CN110700582A - Combined steel net cage with rib net - Google Patents

Abstract

The invention discloses a ribbed net combined steel net cage, which comprises a ribbed net lower cover component, a ribbed net upper cover component and at least one inner supporting component, wherein the ribbed net upper cover component is fastened and fixed on the ribbed net lower cover component, the inner supporting component is abutted between the ribbed net lower cover component and the ribbed net upper cover component, the ribbed net lower cover component comprises a lower net plate and supporting parts which are symmetrically arranged on two sides of the lower net plate and are integrally bent with the lower net plate, the supporting parts are of an L-shaped structure, the ribbed net upper cover component comprises an upper net plate and supporting plates which are symmetrically arranged on two sides of the upper net plate and are integrally bent with the upper net plate, the upper net plate is relatively and fixedly arranged on the supporting parts, the supporting plates cover two ends of the supporting parts, and the inner supporting components are rectangular net plates which are connected end. The invention realizes the characteristics of simple assembly of the steel net cage and strong bearing force of the top and the peripheral side surfaces.

Description

Combined steel net cage with rib net

Technical Field

The invention belongs to the technical field of building components, and particularly relates to a combined steel net cage with a rib net.

Background

In the construction and pouring process of the hollow concrete building component in the prior art, a forming die is mainly manufactured to form an inner die cavity, and a steel bar structure is arranged for improving strength. Patent No. CN201620513755.6, a split mounting type steel net box filler, specifically discloses that the filler includes an upper member, a lower member, inner supporting members, and side reinforcing members, wherein the upper member and the lower member are made of strip-shaped ribbed expanded nets with a steel plate thickness less than 1.0mm, each ribbed expanded net has 2 bending lines, the ribbed expanded nets are divided into 1 panel and 2 side panels by the bending lines, both ends of the ribbed expanded nets are respectively bent 90 degrees in the same direction along the bending lines, a U-shaped structure upper member and a U-shaped structure lower member with 3 faces and 2 sides are formed, at least 1 inner supporting member is installed in the upper member and the lower member, and the upper member and the lower member are buckled together.

Support piece in the above-mentioned current pin-connected panel steel mesh box obturator structure contains, all is provided with the mutual supporting role when limit reinforcement is in order to regard as the butt joint on upper portion component and the lower part component, wholly builds different processing materials such as need select panel, muscle net, electric welding wire net, and the installation of interior support piece and limit reinforcement is made and is leaded to assembling complicacy, and the consumptive material is great, and the side atress is relatively poor, easily leads to the deformation problem.

Disclosure of Invention

The invention aims to solve the technical problems and provides a combined steel net cage with a rib net, so that the steel net cage is simple and easy to assemble and has the characteristics of strong bearing force on the top and the peripheral side surfaces. In order to achieve the purpose, the technical scheme of the invention is as follows:

there is muscle net combination formula steel net case, be fixed in including muscle net lower cover subassembly and lock have the muscle net upper cover subassembly on having the muscle net lower cover subassembly, still include the butt in there is muscle net lower cover subassembly and have at least one internal stay spare between the muscle net upper cover subassembly, there is muscle net lower cover subassembly including lower otter board and symmetry locate down the otter board both sides and rather than the fashioned supporting part of buckling as an organic whole, and the supporting part is L type structure, there is muscle net upper cover subassembly to include that otter board and symmetry locate the otter board both sides and rather than the fashioned backup pad of buckling as an organic whole, and the relative laminating of otter board is put up on the supporting part, and the backup pad covers the both ends of supporting part, the internal stay spare encloses to close for the otter board end to end connection of.

Specifically, a closed cavity body is formed between the ribbed net lower cover component and the ribbed net upper cover component, and the cavity body is of a square structure.

Specifically, the upper screen plate is perpendicular to the support plate.

Specifically, the height of the supporting plate is set corresponding to the height of the supporting part.

Specifically, the length of the upper net plate is set corresponding to the length of the lower net plate.

Specifically, there are all to be equipped with the V type strengthening rib that a plurality of equidistance intervals set up on muscle net upper cover subassembly and the muscle net lower cover subassembly.

Specifically, the V-shaped reinforcing ribs protrude towards the periphery of the hollow cavity body.

Specifically, the V-shaped reinforcing ribs of the ribbed net upper cover component and the V-shaped reinforcing ribs of the ribbed net lower cover component are vertically overlapped relatively.

Specifically, the internal supporting piece is arranged at the central position of the hollow cavity body or the internal supporting pieces are uniformly distributed in the hollow cavity body.

In particular, the inner support member includes, but is not limited to, a ribbed mesh structure, a non-ribbed mesh structure, or a necked mesh structure.

