in shape, size and position, second connection screw holes corresponding to the second connection holes are formed in the bottom surfaces of the second grooves, and second fixing screws are connected between the second connection screw holes and the second connection holes.

As a further improvement of the above scheme, the second ear plates are provided in plurality, the second grooves are provided in plurality, and the plurality of second grooves correspond to the plurality of second ear plates one to one.

The invention has the beneficial effects that: when in use, the root separator is transversely paved under the ground surface, the top frame, the first bottom frame and the second bottom frame are arranged at intervals up and down, the top frame and the first bottom frame are fixed through the first supporting component, the first bottom frame and the second bottom frame are arranged through the second supporting component, the first supporting component and the second supporting component are symmetrically arranged in a mirror structure manner, the first supporting component comprises four first vertical rods, two first side supporting components and four first middle supporting components, the four first vertical rods are respectively arranged between the top frame and four corners of the first bottom frame, the first side supporting components are sequentially connected through the heads and the tails of the three first side oblique rods to form a folded line structure, the two first side supporting components are arranged on the left side and the right side between the top frame and the first bottom frame in a left-right symmetry manner, the four first middle supporting components are arranged between the two first supporting components at intervals front and back, the first middle supporting components are connected through the heads and the tails of the two first middle oblique rods to form a folded line structure, thereby form the frame construction that has a plurality of space triangle-shaped, can bear the external stress that comes from each angle, improve the ability that bears, the root from last down pass can toward extending around the root system separator behind the grid net to prevent the root upwards to grow and break through the soil layer and destroy the road surface, and reduced the quantity of first montant, also strived for bigger activity space for the root system growth when improving structural stability.

The invention is used for greening cities.

Drawings

In order to more clearly illustrate the technical solution in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below. It is clear that the described figures are only some embodiments of the invention, not all embodiments, and that a person skilled in the art can also derive other designs and figures from them without inventive effort.

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present invention;

FIG. 2 is a right side view of an embodiment of the present invention;

FIG. 3 is a front view of an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of a top frame according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a bottom frame according to an embodiment of the present invention.

Detailed Description

The conception, the specific structure, and the technical effects produced by the present invention will be clearly and completely described below in conjunction with the embodiments and the accompanying drawings to fully understand the objects, the features, and the effects of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and those skilled in the art can obtain other embodiments without inventive effort based on the embodiments of the present invention, and all embodiments are within the protection scope of the present invention. In addition, all the coupling/connection relationships mentioned herein do not mean that the components are directly connected, but mean that a better coupling structure can be formed by adding or reducing coupling accessories according to specific implementation conditions. The technical characteristics of the invention can be combined interactively on the premise of not conflicting with each other.

Referring to fig. 1 to 5, this is an embodiment of the invention, specifically:

