CN220486986U - Spliced suspension floor - Google Patents

Abstract

The utility model discloses a spliced suspension floor, which comprises a floor body and a clamping structure formed on the periphery of the floor body, wherein the clamping structure is formed on the periphery of the floor body; the female buckle clamping part is configured into a structure protruding outwards from the edge of the floor body, and the sub buckle clamping part is formed at the bottom of the corresponding edge of the floor body; a female buckle side limiting hole is formed in the position between the adjacent female buckle clamping parts in an outward protruding mode along the corresponding edge of the floor body; the positions between the adjacent sub-buckle clamping parts and the bottom of the floor body are provided with sub-buckle side limiting bodies matched with the corresponding female buckle side limiting holes. The unique snap-in joint part design of the suspension floor can reduce the distance between adjacent suspension floors after the adjacent suspension floors are spliced, a plurality of support cylinders are arranged at the bottom in an array manner, and cross-shaped support blocks are arranged, so that the contact area between the support cylinders, the cross-shaped support blocks and the ground can be increased by utilizing the support cylinders, the cross-shaped support blocks, and the whole sliding during use is avoided; the design of fretwork hole and water drainage tank can improve the drainage effect.

Description

Spliced suspension floor

Technical Field

The utility model relates to the technical field of sports floors, in particular to a spliced suspension floor.

Background

At present, a sport field is generally paved with sport floors to play a role of skid resistance and shock absorption. Usually, the sports ground is with suspension floor for concatenation formula structure, adopts U type buckle to splice more between the common suspension floor among the prior art, and the position of buckle sets up in suspension floor's side generally, because the panel shrink is great, so splice with this kind of buckle then can lead to the clearance too big between the floor, and the clearance can all be greater than 2mm basically after the concatenation.

Secondly, the suspended floor among the prior art drainage effect is not good to with ground supporting area is little, and the supporting effect is not good, appears the holistic slip of floor when using easily.

Accordingly, based on the above technical problems, a person skilled in the art is required to develop a novel spliced suspension floor.

Disclosure of Invention

The utility model aims to provide the spliced suspended floor which reduces gaps among floors after being spliced through a novel duckbill-shaped buckle structure, has a good drainage effect and improves an anti-skid effect.

In order to achieve the above object, the present utility model provides the following technical solutions:

the utility model provides a spliced suspension floor, which comprises:

a floor body configured as a quadrangular floor structure; and

the clamping structure is formed in the circumferential direction of the floor body;

the clamping structure is divided into a female buckling clamping part and a male buckling clamping part, the female buckling clamping parts are formed at two edges of the floor body, and the male buckling clamping parts are formed at the other two edges of the floor body;

the adjacent floating floors are clamped with the corresponding sub-buckle clamping parts through the female buckle clamping parts;

the female buckle clamping part is configured into a structure protruding outwards from the edge of the floor body, and the sub buckle clamping part is formed at the bottom of the corresponding edge of the floor body;

when the sub-buckle clamping parts of the adjacent floor bodies are clamped with the corresponding female buckle clamping parts, the corresponding edges of the adjacent floor bodies are attached to each other;

a female buckle side limiting hole is formed in the position between the adjacent female buckle clamping parts in an outward protruding mode along the corresponding edge of the floor body;

a sub-buckle side limiting body matched with the corresponding female buckle side limiting hole is arranged at the bottom of the floor body at a position between the adjacent sub-buckle clamping parts;

when adjacent floor body concatenation, son detains the side limit position body embedding is corresponding in the female knot side limit position body.

Further, the upper surface of the female buckle clamping part is lower than the upper surface of the floor body;

when the sub-buckle clamping parts of the adjacent floor bodies are clamped with the corresponding female buckle clamping parts, the upper surfaces of the adjacent floor bodies are flush.

