CN110388022B - Multistage buffering suspension spliced floor - Google Patents

Abstract

The invention relates to the field of suspension spliced floors, and aims to provide a novel floor with high impact absorption. The technical scheme of the invention is realized as follows: the multistage buffering suspension spliced floor comprises a panel, a bottom plate, an air buffering device and a solid buffering device, wherein the air buffering device and the solid buffering device are uniformly arranged between the panel and the bottom plate. The multistage buffering suspension spliced floor provided by the invention has the advantages that the air buffering device and the solid buffering device are arranged between the panel and the bottom plate, so that the multistage buffering suspension spliced floor has different impact absorption effects, and the impact absorption effect is improved.

Description

Multistage buffering suspension spliced floor

Technical Field

The invention relates to the field of suspension spliced floors, in particular to a multistage buffering suspension spliced floor.

Background

The application of the suspension splice floor in floor splicing is more and more, under the condition of wider popularization, in order to better and effectively protect sports personnel from injury, particularly injury to joints of athletes caused by strong impact in the sports process, the impact absorption degree is still an important index of the suspension splice floor, and the impact absorption of the splice floor in the prior art is limited and cannot meet the national requirements on sports fields.

Therefore, there is a need for a novel double-deck splice floor that exhibits strong rebound and efficient impact absorption.

Disclosure of Invention

The invention provides an air buffer suspension spliced floor, and aims to provide a novel floor with strong rebound and high-efficiency impact absorption.

The technical scheme of the invention is realized as follows: the multistage buffering suspension spliced floor comprises a panel, a bottom plate, an air buffering device and a solid buffering device, wherein the air buffering device and the solid buffering device are uniformly arranged between the panel and the bottom plate.

Further, the air buffer device comprises a hollow round table-shaped elastic component and a round table-shaped boss arranged on the panel, wherein the round table-shaped boss is matched with the hollow round table-shaped elastic component, and the height of the elastic component is larger than that of the round table-shaped boss.

Preferably, the base plate further comprises a support column, the height of which is smaller than the height of the elastic member.

In addition, the air buffer device can also be hollow balls which are uniformly distributed in grooves matched with each other between the panel and the bottom plate.

Further, the solid buffer device is a cylinder piston arranged on the panel and a piston hole which is arranged on the bottom plate and can accommodate the cylinder piston, and an elastomer is further arranged on the contact surface of the piston hole and the cylinder piston.

Further, the piston hole is a through hole, and one side of the through hole facing the ground is a step hole; the cylinder pistons and the piston holes are uniformly distributed on the panel and the bottom plate respectively; the cylinder piston and the panel are integrally formed.

The multistage buffering suspension spliced floor provided by the invention has the advantages that the air buffering device and the solid buffering device are arranged between the panel and the bottom plate, so that the multistage buffering suspension spliced floor has different impact absorption, and the impact absorption of the multistage buffering suspended spliced floor is improved; the air buffer device enables a closed air mass to be formed between the panel and the bottom plate through the hollow round table-shaped elastic part between the panel and the bottom plate, and the impact absorption of the air buffer device is improved through air elasticity; the support column with the height smaller than that of the elastic component is arranged, so that air clusters are reduced, the sealing efficiency is improved, and the panel and the bottom plate can be fixed; the solid buffer device generates elastic deformation through the cylinder piston on the panel and the elastic body in the piston hole, so that the impact absorption of the invention is improved; the elastomer is prevented from falling out through the step hole; the elastic body is contacted with the ground through the step hole and can also resist slipping.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the invention, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

Fig. 1: the invention is a schematic structural diagram.

In the figure: 1. a panel; 2. a bottom plate; 3. an elastic member; 4. a support column; 5. an elastomer; 6. a cylinder piston; 7. a stepped hole.

Detailed Description

The following description of the embodiments of the present invention 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 invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The multi-stage buffering suspension spliced floor comprises a panel 1, a bottom plate 2, an air buffering device and a solid buffering device, wherein the air buffering device and the solid buffering device are uniformly arranged between the panel 1 and the bottom plate 2.

Further, the air buffer device comprises a hollow round table-shaped elastic component 3 and a round table-shaped boss arranged on the panel 1, wherein the round table-shaped boss can accommodate the hollow round table-shaped elastic component 3, and the height of the elastic component 3 is larger than that of the round table-shaped boss.

Preferably, the base plate further comprises support columns 4, the height of the support columns 4 being smaller than the height of the elastic members 3.

In addition, the air buffer device can also be hollow balls which are uniformly distributed in the grooves matched with each other between the panel 1 and the bottom plate 2.