the utility model provides a root system separator, includes roof-rack 100 and two chassis that upper and lower interval set up, roof-rack 100 include six roof frames 110 that are the rectangle, roof frame 110 is the level setting, install grid net 120 in the roof frame 110, six roof frames 110 averagely divide into three groups that set up side by side around being, every group is including being two roof frames 110 side by side about being, every adjacent two roof frame 110 interconnect forms roof-rack 100 of rectangle, the chassis include six underframe 400 that correspond with roof frame 110 shape size, the position of six underframe 400 and the position one-to-one of six roof frames 110, two chassis divide into the first chassis 200 and the second chassis 300 that are upper and lower interval and set up roof-rack 100 and first chassis 200 between, all be equipped with supporting component between first chassis 200 and the second chassis 300, supporting component divide into first supporting component 500, the setting between roof-rack 100 and first chassis 200, The second supporting component 600 is arranged between the first chassis 200 and the second chassis 300, the second supporting component 600 and the first supporting component 500 are symmetrically arranged in a mirror structure with the horizontal plane of the first chassis 200, the first supporting component 500 comprises four first vertical rods 510 which are vertically arranged, two first side supporting members and four first middle supporting members, the four first vertical rods 510 are respectively arranged between the four corners of the top frame 100 and the first chassis 200, the two first side supporting members are bilaterally symmetrically arranged on the left side and the right side between the top frame 100 and the first chassis 200, the first side supporting members comprise three first side inclined rods 520, the three first side inclined rods 520 are respectively obliquely arranged between each group of top frame 110 and the bottom frame 400, the head and the tail of the three first side inclined rods 520 are sequentially connected to form the first side supporting members of a zigzag structure, the two ends of the first side supporting members are respectively connected with the end parts of the two first vertical rods 510, wherein the joints of two adjacent first side diagonal rods 520 are fixed between two adjacent groups of top frames 110, the joints of two adjacent first side diagonal rods 520 are fixed between two adjacent groups of bottom frames 400, four first middle support members are arranged between two first support members at intervals in the front-back direction, wherein two first middle support members are respectively arranged at the front side and the rear side between the top frame 100 and the first bottom frame 200, the other two first middle support members are respectively arranged between two adjacent groups of top frames 110 and two adjacent groups of bottom frames 400, the first middle support members comprise two first middle diagonal rods 530, the two first middle diagonal rods 530 are respectively arranged between each group of top frames 110 and the bottom frames 400 in an inclined manner, the two first middle diagonal rods 530 are connected end to form a first middle support member of a zigzag structure, the joints between the two first middle diagonal rods 530 are fixed between two bottom frames 400, both ends of the first middle support member are fixed to the bottom of the upper frame 100. When in use, the root system separator is transversely paved under the ground surface, the top frame 100, the first underframe 200 and the second underframe 300 are arranged at intervals up and down, the top frame 100 and the first underframe 200 are fixed through the first support component 500, the first underframe 200 and the second underframe 300 are arranged through the second support component 600, the first support component 500 and the second support component 600 are symmetrically arranged in a mirror structure, the first support component 500 comprises four first vertical rods 510, two first side support members and four first middle support members, the four first vertical rods 510 are respectively arranged between the top frame 100 and the four corners of the first underframe 200, the first side support members are sequentially connected through the heads and the tails of the three first side inclined rods 520 to form a folded line structure, the two first side support members are arranged at the left side and the right side between the top frame 100 and the first underframe 200 in a bilateral symmetry manner, the four first middle support members are arranged between the two first support members at intervals front and back, support member forms broken line structure through two first well down tube 530 end-to-end connection in the first to form the frame construction that has a plurality of space triangles, can bear the external stress who comes from each angle, improve the ability that bears, the root can be followed and down extended around the root system separator after passing grid net 120, thereby prevent that the root upwards grows and break through the soil layer and destroy the road surface, and reduced the quantity of first montant 510, also strived for bigger activity space for the root system growth when improving structural stability.

Further, as a preferred embodiment, two first middle support members located at the front side and the rear side between the top frame 100 and the first bottom frame 200 have both ends fixed to the upper ends of the four first vertical bars 510, respectively, and two other first middle support members have both ends fixed between two adjacent sets of top frames 110. This may increase the load bearing capacity of the front and rear sides of the root divider, with the middle support member on the first support assembly 500 interacting with the middle support member on the second support assembly 600.

Further as a preferred embodiment, a first two-way connector 540 is connected between two adjacent first side diagonal rods 520, the first two-way connector 540 is connected between two first middle diagonal rods 530, wherein the upper ends of two first vertical rods 510 located at the front side between the top frame 100 and the first bottom frame 200 are connected with a three-way connector 511, the upper ends of the first vertical rods 510 are respectively connected with the corresponding first middle diagonal rods 530 and the first side diagonal rods 520 through the three-way connector 511, the two ends of the two first vertical rods 510 located at the front side between the top frame 100 and the first bottom frame 200 are connected with a second two-way connector 512, and the first vertical rods 510 are respectively connected with the corresponding first side diagonal rods 520 and the first middle diagonal rods 530 through the second two-way connectors 512. This can improve the speed of equipment on the one hand, easy to assemble, and on the other hand also improves the fastness of the support assembly and the roof-rack 100, chassis connection.

