CN215437937U - Container floor structure - Google Patents

Abstract

The utility model discloses a container floor structure, which comprises a floor body and at least one of a first splicing part and a second splicing part; the first splicing part and the second splicing part are arranged on the left side and the right side of the floor body; the first splicing part comprises a first arc plate/transverse plate/vertical plate; the opening of the first arc plate is upward, the right end of the first arc plate is connected with the upper edge of the left end of the floor body, a flange is formed on the upper edge of the left end of the floor body, and a first slot is defined between the flange and the right end of the first arc plate; the right end of the first transverse plate is connected with the lower edge of the left end of the floor body; the first vertical plate is connected between the first circular arc plate and the first transverse plate; the second splicing part comprises a second arc plate/transverse plate/vertical plate; the left end of the second transverse plate is connected with the upper edge of the right end of the floor body; the opening of the second arc plate is upward, the left end of the second arc plate is connected with the right end of the second transverse plate, and the outer ring of the second arc plate is matched with the inner ring of the first arc plate; the upper end of the second vertical plate is connected below the right end of the second transverse plate, and a second slot is enclosed between the upper end of the second vertical plate and the left end of the outer ring of the second circular arc plate. The utility model can be spliced at will, operated conveniently and disassembled.

Description

Container floor structure

Technical Field

The utility model relates to the technical field of containers, in particular to a container floor structure.

Background

Containers are widely used globally as a general transport. Because the weight borne by the floor of the container is very large, the traditional wood floor can not meet the bearing requirements of modern industry, and most container manufacturing enterprises gradually use rigid floor to replace wood floor.

Rigid flooring is generally formed from metal by plastic working and has a cross-sectional shape and size. After the rigid floor is processed, the width (or lateral length) of the rigid floor is basically determined, but in the actual use process, in order to meet the requirements of laying different container floors, a plurality of floors with the same structure are laid side by side when the floor is laid, and welding is carried out at the joint so as to meet the requirements of longer and wider sizes. But adopt welded mode, efficiency that can greatly reduced floor laid, and the polylith floor forms an organic whole after the welding, can't dismantle, the reuse of being not convenient for.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a container floor structure which is simple in structure and convenient to splice, can be spliced and combined randomly according to actual use requirements, and can realize relative fixation of adjacent plates without welding.

In order to achieve the above purpose, the solution of the utility model is:

a container floor structure comprises a floor body and at least one of a first splicing part and a second splicing part; the first splicing part and the second splicing part are respectively arranged on the left side and the right side of the floor body; the first splicing part comprises a first arc plate, a first transverse plate and a first vertical plate; the opening of the first arc plate faces upwards, the right end of the first arc plate is connected to the upper edge of the left end of the floor body, the upper edge of the left end of the floor body extends leftwards and then bends downwards to form a flange, and a first slot is defined between the flange and the right end of the first arc plate; the first transverse plate is flush with the lower surface of the floor body, and the right end of the first transverse plate is connected to the lower edge of the left end of the floor body; the first vertical plate is vertically connected between the first circular arc plate and the first transverse plate; the second splicing part comprises a second arc plate, a second transverse plate and a second vertical plate; the second transverse plate is flush with the upper surface of the floor body, and the left end of the second transverse plate is connected to the upper edge of the right end of the floor body; the opening of the second arc plate faces upwards, the left end of the second arc plate is connected to the right end of the second transverse plate, and the outer ring of the second arc plate is matched with the inner ring of the first arc plate; the upper end of the second vertical plate is vertically connected below the right end of the second transverse plate, and a second slot is formed between the upper end of the second vertical plate and the left end of the outer ring of the second circular arc plate in a surrounding mode.

The second splicing part further comprises a first inclined plate, the lower end of the first inclined plate is connected to the left side face of the second vertical plate, and the upper end of the first inclined plate is connected to the floor body.

The floor body is a hollow profile.

