CN210794008U - Bottom bar support utilizing glass magnesium composite board waste - Google Patents

Abstract

The utility model relates to a bottom bar support utilizing glass magnesium composite board waste. The bottom bar support comprises a reinforcing rib layer and a glass magnesium composite board waste material layer which are alternately arranged from bottom to top in sequence, and at least one supporting bar arranged along the length direction of the bottom bar support is embedded in the glass magnesium composite board waste material layer arranged in the middle. This sill bar supports make full use of glass magnesium composite sheet waste material, resources are saved and the cost sets up through special construction, has obtained the sill bar support that the middle part has set up hollow bamboo structure, can play fine steadiness, non-deformable nature, and intensity is high, corrosion-resistant, reuse, and the practicality is strong.

Description

Bottom bar support utilizing glass magnesium composite board waste

Technical Field

The utility model relates to a bottom bar support utilizing glass magnesium composite board waste.

Background

In the process of storing or transporting the plate-shaped materials, square timbers are generally adopted as bottom bar supports, and the square timbers can buffer the pressure and impact force among the plate-shaped materials, facilitate loading and unloading, improve the stability of stacking the plate-shaped materials and avoid overturning. However, the square timber support has defects in pressure resistance, deformation resistance, corrosion resistance and water resistance due to the material of the square timber support, and the square timber support needs a large amount of timber processing, wastes tree resources, is not beneficial to environmental protection and resource saving, and is difficult to widely use.

The glass magnesium composite board is a novel board which is made by taking a glass magnesium board as a base material and compounding the glass magnesium board with other materials. The existing glass-magnesium composite board is stored or transported after being processed, square timbers are basically used as bottom bar supports, in addition, waste materials such as leftover materials, cutting materials, scraps and the like of the glass-magnesium composite board can be generated after the glass-magnesium composite board is processed, and the existing treatment measures are generally directly discarded, so that the problems of great waste and environmental protection are caused; if make full use of glass magnesium composite sheet waste material, process into the backup pad of similar square timber base bar, can play more firm, non-deformable, lasting support on the one hand, on the other hand because the material that the base bar supported compares the glass magnesium composite sheet that the square timber more is close to its support, has better stability.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a remedy prior art not enough, provide a flitch that has utilized glass magnesium composite sheet waste material, solved the problem that exists among the prior art.

The utility model discloses a realize through following technical scheme:

the utility model provides a bottom bar support that has utilized glass magnesium composite sheet waste material, includes the strengthening rib layer and the glass magnesium composite sheet waste material layer that from bottom to top set up in proper order in turn, inlays in the glass magnesium composite sheet waste material layer of locating the middle part and establishes at least one support bar that sets up along bottom bar support length direction.

The supporting bars are hollow supporting bars, and the hollow supporting bars are arranged in a penetrating manner along the length direction of the bottom bar support; the support bar supports 2 that the width direction interval set up for following the sill bar.

The top surfaces of the supporting bars extend upwards into the waste material layer of the glass-magnesium composite board close to the top surfaces of the supporting bars, and the bottom surfaces of the supporting bars extend downwards into the waste material layer of the glass-magnesium composite board close to the bottom surfaces of the supporting bars; the reinforcing rib layer attached to the top and bottom surfaces of the supporting bar is arranged in a cambered surface manner

The support bars are hollow bamboos.

The top surfaces of the supporting bars extend upwards into the waste layer of the glass-magnesium composite board close to the top surfaces of the supporting bars, and the depth of the top surfaces of the supporting bars is 1/3-1/2 of the thickness of the waste layer of the glass-magnesium composite board; the depth of the bottom surface of the support plate extending downwards into the waste layer of the glass-magnesium composite plate adjacent to the bottom surface of the support plate is 1/3-1/2 of the thickness of the waste layer of the glass-magnesium composite plate.

The reinforcing rib layer is made of glass fiber checked cloth or geotextile.

The thickness of each glass magnesium composite waste layer on the upper side and the lower side of the support strip is 2-4 cm.

The waste material layer of the glass magnesium composite board is a composite solidification layer, and the composite solidification layer is formed by crushing fine materials from waste materials produced by the glass magnesium composite board: foaming agent: reinforcing agent: adhesive: water is added according to the weight ratio of 100: 0.5: 1: 0.5: 200 weight ratio of the colloidal material prepared by mixing and solidifying to obtain a solidified layer.

The foaming agent is an organic foaming agent or an inorganic foaming agent.

The reinforcing agent is a magnesite reinforcing agent.