Further, in a preferred embodiment, two stabilizer bars 410 are provided in the bottom frame 400 to be cross-connected, and both ends of the stabilizer bars 410 are fixedly connected to both opposite corners of the bottom frame 400. The two stabilizer bars 410 may improve stability of the bottom frame 400.

Further as a preferred embodiment, the bottom frame 400 is connected to first tabs 420 at outer edges of two adjacent frames, the first tabs 420 extend outward, the first tabs 420 are provided with first connection holes 430, the bottom frame 400 is provided with first grooves 440 at top surfaces of two adjacent frames, the first grooves 440 correspond to the first tabs 420 in shape, size and position, the bottom surface of the first grooves 440 is provided with first connection screw holes 450 corresponding to the first connection holes 430, and first fixing screws are connected between the first connection screw holes 450 and the first connection holes 430. When the bottom frames are assembled, two adjacent bottom frames 400 may be fixed to each other by first fixing screws, first, the first tab 420 of one of the bottom frames 400 is abutted to the first groove 440 of the other bottom frame 400, so that the first connection screw hole 450 corresponds to the first connection hole 430, and the first fixing screws penetrate through the first connection hole 430 and then are connected to the first connection screw hole 450, thereby fixing the bottom frame 400 and the bottom frame 400.

Further, in a preferred embodiment, the first tabs 420 are provided in plurality, the first grooves 440 are provided in plurality, and the first grooves 440 correspond to the first tabs 420 in a one-to-one manner. A plurality of first fixing screws are adopted for connection and fixation according to requirements.

Further as a preferred embodiment, the outer edges of two adjacent frames of the top frame 110 are connected with second tabs 130, the second tabs 130 extend outward, the second tabs 130 are provided with second connection holes 140, the top surfaces of the other two adjacent frames of the top frame 110 are provided with second grooves 150, the second grooves 150 correspond to the second tabs 130 in shape, size and position, the bottom surfaces of the second grooves 150 are provided with second connection screw holes 160 corresponding to the second connection holes 140, and second fixing screws are connected between the second connection screw holes 160 and the second connection holes 140. The adjacent top frames 110 may also be connected and fixed by second fixing screws.

Further, in a preferred embodiment, a plurality of second tabs 130 are provided, a plurality of second grooves 150 are provided, and the plurality of second grooves 150 correspond to the plurality of second tabs 130 one by one.

While the preferred embodiments of the present invention have been illustrated and described, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims

1. A root system separator, comprising: including roof-rack (100) and two chassis that the interval set up from top to bottom, roof-rack (100) including six roof frames (110) that are the rectangle, roof frame (110) are the level setting, install grid net (120) in roof frame (110), six roof frames (110) average divide into the three groups that set up side by side around being, every group is including being two roof frames (110) side by side about being, every two adjacent roof frames (110) interconnect forms roof-rack (100) of rectangle, the chassis include six underframe (400) that correspond with roof frame (110) shape size, the position of six underframe (400) and the position one-to-one of six roof frames (110), two chassis divide into first chassis (200) and second chassis (300) that are interval setting from top to bottom top roof-rack (100) and first chassis (200) between, all be equipped with supporting component between first chassis (200) and second chassis (300), the supporting component comprises a first supporting component (500) arranged between a top frame (100) and a first bottom frame (200) and a second supporting component (600) arranged between the first bottom frame (200) and a second bottom frame (300), the second supporting component (600) and the first supporting component (500) are symmetrically arranged in a mirror structure mode by using the horizontal plane where the first bottom frame (200) is located, the first supporting component (500) comprises four first vertical rods (510) which are vertically arranged, two first side supporting components and four first middle supporting components, the four first vertical rods (510) are respectively arranged between the four corners of the top frame (100) and the first bottom frame (200), the two first side supporting components are symmetrically arranged on the left side and the right side between the top frame (100) and the first bottom frame (200), the first side supporting components comprise three first side inclined rods (520), the three first side inclined rods (520) are respectively and obliquely arranged between each group of top frames (110) and the bottom frames (400), the head and the tail of the three first side inclined rods (520) are sequentially connected to form first side supporting members of a zigzag structure, two ends of each first side supporting member are respectively connected with the end parts of two first vertical rods (510), the joint of every two adjacent first side inclined rods (520) is fixed between every two adjacent groups of top frames (110), the joint of every two adjacent first side inclined rods (520) is fixed between every two adjacent groups of bottom frames (400), four first middle supporting members are arranged between every two first supporting members at intervals in the front-back direction, the two first middle supporting members are respectively arranged at the front side and the rear side between the top frames (100) and the first bottom frames (200), the other two first middle supporting members are respectively arranged between every two adjacent groups of top frames (110) and the adjacent bottom frames (400), the first middle supporting member comprises two first middle inclined rods (530), the two first middle inclined rods (530) are respectively obliquely arranged between each group of top frames (110) and bottom frames (400), the two first middle inclined rods (530) are connected end to form a first middle supporting member of a broken line structure, the connection position between the two first middle inclined rods (530) is fixed between the two bottom frames (400) of each group, and two ends of the first middle supporting member are fixed at the bottom of the top frame (100).