Further, a plurality of groups of female buckle clamping parts are arranged on the same edge of the floor body at intervals, each female buckle clamping part comprises a female buckle side clamping round hole positioned in the middle of the female buckle clamping part, and a modeling part with one end connected with the floor body and the other end connected with the outer wall of each female buckle side clamping round hole;

the modeling parts are configured into corrugated or bent structures, and one end of each modeling part, which is far away from the floor body, of each modeling part is connected with one clamping round hole on the side of the female buckle;

the novel floor comprises a floor body, wherein a plurality of sub-buckling clamping parts matched with female buckling side clamping round holes of the female buckling clamping parts are arranged on the same edge of the floor body at intervals, the sub-buckling clamping parts are configured into a cylindrical structure with an opening groove in the middle, and the sub-buckling clamping parts can be embedded into the female buckling side clamping round holes.

Further, the box side limiting hole is configured as a slotted hole;

the sub-buckle side limiting body is configured into a strip-shaped structure matched with the oblong hole.

Further, the bottom surface of the floor body is surrounded by a plurality of cavities distributed in an array through supporting ribs;

the junction of the support ribs of adjacent cavities protrudes towards one side far away from the floor body, the support cylinders are configured into tubular support cylinders hollow along the axial direction of the support cylinders, and the floor body is supported on the ground through a plurality of support cylinders.

Furthermore, a cross support is arranged in the cavity and protrudes out of the middle position of the corresponding support rib;

each cavity of the floor body is internally provided with a plurality of surface layer supporting parts which are arranged in a crossing way;

and supporting blocks are protruded in the middle of the supporting ribs between the adjacent cavities, and the protruded heights of the supporting blocks are consistent with the height of the cross-shaped supporting ribs.

Further, a plurality of groups of Chinese character 'mi' shaped units are formed on the surface of the floor body in an array manner, and a plurality of hollowed holes are formed in each group of Chinese character 'mi' shaped units;

every four groups of the rice-shaped units form a cavity at the bottom of the floor body, and the hollowed-out holes are communicated with the corresponding cavities.

Further, the space between the female buckle clamping portion and the female buckle side limiting hole is configured as a drainage groove communicated with the corresponding cavity.

Further, the surface treatment of the floor body is formed as dermatoglyph protrusions.

In the technical scheme, the spliced suspended floor provided by the utility model has the following beneficial effects:

the unique snap-in joint part design of the suspension floor can reduce the distance between adjacent suspension floors after the adjacent suspension floors are spliced, a plurality of support cylinders are arranged at the bottom in an array manner, and cross-shaped support blocks are arranged, so that the contact area between the support cylinders, the cross-shaped support blocks and the ground can be increased by utilizing the support cylinders, the cross-shaped support blocks, and the whole sliding during use is avoided; the design of fretwork hole and water drainage tank can improve the drainage effect.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present utility model, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

Fig. 1 is a schematic structural diagram of the back of a spliced suspension floor according to an embodiment of the present utility model;

FIG. 2 is a schematic front view of a spliced floating floor according to an embodiment of the present utility model;

fig. 3 is a schematic view of a portion of a back side of a spliced floating floor according to an embodiment of the present utility model.

Reference numerals illustrate:

1. a floor body;

101. a rice-shaped unit; 102. a hollowed hole; 103. a drainage channel;

201. a female buckle clamping part; 202. a sub-buckle clamping part; 203. a limit hole at the side of the female buckle; 204. a sub-buckle side limiter;

20101. a modeling part; 20102. the side of the female buckle is clamped with the round hole;

301. a support rib; 302. a cross support; 303. a support cylinder; 304. a surface layer support part; 305. and a supporting block.

Detailed Description

In order to make the technical scheme of the present utility model better understood by those skilled in the art, the present utility model will be further described in detail with reference to the accompanying drawings.