A plurality of second inclined plates are arranged in the floor body, and adjacent second inclined plates are symmetrically arranged, so that a plurality of isosceles trapezoid or inverted isosceles trapezoid holes which are alternately arranged are formed in the floor body.

After the technical scheme is adopted, according to actual requirements, the floor bodies with the first splicing parts and/or the second splicing parts can be transversely spliced to obtain a floor combination with the required width, welding is not needed in the splicing process, the left end of the first arc plate is matched with the second slot, and the right end of the second arc plate is matched with the first slot, so that the adjacent floor bodies can be relatively fixed to finish splicing, the operation is quick, the working efficiency is high, and the floor combination can be conveniently recycled after subsequent disassembly.

Drawings

FIG. 1 is a perspective view of a first embodiment of the present invention;

FIG. 2 is a cross-sectional view of a first embodiment of the present invention;

FIG. 3 is a perspective view of a second embodiment of the present invention;

FIG. 4 is a cross-sectional view of a second embodiment of the present invention;

FIG. 5 is a perspective view of a third embodiment of the present invention;

FIG. 6 is a cross-sectional view of a third embodiment of the present invention;

fig. 7 is a schematic diagram of splicing according to an embodiment of the present invention.

The reference numbers illustrate:

1, a floor body; 11 a second sloping plate; 12 holes;

2 a first splice; 21 a first arc plate; 22 a first transverse plate;

23 a first riser; 24 flanges; 25 a first slot;

26 card slots; 3 a second splice; 31 a second circular arc plate;

32 a second transverse plate; 33 a second riser; 34 a second slot;

35 a first swash plate.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following specific examples.

Note: the following directional descriptions are taken in conjunction with the directional indicators in the drawings and are not intended to represent, nor to limit, the directional arrangements in particular uses.

The utility model relates to a container floor structure, which comprises a floor body 1 and at least one of a first splicing part 2 and a second splicing part 3.

The first splicing part 2 and the second splicing part 3 are respectively arranged at the left side and the right side of the floor body 1;

the first splicing part 2 comprises a first arc plate 21, a first transverse plate 22 and a first vertical plate 23; the opening of the first arc plate 21 faces upwards, the right end of the first arc plate is connected to the upper edge of the left end of the floor body 1, the upper edge of the left end of the floor body 1 extends leftwards and then bends downwards to form a flange 24, and a first slot 25 is defined between the flange 24 and the right end of the first arc plate 21; the first transverse plate 22 is flush with the lower surface of the floor body 1, and the right end of the first transverse plate is connected to the lower edge of the left end of the floor body 1; the first vertical plate 23 is vertically connected between the first circular arc plate 21 and the first transverse plate 22;

the second splicing part 3 comprises a second arc plate 31, a second transverse plate 32 and a second vertical plate 33; the second transverse plate 32 is flush with the upper surface of the floor body 1, and the left end of the second transverse plate is connected to the upper edge of the right end of the floor body 1; the opening of the second arc plate 31 faces upwards, the left end of the second arc plate is connected to the right end of the second transverse plate 32, and the outer ring of the second arc plate 31 is matched with the inner ring of the first arc plate 21; the upper end of the second vertical plate 33 is vertically connected below the right end of the second transverse plate 32, and a second slot 34 is defined between the upper end of the second vertical plate and the left end of the outer ring of the second arc plate 31.

Further:

both ends of the first arc plate 21 and the second arc plate 31 are horizontally arranged.

The upper surface of the left end of the first horizontal plate 22 is provided with a clamping groove 26, the left end and the right end of the clamping groove 26 protrude out of the upper surface of the first horizontal plate 22, and the clamping groove 26 can be matched with a fixing component of the floor to realize edge fixing.

The second splicing part 3 further comprises a first inclined plate 35, the lower end of the first inclined plate 35 is connected to the left side surface of the second vertical plate 33, and the upper end of the first inclined plate is connected to the floor body 1.