2. A root separator as claimed in claim 1, wherein: the two ends of the two first middle supporting components positioned at the front side and the rear side between the top frame (100) and the first bottom frame (200) are respectively fixed at the upper ends of the four first vertical rods (510), and the two ends of the other two first middle supporting components are fixed between the two adjacent groups of top frames (110).

3. A root separator as claimed in claim 2, wherein: be connected with first two-way connecting piece (540) between two adjacent first side down tube (520), be connected with between two first well down tube (530) first two-way connecting piece (540), wherein the upper end that is in two first montants (510) of the front side between roof-rack (100) and first chassis (200) is connected with three-way connecting piece (511), the upper end of first montant (510) pass through three-way connecting piece (511) and be connected with corresponding first well down tube (530) and first side down tube (520) respectively, the both ends that are in two first montants (510) of the front side between roof-rack (100) and first chassis (200) in addition are connected with second two-way connecting piece (512), first montant (510) pass through second two-way connecting piece (512) and be connected with corresponding first side down tube (520) and first well down tube (530) respectively.

4. A root separator as claimed in claim 1, wherein: two cross-connected stabilizer bars (410) are arranged in the bottom frame (400), and two ends of each stabilizer bar (410) are respectively fixedly connected with two opposite angles of the bottom frame (400).

5. A root separator as claimed in claim 1, wherein: the outer edge of two adjacent frames of the bottom frame (400) is connected with a first lug (420), the first lug (420) extends outwards, a first connection hole (430) is formed in the first lug (420), a first groove (440) is formed in the top surface of the other two adjacent frames of the bottom frame (400), the first groove (440) corresponds to the first lug (420) in shape, size and position, a first connection screw hole (450) corresponding to the first connection hole (430) is formed in the bottom surface of the first groove (440), and a first fixing screw is connected between the first connection screw hole (450) and the first connection hole (430).

6. A root separator according to claim 5, wherein: the first lug plates (420) are provided with a plurality of grooves, the first grooves (440) are provided with a plurality of grooves, and the first grooves (440) correspond to the first lug plates (420) in a one-to-one mode.

7. A root separator as claimed in claim 1, wherein: the outer edges of two adjacent frames of the top frame (110) are connected with second lug plates (130), the second lug plates (130) extend outwards, second connecting holes (140) are formed in the second lug plates (130), second grooves (150) are formed in the top surfaces of the two adjacent frames of the top frame (110), the second grooves (150) correspond to the second lug plates (130) in shape, size and position, second connecting screw holes (160) corresponding to the second connecting holes (140) are formed in the bottom surfaces of the second grooves (150), and second fixing screws are connected between the second connecting screw holes (160) and the second connecting holes (140).

8. A root separator according to claim 7, wherein: the second lug plates (130) are provided with a plurality of second grooves (150), and the plurality of second grooves (150) correspond to the plurality of second lug plates (130) in a one-to-one mode.