See fig. 1-3;

the embodiment discloses a concatenation formula suspension floor, this suspension floor includes:

a floor body 1, the floor body 1 being configured as a quadrangular floor structure; and

the clamping structure is formed in the circumferential direction of the floor body 1;

the clamping structure is divided into a female buckling clamping part 201 and a male buckling clamping part 202, the female buckling clamping part 201 is formed at two edges of the floor body 1, and the male buckling clamping part 202 is formed at the other two edges of the floor body 1;

adjacent floating floors are clamped by the female buckle clamping parts 201 and the corresponding sub buckle clamping parts 202;

the female buckle clamping part 201 is configured to be a structure protruding outwards from the edge of the floor body 1, and the sub buckle clamping part 202 is formed at the bottom of the corresponding edge of the floor body 1;

when the sub-buckle clamping parts 202 of the adjacent floor bodies 1 are clamped with the corresponding female buckle clamping parts 201, the corresponding edges of the adjacent floor bodies 1 are attached to each other;

a female buckle side limiting hole 203 is formed in the position between the adjacent female buckle clamping parts 201 along the corresponding edge of the floor body 1 in an outward protruding manner;

a sub-buckle side limiting body 204 matched with the corresponding female buckle side limiting hole 203 is arranged at the position between the adjacent sub-buckle clamping parts 202 and positioned at the bottom of the floor body 1;

when the adjacent floor bodies 1 are spliced, the sub-buckle side limiting bodies 204 are embedded into the corresponding female buckle side limiting holes 203.

Specifically, this embodiment discloses a novel spliced suspended floor, which includes a floor body 1, and according to conventional design, the floor body 1 of this embodiment is also designed into a quadrilateral floor structure, and more preferably a square floor. In order to connect adjacent floating floors, the edges of the floor body 1 are designed with a female buckle clamping part 201 and a male buckle clamping part 202, and more preferably, two adjacent edges of the floor body 1 are designed with a female buckle clamping part 201, and two other adjacent edges are designed with a male buckle clamping part 202, so that a plurality of floating floors can be spliced conveniently. Due to the design of the positions of the female buckle lap joint part 201 and the male buckle lap joint part 202, the male buckle clamping part 203 can be ensured to be completely covered on the female buckle clamping part 201, so that the side edges of the spliced adjacent suspended floors can be ensured to be mutually attached, and the distance between the adjacent suspended floors is reduced.

Meanwhile, the floor body 1 of this embodiment further designs a female buckle side limiting hole 203 and a male buckle side limiting body 204 located on the sides of the female buckle clamping portion 201 and the male buckle clamping portion 202 respectively, and can ensure the clamping alignment of the clamping portion through the female buckle side limiting hole 203 and the male buckle side limiting body 204, and can utilize the female buckle side limiting hole 203 and the male buckle side limiting body 204 to realize further clamping connection, so that the connection stability of the adjacent floor bodies 1 is improved.

Preferably, the upper surface of the female buckle clamping part 201 of the embodiment is lower than the upper surface of the floor body 1;

when the sub-buckle clamping parts 202 of the adjacent floor bodies 1 are clamped with the corresponding female buckle clamping parts 201, the upper surfaces of the adjacent floor bodies 1 are flush.

Preferably, a plurality of groups of female buckle clamping parts 201 are arranged on the same edge of the floor body 1 at intervals, the female buckle clamping parts 201 comprise female buckle side clamping round holes 20102 positioned in the middle of the female buckle clamping parts, and modeling parts 20101 with one ends connected with the floor body 1 and the other ends connected with the outer walls of the female buckle side clamping round holes 20102;

the modeling parts 20101 are configured into a corrugated or bent structure, and one end of each modeling part 20101 at two sides far away from the floor body 1 is connected with a female buckle side clamping round hole 20102; in this embodiment, the explanation is made by using the S-shaped modeling portion 20101, where the S-shaped modeling portion has a relatively large expansion resistance, can absorb most of heat expansion and cold contraction of the plate, and ensures that the gap between the adjacent floor bodies 1 is minimum after the adjacent floor bodies are spliced, and has an attractive appearance.

A plurality of sub-buckle clamping parts 202 matched with the female buckle side clamping round holes 20102 of the female buckle clamping parts 201 are arranged on the same edge of the floor body 1 at intervals, the sub-buckle clamping parts 202 are configured into a cylindrical structure with an open slot in the middle, and the sub-buckle clamping parts 202 can be embedded into the female buckle side clamping round holes 20102.

