CN220114178U - Shock-absorbing compression-resistant glass fiber reinforced plastic grid plate - Google Patents

Abstract

The utility model discloses a shock-absorbing and pressure-resisting glass fiber reinforced plastic grid plate, which comprises a glass fiber reinforced plastic grid body, wherein a first pressure-resisting steel plate is arranged on the end face of the glass fiber reinforced plastic grid body, a rubber shock pad is arranged below the first pressure-resisting steel plate, a second pressure-resisting steel plate is arranged at one end, far away from the first pressure-resisting steel plate, of the rubber shock pad, first mounting blocks are arranged on two sides of the glass fiber reinforced plastic grid body, second mounting blocks are arranged on two adjacent sides, where the first mounting blocks are arranged, of the glass fiber reinforced plastic grid body, one end, far away from the glass fiber reinforced plastic grid body, of the second mounting blocks is connected with a fixing frame, a supporting rod is arranged inside the first pressure-resisting steel plate, and first hard aluminum alloy plates are arranged on two sides of the supporting rod. The rubber shock pad is utilized to enable the glass fiber reinforced plastic grid main body to play a role in buffering when being rolled, so that damage to the glass fiber reinforced plastic grid main body is reduced; the first hard aluminum alloy plate and the second hard aluminum alloy plate are arranged, so that the whole compressive resistance of the glass fiber reinforced plastic grid is improved.

Description

Shock-absorbing compression-resistant glass fiber reinforced plastic grid plate

Technical Field

The utility model relates to the technical field of glass fiber reinforced plastic grid plates, in particular to a shock-absorbing and pressure-resisting glass fiber reinforced plastic grid plate.

Background

The glass fiber reinforced plastic grating plate is a polyester plate with a plurality of regularly distributed rectangular and square blank spaces, which is manufactured by adopting a molding process, and has the mechanical characteristics of bidirectional homogeneity. The corrosion-resistant material can be widely applied to working platforms, equipment platforms, drilling platforms, walkways and the like in industries such as petroleum, chemical electronics, electric power, paper industry, printing and dyeing, electroplating, marine exploration, sewage treatment and the like, is an ideal product in a corrosion environment, and is also suitable for civil building facilities. However, in the existing designs of glass fiber reinforced plastic grating plates, the compressive property is easily ignored, so that when the glass fiber reinforced plastic grating plates are repeatedly crushed by heavy vehicles or heavy objects, the damage is easily caused, and the service life of the glass fiber reinforced plastic grating plates is shortened.

The application number is as follows: the utility model discloses a glass fiber reinforced plastic grid, which comprises a grid body, wherein openings which are uniformly distributed are arranged in the grid body, filtering small holes for filtering impurities are formed in the inner bottom of the openings, a first inserting block and a second inserting block which are symmetrical in center are arranged on the outer surface of the front end of the grid body, a third inserting block and a fourth inserting block which are symmetrical in center are arranged on the outer surface of the left side of the grid body, a first groove and a second groove which are symmetrical in center are formed on the outer surface of the rear end of the grid body, and a third groove and a fourth groove which are symmetrical in center are formed on the outer surface of the right side of the grid body; according to the utility model, the plug blocks and the grooves are connected, so that dirt in water is filtered and discharged through the small holes, the phenomenon of blockage of the glass fiber reinforced plastic can be prevented, the time for cleaning garbage is reduced, the splicing among multiple groups of glass fiber reinforced plastics can be facilitated, the installation time is saved, and the working efficiency is improved.

The glass fiber reinforced plastic grid has lower compression resistance, so that the service life of the glass fiber reinforced plastic grid can be shortened, and the glass fiber reinforced plastic grid is not suitable for being rolled by a heavier vehicle or a heavy object.

Accordingly, in view of the above, an improvement of the existing structure and the existing defects is studied and proposed to provide a shock-absorbing and pressure-resistant glass fiber reinforced plastic grid plate, so as to achieve the purpose of having more practical value.

Disclosure of Invention

The utility model aims to provide a shock-absorbing and pressure-resistant glass fiber reinforced plastic grid plate, which aims to solve the problems of low pressure resistance, short service life and inapplicability to rolling of heavy vehicles or heavy objects in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a glass steel grid board of shock attenuation resistance to compression, includes the glass steel grid body, the terminal surface of glass steel grid body is provided with first resistance to compression steel sheet, just the below of first resistance to compression steel sheet is provided with the rubber shock pad, the one end that first resistance to compression steel sheet was kept away from to the rubber shock pad is provided with the second resistance to compression steel sheet, the both sides of glass steel grid body all are provided with first installation piece, the glass steel grid body sets up the adjacent both sides of first installation piece and all is provided with the second installation piece, just the one end that glass steel grid body was kept away from to the second installation piece is connected with fixed frame, the inside of first resistance to compression steel sheet sets up the bracing piece, just the both sides of bracing piece all are provided with first hard aluminium alloy plate.