Compared with the prior art, the combined steel net cage with the rib net has the beneficial effects that:

the ribbed net upper cover assembly and the ribbed net lower cover assembly which are integrally bent and formed are arranged, so that the transportation before assembly is facilitated, and the site construction is rapid and accurate; the supporting part is matched with the rib net upper cover component, and the inner supporting part supports against the upper net plate and the lower net plate, so that the whole periphery is uniformly stressed, the whole bearing is more scientific and reasonable, and the problem of excessive deformation of the supporting plate is avoided; the fixed binding wires are adopted for binding, the speed block is assembled, and the field simple operation is realized; the fishbone net structure can ensure good hollow rate in the pouring process, and the forming is quick and effective.

Drawings

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

FIG. 2 is a schematic view of a lower mesh plate forming process according to the present embodiment;

FIG. 3 is a schematic view of a screen-up forming process according to the present embodiment;

FIG. 4 is a schematic partial cross-sectional view of the present embodiment;

FIG. 5 is an enlarged partial schematic view of FIG. 4;

FIG. 6 is a schematic view of the inner support member of the present embodiment;

FIG. 7 is a second schematic view of the inner support member of the present embodiment;

FIG. 8 is a third schematic view of the inner support member of the present embodiment;

the device comprises a rib net lower cover component 1, a rib net lower cover component 11, a supporting component 12, a rib net upper cover component 2, an upper net plate 21, a supporting plate 22, a 3V-shaped reinforcing rib, a first diamond hole 31, an inner supporting component 4, a second diamond hole 41, a connecting rib position 42, a closing component 43, a first bending line 5 and a second bending line 51.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings, and it is to be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Example (b):

referring to fig. 1 to 8, the present embodiment is a reinforced net combined steel net box, which includes a reinforced net lower cover assembly 1, a reinforced net upper cover assembly 2 fastened and fixed on the reinforced net lower cover assembly 1, and at least one inner support member 4 abutted between the reinforced net lower cover assembly 1 and the reinforced net upper cover assembly 2.

A closed cavity body is formed between the ribbed net lower cover component 1 and the ribbed net upper cover component 2, and the cavity body is of a square structure.

The ribbed net lower cover assembly 1 comprises a lower net plate 11 and supporting parts 12 which are symmetrically arranged at two sides of the lower net plate 11 and are integrally bent with the lower net plate, and the supporting parts 12 are of an L-shaped structure.

The ribbed net upper cover assembly 2 comprises an upper net plate 21 and support plates 22 which are symmetrically arranged at two sides of the upper net plate 21 and are integrally bent with the upper net plate, and the upper net plate 21 is perpendicular to the support plates 22. The upper screen plate 21 is relatively attached and erected on the supporting part 12, the supporting plates 22 cover two ends of the supporting part 12, and the height of the supporting plates 22 corresponds to the height of the supporting part 12. The length of the upper screen plate 21 is set corresponding to that of the lower screen plate 11.

The upper mesh plate 21 and the lower mesh plate 11 before bending are rectangular structures.

Have muscle net upper cover subassembly 2 and have all to be equipped with the V type strengthening rib 3 that a plurality of equidistance intervals set up on the muscle net lower cover subassembly 1, the outstanding periphery towards the cavity body of V type strengthening rib 3. The V-shaped reinforcing ribs 3 of the ribbed net upper cover component 2 are vertically overlapped relatively with the joints of the V-shaped reinforcing ribs 3 of the ribbed net lower cover component 1.

The connection between the support plate 22 and the support portion 12 is not limited to the binding wire.

The height of the V-shaped reinforcing ribs 3 is 3-15 mm. Go up otter board 21 and lower otter board 11 and be had muscle net structure, be equipped with a plurality of network hole structures between the adjacent V type strengthening rib 3, contain at least two first diamond holes 31 of arranging relatively that misplace in every group mesh structure, the central line position of every first diamond hole 31 is parallel arrangement relatively.

The inner supporting piece 4 is a rectangular net plate which is connected end to end and enclosed to form an annular structure, and the annular structure is a circular ring or an elliptical ring. The top of the inner support 4 supports the upper mesh plate 21, and the bottom of the inner support 4 is placed on the lower mesh plate 11. The inner supporting pieces 4 are arranged at the central position of the hollow cavity body or the plurality of inner supporting pieces 4 are uniformly distributed in the hollow cavity body.

The inner strut member 4 includes, but is not limited to, a ribbed web structure, a non-ribbed web structure, or a necked web structure. The inner support member 4 is made of metal or plastic material, and the inner support member 4 can play a role in supporting a certain hardness, and is not limited to the above materials.