Further, the solid buffer device is a cylinder piston 6 arranged on the panel 1 and a piston hole which is arranged on the bottom plate 2 and can accommodate the cylinder piston 6, and the contact surface of the piston hole and the cylinder piston 5 is also provided with an elastomer 5.

Further, the piston hole is a through hole, and one side of the through hole facing the ground is a step hole 7; the cylinder pistons 6 and the piston holes are uniformly distributed on the panel 1 and the bottom plate 2 respectively; the cylinder piston 6 is integrally formed with the panel 1.

First embodiment:

The air buffer device comprises a hollow round table-shaped elastic part 3 and a round table-shaped boss arranged on a panel 1, wherein the round table-shaped boss can accommodate the hollow round table-shaped elastic part 3, and the height of the elastic part 3 is larger than that of the round table-shaped boss; the solid buffer device is a cylinder piston 6 arranged on the panel 1 and a piston hole which is arranged on the bottom plate 2 and can accommodate the cylinder piston 6, and the contact surface of the piston hole and the cylinder piston 6 is also provided with an elastic body 5.

When the panel 1 and the bottom plate 2 are extruded, a closed air ball is formed between the hollow round table-shaped elastic part 3 and the bottom plate 2, and the resilience force of the invention is improved through air elasticity, so that the impact absorption of the suspension spliced floor is improved;

Meanwhile, the cylinder piston 6 extrudes the elastic body 5 to generate elastic deformation, so that the impact absorption of the invention is further improved.

Specific embodiment II:

The air buffer device is a hollow sphere which is uniformly distributed in grooves matched with each other between the panel 1 and the bottom plate 2; the solid buffer device is a cylinder piston 6 arranged on the panel 1 and a piston hole which is arranged on the bottom plate 2 and can accommodate the cylinder piston 6, and the contact surface of the piston hole and the cylinder piston 6 is also provided with an elastic body 5.

When the panel 1 and the bottom plate 2 are extruded, the air mass in the hollow sphere generates impact absorption, and the impact absorption of the invention is improved through air elasticity;

Meanwhile, the cylinder piston 6 extrudes the elastic body 5 to generate elastic deformation, so that the impact absorption of the invention is further improved.

The multistage buffering suspension spliced floor provided by the invention has the advantages that the air buffering device and the solid buffering device are arranged between the panel 1 and the bottom plate 2, so that the multistage buffering suspension spliced floor has different impact absorption, and the impact absorption of the multistage buffering suspended spliced floor is improved; the air buffer device enables a closed air mass to be formed between the panel 1 and the bottom plate 2 through the hollow round table-shaped elastic part 3 between the panel 1 and the bottom plate 2, and the impact absorption of the invention is improved through air elasticity; the support column 4 with the height smaller than that of the elastic part 3 is arranged, so that air clusters are reduced, the sealing efficiency is improved, and the panel 1 and the bottom plate 2 can be fixed; the solid buffer device generates elastic deformation through the cylinder piston 6 on the panel 1 and the elastic body 5 in the piston hole, so that the impact absorption of the invention is improved; the elastic body 5 is prevented from falling out through the step hole 7; the elastic body 5 is contacted with the ground through the step hole 7 and can also resist slipping.

Of course, a person skilled in the art shall make various corresponding changes and modifications according to the present invention without departing from the spirit and the essence of the invention, but these corresponding changes and modifications shall fall within the protection scope of the appended claims.

Claims (1)

1. Multistage buffering suspension concatenation floor, including panel and bottom plate, its characterized in that: the air buffer device comprises a hollow round table-shaped elastic component and a round table-shaped boss arranged on the panel, wherein the round table-shaped boss can accommodate the hollow round table-shaped elastic component, the height of the elastic component is larger than that of the round table-shaped boss, the solid buffer device is a cylinder piston arranged on the panel and a piston hole which is arranged on the bottom plate and can accommodate the cylinder piston, an elastomer is further arranged on the contact surface of the piston hole and the cylinder piston, the bottom plate further comprises a support column, the height of the support column is smaller than that of the elastic component, the piston hole is a through hole, and the through hole faces one side of the ground and is a step hole; the cylinder pistons and the piston holes are uniformly distributed on the panel and the bottom plate respectively; the cylinder piston and the panel are integrally formed, the air buffer device enables a closed air mass to be formed between the panel and the bottom plate through a hollow round table-shaped elastic part between the panel and the bottom plate, and impact absorption is improved through air elasticity; through setting up the support column that is highly less than elastomeric element, make the air group diminish, improve airtight efficiency, and can carry out the fixed between panel and the bottom plate.