Further, one end of the first hard aluminum alloy plate is provided with a second hard aluminum alloy plate, the first hard aluminum alloy plate and the second hard aluminum alloy plate are diamond-shaped, and the first hard aluminum alloy plate and the second hard aluminum alloy plate are specifically symmetrically arranged.

Further, the first hard aluminum alloy plate and the second hard aluminum alloy plate are tightly attached to the outer surface of the supporting rod, and the first hard aluminum alloy plate and the second hard aluminum alloy plate are arranged in the second compression-resistant steel plate.

Further, the inner wall both sides of fixed frame all are provided with first recess, fixed frame sets up that both sides that first recess is adjacent all are provided with the second recess, just the notch size of first recess, second recess is identical with the size of first installation piece, second installation piece respectively.

Further, the shape and the size of the rubber shock pad are the same as those of the first compression-resistant steel plate and the second compression-resistant steel plate respectively, and the upper end face of the rubber shock pad is tightly attached to the bottom end of the first compression-resistant steel plate.

Further, the bottom of rubber shock pad closely laminates with the up end of second resistance to compression steel sheet, first resistance to compression steel sheet, rubber shock pad and second resistance to compression steel sheet are integral type structure.

Compared with the prior art, the utility model has the beneficial effects that: the rubber shock pad is arranged between the first pressure resistant plate and the second pressure resistant plate, so that the vibration amplitude generated by rolling the glass fiber reinforced plastic grid main body by a vehicle is reduced, and meanwhile, the rubber shock pad can also play a role in buffering, so that the damage caused by rolling the glass fiber reinforced plastic grid main body by the vehicle or a heavy object is reduced;

through set up first hard aluminium alloy plate, second hard aluminium alloy plate in the inside of first resistance to compression steel sheet and second steel sheet for the compressive property of glass steel grid main part is improved once more, thereby has increased the life of glass steel grid main part to a certain extent.

Drawings

FIG. 1 is a schematic view of the internal structure of a glass fiber reinforced plastic grid body according to the present utility model;

FIG. 2 is a schematic view showing the structure of a first hard aluminum alloy sheet and a second hard aluminum alloy sheet according to the present utility model;

FIG. 3 is a schematic view of the first and second mounting blocks according to the present utility model;

FIG. 4 is a schematic view showing the internal structure of the fixing frame of the present utility model;

fig. 5 is a schematic structural view of the present utility model.

In the figure: 1. a glass fiber reinforced plastic grid body; 2. a first compression-resistant steel sheet; 3. rubber shock pad; 4. a second compression-resistant steel sheet; 5. a first mounting block; 6. a second mounting block; 7. a fixed frame; 8. a support rod; 9. a first hard aluminum alloy plate; 10. a second hard aluminum alloy plate; 11. a first groove; 12. and a second groove.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the present utility model provides a technical solution: the utility model provides a glass steel grid board of shock attenuation resistance to compression, including glass steel grid body 1, the terminal surface of glass steel grid body 1 is provided with first resistance to compression steel sheet 2, and the below of first resistance to compression steel sheet 2 is provided with rubber shock pad 3, the one end that first resistance to compression steel sheet 2 was kept away from to rubber shock pad 3 is provided with second resistance to compression steel sheet 4, the both sides of glass steel grid body 1 all are provided with first installation piece 5, the glass steel grid body 1 sets up the adjacent both sides of first installation piece 5 and all is provided with second installation piece 6, and the one end that glass steel grid body 1 was kept away from to second installation piece 6 is connected with fixed frame 7, utilize fixed frame 7 glass steel grid body 1 can not appear the condition of deformation easily when being rolled by vehicle or heavy object. The supporting rod 8 is arranged in the first compression-resistant steel plate 2, and the first hard aluminum alloy plates 9 are arranged on two sides of the supporting rod 8. One end of the first hard aluminum alloy plate 9 is provided with a second hard aluminum alloy plate 10, and the first hard aluminum alloy plate 9 and the second hard aluminum alloy plate 10 are each diamond-shaped, and the first hard aluminum alloy plate 9 and the second hard aluminum alloy plate 10 are specifically symmetrically arranged, and the compressive property of the glass fiber reinforced plastic grid body 1 is enhanced by arranging the first hard aluminum alloy plate 9 and the second hard aluminum alloy plate 10. The first hard aluminum alloy plate 9 and the second hard aluminum alloy plate 10 are tightly attached to the outer surface of the support rod 8, and the first hard aluminum alloy plate 9 and the second hard aluminum alloy plate 10 are arranged inside the second compression-resistant steel plate 4.