The inner supporting piece 4 is of a ribbed net structure and is consistent with the mesh structure of the upper net plate 21 or the lower net plate 11.

The inner supporting member 4 is of a non-rib net structure, and a plurality of second rhombic holes 41 which are uniformly distributed and arranged are arranged on the inner supporting member.

The inner support piece 4 is of a closing net structure, a plurality of rows of connecting rib positions 42 are arranged between adjacent V-shaped reinforcing ribs 3, and a plurality of V-shaped closing-up pieces 43 which are arranged in the same direction and at equal intervals are arranged between adjacent connecting rib positions 42.

When the embodiment is applied, the first bending lines 5 are preset in the upper cover component 2 with the rib net, the second bending lines 51 are preset in the lower cover component 1 with the rib net, the upper screen plate 21 is bent along the first bending lines 5 to form the supporting plate 22, the lower screen plate 11 is bent along the second bending lines 51 to form the supporting part 12, the inner supporting part 4 is arranged on the lower screen plate 11, the upper screen plate 21 and the lower screen plate 11 are overlapped in the vertical intersecting direction of the V-shaped reinforcing ribs 3, the joint of the upper screen plate 21 and the lower screen plate 11, and the joint of the inner supporting part 4 and the upper screen plate 21 and the joint of the lower screen plate 11 are respectively and fixedly connected, and the method is not particularly limited to a mode of fixedly connecting through binding wires.

In the embodiment, the ribbed net upper cover component 2 and the ribbed net lower cover component 1 which are integrally bent and formed are arranged, so that the transportation before assembly is facilitated, and the site construction is rapid and accurate; the supporting part 12 is matched with the rib net upper cover component 2, the inner supporting part 4 is propped against the upper net plate 21 and the lower net plate 11, the uniform stress on the periphery of the whole body is realized, the whole bearing is more scientific and reasonable, and the problem of excessive deformation of the supporting plate 22 is avoided; the fixed binding wires are adopted for binding, the speed block is assembled, and the field simple operation is realized; the fishbone net structure can ensure good hollow rate in the pouring process, and the forming is quick and effective.

What has been described above are merely some embodiments of the present invention. It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the inventive concept thereof, and these changes and modifications can be made without departing from the spirit and scope of the invention.

Claims (10)

1. There is muscle net combination formula steel net case, be fixed in the muscle net upper cover subassembly that has on the muscle net lower cover subassembly, its characterized in that including muscle net lower cover subassembly and lock: still include the butt in there is at least one internal stay spare between muscle net lower cover subassembly and the muscle net upper cover subassembly, there be muscle net lower cover subassembly including lower otter board and symmetry locate down the otter board both sides and rather than the fashioned supporting part of buckling as an organic whole, the supporting part is L type structure, there be muscle net upper cover subassembly include that upper screen board and symmetry locate the otter board both sides and rather than the fashioned backup pad of buckling as an organic whole, the relative laminating of upper screen board is put up in the supporting part on, the backup pad lid closes the both ends of supporting part, the internal stay spare is the otter board end to end connection of rectangle and encloses to close and be the loop configuration.

2. The modular steel cage with reinforcing mesh according to claim 1, characterized in that: a closed cavity body is formed between the ribbed net lower cover component and the ribbed net upper cover component, and the cavity body is of a square structure.

3. The modular steel cage with reinforcing mesh according to claim 1, characterized in that: the upper screen plate is perpendicular to the supporting plate.

4. The modular steel cage with reinforcing mesh according to claim 1, characterized in that: the height of the supporting plate is set corresponding to that of the supporting part.

5. The modular steel cage with reinforcing mesh according to claim 1, characterized in that: the length of the upper screen plate is corresponding to that of the lower screen plate.

6. The modular steel cage with reinforcing mesh according to claim 2, characterized in that: the rib net upper cover component and the rib net lower cover component are respectively provided with a plurality of V-shaped reinforcing ribs arranged at equal intervals.

7. The modular steel cage with reinforcing mesh according to claim 6, characterized in that: the V-shaped reinforcing ribs protrude towards the periphery of the cavity body.

8. The modular steel cage with reinforcing mesh according to claim 6, characterized in that: the V-shaped reinforcing ribs of the ribbed net upper cover component and the V-shaped reinforcing ribs of the ribbed net lower cover component are vertically overlapped relatively.

9. The modular steel cage with reinforcing mesh according to claim 2, characterized in that: the inner supporting piece is arranged at the central position of the hollow cavity body or the inner supporting pieces are uniformly distributed in the hollow cavity body.

10. The modular steel cage with reinforcing mesh according to claim 1, characterized in that: the inner strut member includes, but is not limited to, a ribbed mesh structure, a non-ribbed mesh structure, or a necked mesh structure.

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