CN215441844U - Stability performance reinforced diamond grid - Google Patents

Abstract

The utility model relates to a diamond-shaped grid with enhanced stability, which comprises a grid main body, wherein a plurality of diamond-shaped hole units, a first node, a second node, a third node and a fourth node are uniformly arranged on the grid main body, all the diamond-shaped hole units are sequentially spliced together, each diamond-shaped hole unit comprises a main diamond-shaped hole and side diamond-shaped holes, eight side diamond-shaped holes are arranged on the periphery of the main diamond-shaped hole, two side diamond-shaped holes are arranged at each vertex of the main diamond-shaped hole, and cross-shaped ribs are arranged in the four side diamond-shaped holes. The utility model has the advantages that: the diamond-shaped wire mesh has the characteristics of diamond-shaped wire mesh products, and meanwhile, the diamond-shaped wire mesh has high production efficiency, low gram weight per square meter, ageing resistance, acid and alkali corrosion resistance, high flexibility, good toughness, high tensile strength, strong impact resistance and good deformation recovery performance.

Description

Stability performance reinforced diamond grid

Technical Field

The utility model relates to a diamond-shaped grating with enhanced stability, and relates to the field of gratings.

Background

The geogrid is a reinforced material, plays a role in reinforcing and strengthening in soil engineering, and is designed into a grid-shaped structure so as to not completely isolate a soil layer, so that soil and stones are directly occluded, and the integrity and the stress bearing strength of the soil body are improved.

The existing grating cannot provide enough bearing capacity due to unreasonable arrangement of the ribs and different use scenes such as a road surface, a slope surface, soil bodies of the road surface and the slope surface and desertification conditions of the road surface and the slope surface. Therefore, the stability performance is significantly unsatisfactory in the longitudinal and transverse directions and in other directions than the longitudinal and transverse directions, and deformation and failure are likely to occur.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides a diamond-shaped grating with enhanced stability, and the technical scheme of the utility model is as follows:

a stability performance reinforced rhombic grid comprises a grid main body, wherein a plurality of rhombic hole units, a first node, a second node, a third node and a fourth node are uniformly arranged on the grid main body, all rhombic hole units are sequentially spliced together, each rhombic hole unit comprises a main rhombic hole and side rhombic holes, eight side rhombic holes are arranged on the periphery of the main rhombic hole, two side rhombic holes are arranged at each vertex of the main rhombic hole, cross-shaped ribs are arranged in the four side rhombic holes, X-shaped ribs and in-line ribs are arranged in the main rhombic hole, and in-line ribs are respectively arranged at the upper part and the lower part of each X-shaped rib; the first node is arranged in the main diamond-shaped hole, the second node is arranged at the vertex of the main diamond-shaped hole, the third node is arranged on the rib at the main diamond-shaped hole, and the fourth node is arranged in the side diamond-shaped hole.

The first junction is formed by intersecting X-shaped ribs arranged in the main diamond-shaped hole.

The second node gathers six ribs, and the six ribs are formed by intersecting four ribs of two adjacent main rhombic holes and vertical ribs of two cross-shaped ribs.

The third node gathers six ribs, and is formed by intersecting one of the X-shaped ribs, the straight ribs, the ribs of the main rhombic hole, the ribs of the side rhombic holes and the transverse ribs of the cross ribs.

The fourth node converges four ribs and is formed by intersecting cross-shaped ribs in the side diamond-shaped holes.

The utility model has the advantages that:

(1) the steel wire welded rhombic net and the steel wire woven rhombic net replace the traditional steel plate rhombic net, and when the product has the characteristics of a rhombic net product (attractive appearance, strong compatibility of rhombic holes and other materials, high oblique tensile strength, easiness in winding and flattening, convenience in transportation and convenience in lap joint construction), the production efficiency is high, the gram weight per square meter is low (the production cost advantage), the anti-aging performance is high, the acid and alkali corrosion resistance is high (long service life), the flexibility is high, the toughness is good (the transportation cost is lower), the tensile strength is high, the impact resistance is strong, and the deformation recovery performance is good.

(2) The diamond-shaped structure is characterized in that the defect that the diamond-shaped structure is easy to elastically deform is caused, and the longitudinal ribs and the transverse ribs (the cross ribs and the straight ribs) form a frame structure around the diamond-shaped structure, so that the longitudinal and transverse deformation resistance of the diamond-shaped structure is improved, and the stability of the diamond-shaped structure is obviously improved.

(3) The tensile strength (bearing capacity) in the longitudinal direction, the transverse direction and the oblique direction is effectively guaranteed.