The inner wall both sides of fixed frame 7 all are provided with first recess 11, and fixed frame 7 sets up that the both sides that first recess 11 is adjacent all are provided with second recess 12, and the notch size of first recess 11, second recess 12 respectively with first installation piece 5, the size of second installation piece 6 identical, set up like this and make can realize dismantling fast and install glass steel grid main part 1 to make work efficiency obtain improving. The shape size of the rubber shock pad 3 is the same as the shape size of the first compression-resistant steel plate 2 and the second compression-resistant steel plate 4 respectively, the upper end face of the rubber shock pad 3 is tightly attached to the bottom end of the first compression-resistant steel plate 2, the bottom end of the rubber shock pad 3 is tightly attached to the upper end face of the second compression-resistant steel plate 4, vibration amplitude generated when the glass fiber reinforced plastic grid main body 1 is rolled by a vehicle can be reduced by the rubber shock pad 3, and a buffer effect can be achieved, so that damage caused when the glass fiber reinforced plastic grid main body 1 is rolled by the vehicle or a heavy object is reduced. The first compression-resistant steel plate 2, the rubber shock pad 3 and the second compression-resistant steel plate 4 are of an integrated structure, so that the shock absorption effect is improved while the compression resistance of the glass fiber reinforced plastic grid main body 1 is increased.

Working principle: when the device is used, the glass fiber reinforced plastic grid body 1 utilizes the first compression-resistant steel plate 2 and the second compression-resistant steel plate 4 to improve the overall compression strength of the glass fiber reinforced plastic grid body 1, the first hard aluminum alloy plate 9 and the second hard aluminum alloy plate 10 are respectively arranged in the first compression-resistant steel plate 2 and the second compression-resistant steel plate 4, so that the compression resistance of the glass fiber reinforced plastic grid body 1 is improved again, the glass fiber reinforced plastic grid body 1 cannot be easily damaged when bearing a heavier vehicle or repeatedly rolling heavy objects, then the glass fiber reinforced plastic grid body 1 is clamped with the first groove 11 and the second groove 12 through the first mounting block 5 and the second mounting block 6, the stability of the glass fiber reinforced plastic grid body 1 is improved, the deformation phenomenon of the glass fiber reinforced plastic grid body 1 after long-term rolling is avoided, the service life of the glass fiber reinforced plastic grid body 1 can be prolonged, and then the rubber shock pad 3 is arranged between the first compression-resistant steel plate 2 and the second compression-resistant steel plate 4, the shock pad appearing when the vehicle rolls can be reduced, the glass fiber reinforced plastic grid body 1 can play a role in buffering and the damage.

Claims (6)

1. The utility model provides a shock attenuation resistance to compression's glass steel grid board, its characterized in that, including glass steel grid body (1), the terminal surface of glass steel grid body (1) is provided with first resistance to compression steel sheet (2), just the below of first resistance to compression steel sheet (2) is provided with rubber shock pad (3), the one end that first resistance to compression steel sheet (2) was kept away from to rubber shock pad (3) is provided with second resistance to compression steel sheet (4), the both sides of glass steel grid body (1) all are provided with first installation piece (5), glass steel grid body (1) set up that the both sides that first installation piece (5) are adjacent all are provided with second installation piece (6), just the one end that glass steel grid body (1) was kept away from to second installation piece (6) is connected with fixed frame (7), the inside of first resistance to compression steel sheet (2) sets up bracing piece (8), just the both sides of bracing piece (8) all are provided with first hard aluminium alloy plate (9).

2. The glass fiber reinforced plastic grid plate according to claim 1, wherein one end of the first hard aluminum alloy plate (9) is provided with a second hard aluminum alloy plate (10), the first hard aluminum alloy plate (9) and the second hard aluminum alloy plate (10) are diamond-shaped, and the first hard aluminum alloy plate (9) and the second hard aluminum alloy plate (10) are arranged symmetrically.

3. The shock-absorbing and pressure-resistant glass fiber reinforced plastic grid plate according to claim 2, wherein the first hard aluminum alloy plate (9) and the second hard aluminum alloy plate (10) are tightly attached to the outer surface of the supporting rod (8), and the first hard aluminum alloy plate (9) and the second hard aluminum alloy plate (10) are arranged inside the second pressure-resistant steel plate (4).

4. The glass fiber reinforced plastic grid plate according to claim 3, wherein the two sides of the inner wall of the fixed frame (7) are respectively provided with a first groove (11), the two adjacent sides of the fixed frame (7) provided with the first grooves (11) are respectively provided with a second groove (12), and the notch sizes of the first grooves (11) and the second grooves (12) are respectively matched with the sizes of the first installation block (5) and the second installation block (6).

5. The glass fiber reinforced plastic grid plate according to claim 4, wherein the shape and the size of the rubber shock pad (3) are respectively the same as those of the first compression steel plate (2) and the second compression steel plate (4), and the upper end surface of the rubber shock pad (3) is tightly attached to the bottom end of the first compression steel plate (2).

6. The glass fiber reinforced plastic grid plate according to claim 5, wherein the bottom end of the rubber shock pad (3) is tightly attached to the upper end face of the second compression-resistant steel plate (4), and the first compression-resistant steel plate (2), the rubber shock pad (3) and the second compression-resistant steel plate (4) are of an integrated structure.