Above-mentioned floor body 1 is the cavity section bar, can reduce weight and manufacturing cost, is provided with a plurality of second swash plates 11 in it, and adjacent second swash plate 11 is the symmetry setting to make floor body 1 in form the isosceles trapezoid or the hole 12 of falling isosceles trapezoid that a plurality of set up in turn, second swash plate 11 plays the stiffening action.

Referring to fig. 1 and 2, a first embodiment of the present invention is shown. In the first embodiment, the left and right sides of the floor body 1 are respectively provided with a first splicing part 2 and a second splicing part 3 to be used as the floor of the non-edge position of the container ground.

Referring to fig. 3 and 4, a second embodiment of the present invention is shown. In the second embodiment, only the left side of the floor body 1 is provided with the first splicing part 2, and the right side of the floor body is a vertical flat plane so as to be used as the floor at the right edge position of the ground of the container.

Referring to fig. 5 and 6, a third embodiment of the present invention is shown. In the third embodiment, only the right side of the floor body 1 is provided with the second splicing part 3, and the left side of the floor body is a vertical flat plane so as to be used as the floor at the left edge position of the ground of the container.

Referring to fig. 7, when two floor boards are spliced, the first splicing part 2 and the second splicing part 3 are spliced: the right end of the second arc plate 31 is firstly clamped into the first slot 25, and then the second arc plate 31 rotates downwards by taking the right end as the axial direction, so that the left end of the first arc plate 21 is clamped into the second slot 34, and the second vertical plate 33 abuts against the upper surface of the first transverse plate 22, and the splicing is completed.

Through the scheme, the floor combination with the required width can be obtained by transversely splicing a plurality of floor bodies 1 with the first splicing parts 2 and/or the second splicing parts 3 according to actual requirements, welding is not needed in the splicing process, the left end of the first arc plate 21 is matched with the second slot 34, and the right end of the second arc plate 31 is matched with the first slot 25, so that the adjacent floor bodies 1 can be relatively fixed to finish splicing, the operation is quick, the working efficiency is high, and the floor combination can be conveniently recycled after subsequent disassembly.

The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications thereof by those skilled in the art should be considered as not departing from the scope of the present invention.

Claims (4)

1. A container floor structure characterized in that:

the floor comprises a floor body and at least one of a first splicing part and a second splicing part; the first splicing part and the second splicing part are respectively arranged on the left side and the right side of the floor body;

the first splicing part comprises a first arc plate, a first transverse plate and a first vertical plate; the opening of the first arc plate faces upwards, the right end of the first arc plate is connected to the upper edge of the left end of the floor body, the upper edge of the left end of the floor body extends leftwards and then bends downwards to form a flange, and a first slot is defined between the flange and the right end of the first arc plate; the first transverse plate is flush with the lower surface of the floor body, and the right end of the first transverse plate is connected to the lower edge of the left end of the floor body; the first vertical plate is vertically connected between the first circular arc plate and the first transverse plate;

the second splicing part comprises a second arc plate, a second transverse plate and a second vertical plate; the second transverse plate is flush with the upper surface of the floor body, and the left end of the second transverse plate is connected to the upper edge of the right end of the floor body; the opening of the second arc plate faces upwards, the left end of the second arc plate is connected to the right end of the second transverse plate, and the outer ring of the second arc plate is matched with the inner ring of the first arc plate; the upper end of the second vertical plate is vertically connected below the right end of the second transverse plate, and a second slot is formed between the upper end of the second vertical plate and the left end of the outer ring of the second circular arc plate in a surrounding mode.

2. A container floor structure according to claim 1, wherein:

the second splicing part further comprises a first inclined plate, the lower end of the first inclined plate is connected to the left side face of the second vertical plate, and the upper end of the first inclined plate is connected to the floor body.

3. A container floor structure according to claim 1, wherein:

the floor body is a hollow profile.

4. A container floor structure according to claim 3, wherein:

a plurality of second inclined plates are arranged in the floor body, and adjacent second inclined plates are symmetrically arranged, so that a plurality of isosceles trapezoid or inverted isosceles trapezoid holes which are alternately arranged are formed in the floor body.

Images