The binder is an inorganic binder.

Preferably, the bottom bar support comprises a first reinforcing rib layer, a first glass magnesium composite board waste material layer, a second reinforcing rib layer, a second glass magnesium composite board waste material layer, a third reinforcing rib layer, a third glass magnesium composite board waste material layer, a fourth reinforcing rib layer, a fourth glass magnesium composite board waste material layer, a fifth reinforcing rib layer, a fifth glass magnesium composite board waste material layer and a sixth reinforcing rib layer which are sequentially arranged from bottom to top; inlay the hollow support pole of establishing two intervals and setting up on third glass magnesium composite sheet waste material layer, the top surface of hollow support pole upwards supports the fourth strengthening rib layer and stretches into fourth glass magnesium composite sheet waste material layer bottom setting, and the bottom surface of hollow support pole pushes down the third strengthening rib layer and stretches into second glass magnesium composite sheet bed material layer top setting.

The hollow support rod is made of hollow bamboo.

The utility model has the advantages that:

the bottom bar support fully utilizes the waste of the glass-magnesium composite board, saves resources and cost, and obtains the bottom bar support with the hollow bamboo structure in the middle through special structure arrangement; the upper end face and the lower end face of the bottom bar support are both reinforcing rib layers, namely glass fiber gridding cloth, a glass magnesium composite board waste material layer and the reinforcing rib layers are alternately arranged from bottom to top in sequence, the total number of the reinforcing rib layers is 6, and the reinforcing rib layers and the glass magnesium composite board waste material layer are combined into a firm whole after being solidified through a colloidal glass magnesium composite board waste material layer; the overall structure design is scientific and stable, the supporting device is used for supporting the glass magnesium composite board in the storage or transportation process, good stability and deformation resistance can be achieved, the strength is high, the corrosion resistance is high, the repeated utilization is realized, and the practicability is high.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic longitudinal sectional view of the bumper support of fig. 1.

In the figure, 1 a first reinforcing rib layer, 2 a first glass magnesium composite board waste material layer, 3 a second reinforcing rib layer, 4 a second glass magnesium composite board waste material layer, 5 a third reinforcing rib layer, 6 a third glass magnesium composite board waste material layer, 7 a fourth reinforcing rib layer, 8 a fourth glass magnesium composite board waste material layer, 9 a fifth reinforcing rib layer, 10 a fifth glass magnesium composite board waste material layer, 11 a sixth reinforcing rib layer and 12 hollow support rods.

Detailed Description

In order to clearly illustrate the technical features of the present invention, the present invention is explained in detail by the following embodiments in combination with the accompanying drawings.

As shown in fig. 1-2, the bottom bar support using the glass magnesium composite board waste comprises a first reinforcing rib layer 1, a first glass magnesium composite board waste material layer 2, a second reinforcing rib layer 3, a second glass magnesium composite board waste material layer 4, a third reinforcing rib layer 5, a third glass magnesium composite board waste material layer 6, a fourth reinforcing rib layer 7, a fourth glass magnesium composite board waste material layer 8, a fifth reinforcing rib layer 9, a fifth glass magnesium composite board waste material layer 10 and a sixth reinforcing rib layer 11 which are sequentially arranged from bottom to top; inlay the hollow support rod 12 of establishing two intervals and setting up on third glass magnesium composite sheet waste material layer 6, the top surface of hollow support rod upwards supports fourth strengthening rib layer 7 and stretches into the setting of 8 bottoms in fourth glass magnesium composite sheet waste material layer, and the bottom surface of hollow support rod pushes down third strengthening rib layer 5 and stretches into the setting of 4 backing material layer tops in second glass magnesium composite sheet waste material layer. The hollow support rod is made of hollow bamboo.

The thickness of each glass magnesium composite waste layer is 2-4 cm. The top surface of the hollow bamboo extends upwards into the fourth glass-magnesium composite board waste layer to a depth of 1/2 which is equal to the thickness of the fourth glass-magnesium composite board waste layer; the top surface of the hollow bamboo extends downwards into the second glass magnesium composite board waste layer to a depth of 1/2 which is equal to the thickness of the second glass magnesium composite board waste layer.

The waste material layer of the glass magnesium composite board is a solidified layer processed and made by crushing the production waste material of the glass magnesium composite board.