(4) The arrangement of multi-directional ribs and the formation of various hole-shaped structures obviously improve the surface friction coefficient of the product, and are beneficial to the exertion of the performance of the product such as reinforcement, protection and the like

The utility model has the following obvious advantages: the tensile strength is high; the gram weight per square meter is low; the grids are uniform; corrosion resistance and ageing resistance; the surface is smooth; the elasticity is high; the yield is high. Can completely replace steel plate nets and geotechnical nets, and has great popularization space in the aspects of aquaculture, poultry cultivation, safety isolation and the like.

Drawings

Fig. 1 is a schematic view of the main structure of the present invention.

Detailed Description

The utility model will be further described with reference to specific embodiments, and the advantages and features of the utility model will become apparent as the description proceeds. These examples are illustrative only and do not limit the scope of the present invention in any way. 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 utility model, and that such changes and modifications may be made without departing from the spirit and scope of the utility model.

Referring to fig. 1, the utility model relates to a diamond-shaped grid with enhanced stability, which comprises a grid main body, wherein a plurality of diamond-shaped hole units, a first node 1, a second node 2, a third node 3 and a fourth node 4 are uniformly arranged on the grid main body, all the diamond-shaped hole units are spliced together in sequence, each diamond-shaped hole unit comprises a main diamond-shaped hole 6 and a side diamond-shaped hole 7, eight side diamond holes 7 are arranged on the periphery of the main diamond hole 6, two side diamond holes 7 are arranged at each vertex of the main diamond hole 6, cross-shaped ribs (which divide the side diamond holes into four triangular cavities 5) are arranged in the four side diamond holes 7, X-shaped ribs and in-line ribs 8 are arranged in the main diamond holes 6, and the in-line ribs 8 are respectively arranged at the upper parts and the lower parts of the X-shaped ribs; the first node 1 is arranged inside the main diamond hole 6, the second node 2 is arranged at the vertex of the main diamond hole 6, the third node 3 is arranged on a rib at the main diamond hole 6, and the fourth node 4 is arranged in the side diamond hole 7.

Four ribs are converged at the first junction 1, and the first junction is formed by intersecting X-shaped ribs arranged in the main diamond-shaped hole.

The second node 2 converges six ribs, and the six ribs are formed by intersecting four ribs of two adjacent main rhombic holes and vertical ribs of two crossed ribs.

The third node 3 converges six ribs, and is formed by intersecting one of the X-shaped ribs, the straight rib, the rib of the main rhombic hole, the rib of the side rhombic hole and the transverse rib of the cross rib.

The fourth node 4 gathers four ribs and is formed by intersecting cross-shaped ribs in the side diamond-shaped holes.

The working principle of the utility model is as follows: by arranging the main diamond-shaped holes, the side diamond-shaped holes, the first nodes, the second nodes, the third nodes and the fourth nodes and the longitudinal ribs and the transverse ribs, a frame structure is formed around the diamond-shaped structure, the longitudinal deformation resistance and the transverse deformation resistance of the diamond are improved, the stability of the diamond is obviously improved, and the longitudinal tensile strength, the transverse tensile strength and the oblique tensile strength (bearing capacity) are effectively guaranteed.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (5)

1. A stability performance reinforced rhombic grid comprises a grid main body and is characterized in that a plurality of rhombic hole units, a first node, a second node, a third node and a fourth node are uniformly arranged on the grid main body, all rhombic hole units are sequentially spliced together, each rhombic hole unit comprises a main rhombic hole and side rhombic holes, eight side rhombic holes are arranged on the periphery of the main rhombic hole, two side rhombic holes are arranged at each vertex of the main rhombic hole, cross-shaped ribs are arranged in the four side rhombic holes, X-shaped ribs and straight-line-shaped ribs are arranged in the main rhombic hole, and the upper portion and the lower portion of each X-shaped rib are respectively provided with a straight-line-shaped rib; the first node is arranged in the main diamond-shaped hole, the second node is arranged at the vertex of the main diamond-shaped hole, the third node is arranged on the rib at the main diamond-shaped hole, and the fourth node is arranged in the side diamond-shaped hole.

2. A diamond shaped lattice with enhanced stability as set forth in claim 1 wherein said first junction is formed by intersecting X-shaped ribs disposed within the main diamond shaped openings.

3. The diamond grid with enhanced stability of claim 1, wherein six ribs are converged at the second node, and the six ribs are formed by intersecting four ribs of two adjacent main diamond holes and vertical ribs of two cross-shaped ribs.

4. The diamond grid with enhanced stability as claimed in claim 1, wherein the third node is formed by intersecting one of the X-shaped ribs, the in-line ribs, the main diamond-shaped ribs, the side diamond-shaped ribs and the cross ribs with six converging ribs.

5. The diamond grid according to claim 1, wherein said fourth node has four ribs formed by intersecting cross-shaped ribs located within said diamond-shaped openings.

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