This manufacturing process who utilizes base stock support of glass magnesium composite sheet waste material:

1. drying waste materials (such as demolded waste residues of the glass-magnesium composite board and scum of a sedimentation tank) in the production process of the glass-magnesium composite board, agglomerating, mixing and crushing to obtain crushed fine materials, wherein the crushed particle size is not more than 1 cm; according to the following steps of 100: 0.5: 1: 0.5: 200 weight percent, mixing and crushing the fine materials, the adhesive, the reinforcing agent, the foaming agent and water, and fully stirring the mixture into a colloidal material;

2. according to the structural requirements of the bottom bar support, firstly coating a layer of release agent in a mould groove, and then sequentially laying glass fiber mesh cloth and the colloidal material in the step (1); 6 layers of glass fiber mesh cloth and 5 layers of colloidal materials are alternately paved;

after the second glass magnesium composite board waste material layer 4 and the glass fiber mesh cloth on the second glass magnesium composite board waste material layer are laid, the hollow bamboo is pressed, a third glass magnesium composite board waste material layer is laid on the outer side of the hollow bamboo continuously, then the glass fiber mesh cloth of the fourth reinforcing rib layer and the fourth glass magnesium composite board waste material layer are laid, then the glass fiber mesh cloth of the fifth reinforcing rib layer, the glass fiber mesh cloth of the fifth glass magnesium composite board waste material layer and the glass fiber mesh cloth of the sixth reinforcing rib layer are laid, and the pressing and the leveling are carried out; maintaining at 30 deg.c for over 12 hr to cure;

3. and after the whole body is stably solidified, demoulding and cutting to obtain the strip-shaped bottom bar support.

The above-mentioned specific embodiments can not be regarded as the restriction to the scope of protection of the utility model, to technical personnel in this technical field, it is right the utility model discloses any replacement improvement or transform that embodiment made all fall within the scope of protection of the utility model.

The parts of the present invention not described in detail are the known techniques of those skilled in the art.

Claims (9)

1. The utility model provides a bottom bar support that has utilized glass magnesium composite sheet waste material which characterized in that includes the strengthening rib layer and the glass magnesium composite sheet waste material layer that from bottom to top set up in turn, inlays in the glass magnesium composite sheet waste material layer of locating the middle part and establishes at least one support bar that sets up along bottom bar support length direction.

2. The sill support of claim 1, wherein the support bar is a hollow support bar disposed through the sill support in a lengthwise direction; the support bar supports 2 that the width direction interval set up for following the sill bar.

3. The sill support of claim 1, wherein the top surface of the brace bar extends upwardly into the layer of magnesium composite panel scrap adjacent the top surface thereof and the bottom surface of the brace bar extends downwardly into the layer of magnesium composite panel scrap adjacent the bottom surface thereof; the reinforcing rib layer attached to the top surface and the bottom surface of the supporting bar is arranged in an arc surface manner.

4. The sill support of any of claims 1-3, wherein the support strip is a hollow bamboo.

5. The sill support of claim 1 or 3, wherein the top surface of the brace bar extends upwardly into the layer of magnesium composite panel scrap adjacent to the top surface thereof to a depth of 1/3-1/2 of the thickness of the magnesium composite panel scrap layer; the depth of the bottom surface of the support plate extending downwards into the waste layer of the glass-magnesium composite plate adjacent to the bottom surface of the support plate is 1/3-1/2 of the thickness of the waste layer of the glass-magnesium composite plate.

6. The sill support of claim 1, wherein the layer of reinforcing tendons is fiberglass scrim or geotextile.

7. The bottom bar support according to claim 1, wherein each of the magnesium composite scrap layers has a thickness of 2-4 cm.

8. The bumper support according to claim 1, comprising a first reinforcing rib layer, a first glass magnesium composite board waste material layer, a second reinforcing rib layer, a second glass magnesium composite board waste material layer, a third reinforcing rib layer, a third glass magnesium composite board waste material layer, a fourth reinforcing rib layer, a fourth glass magnesium composite board waste material layer, a fifth reinforcing rib layer, a fifth glass magnesium composite board waste material layer and a sixth reinforcing rib layer which are arranged in sequence from bottom to top; inlay the hollow support pole of establishing two intervals and setting up on third glass magnesium composite sheet waste material layer, the top surface of hollow support pole upwards supports the fourth strengthening rib layer and stretches into fourth glass magnesium composite sheet waste material layer bottom setting, and the bottom surface of hollow support pole pushes down the third strengthening rib layer and stretches into second glass magnesium composite sheet bed material layer top setting.

9. The sill support of claim 8, wherein the hollow support bar is a hollow bamboo.

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