The specific positions and specific structures of the female snap lock portion 201 and the male snap lock portion 202 are further defined, the female snap lock portion 201 of the present embodiment adopts two molding portions 20101 to support a structure of one female snap lock side clamping circular hole 20102 to realize the clamping connection with the cylindrical structure of the corresponding side of the male snap lock portion 202, the male snap lock portion 202 of the present embodiment adopts a cylindrical structure with an open slot in the middle, and according to the opening condition of the open slot, a limit is formed when the male snap lock portion 202 is embedded into the female snap lock side clamping circular hole 20102 to complete the clamping.

In order to improve the overall structural stability of the floor body 1, the bottom surface of the floor body 1 of the embodiment encloses a plurality of cavities distributed in an array through the supporting ribs 301;

the junction of the support ribs 301 of the adjacent cavities projects toward the side away from the floor body 1 with the support cylinders 303 being configured as hollow tubular support cylinders along the axial direction thereof, and the floor body 1 is supported on the ground by a plurality of support cylinders 303.

Secondly, the cavity of the embodiment is provided with a cross support 302, and the cross support 302 protrudes from the middle position of the corresponding support rib 301;

each cavity of the floor body 1 has a plurality of surface layer supporting parts 304 arranged in a crossing manner;

a supporting block 305 is protruded in the middle of the supporting rib 301 between the adjacent cavities, and the protruded height of the supporting block 305 is consistent with the height of the cross-shaped support 302.

A plurality of groups of Chinese character 'mi' shaped units 101 are formed on the surface of the floor body 1 in an array manner, and a plurality of hollow holes 102 are formed in each group of Chinese character 'mi' shaped units 101; every four groups of the m-shaped units 101 form a cavity at the bottom of the floor body 1, and the hollowed-out holes 102 are communicated with the corresponding cavities.

In order to facilitate drainage, the surface of the floor body 1 of the present embodiment is provided with the hollow holes 102, and the space between the female buckle clamping portion 201 and the female buckle side limiting hole 203 is configured as the drainage groove 103 communicating with the corresponding cavity.

In order to further improve the anti-slip effect and to improve the aesthetic appearance, the surface treatment of the floor body 1 of the present embodiment is formed as stone protrusions or leather protrusions.

In the technical scheme, the spliced suspended floor provided by the utility model has the following beneficial effects:

the unique snap-in joint part design of the suspension floor can reduce the distance between adjacent suspension floors after the adjacent suspension floors are spliced, a plurality of support cylinders 303 are arranged at the bottom in an array manner, cross supports 302 and support blocks 305 are arranged, and the contact area between the support cylinders 303, the cross supports 302 and the support blocks 305 and the ground can be increased, so that the integral sliding during use is avoided; the design of the hollowed-out hole 102 and the drainage groove 103 can improve the drainage effect.

While certain exemplary embodiments of the present utility model have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the utility model. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the utility model, which is defined by the appended claims.

Claims (5)

1. A splice-type floating floor, characterized in that the floating floor comprises:

-a floor body (1), the floor body (1) being configured as a quadrangular floor structure; and

the clamping structure is formed in the circumferential direction of the floor body (1);

the clamping structure is divided into a female buckle clamping part (201) and a male buckle clamping part (202), the female buckle clamping part (201) is formed at two edges of the floor body (1), and the male buckle clamping part (202) is formed at the other two edges of the floor body (1);

adjacent floating floors are clamped by the female buckle clamping parts (201) and the corresponding sub buckle clamping parts (202);

the female buckle clamping part (201) is configured into a structure protruding outwards from the edge of the floor body (1), and the sub buckle clamping part (202) is formed at the bottom of the corresponding edge of the floor body (1);

when the sub-buckle clamping parts (202) of the adjacent floor bodies (1) are clamped with the corresponding female buckle clamping parts (201), the corresponding edges of the adjacent floor bodies (1) are attached to each other;

a female buckle side limiting hole (203) protrudes outwards along the corresponding edge of the floor body (1) at a position between the adjacent female buckle clamping parts (201);

a sub-buckle side limiting body (204) matched with the corresponding female buckle side limiting hole (203) is arranged at the bottom of the floor body (1) at a position between the adjacent sub-buckle clamping parts (202);

when adjacent floor bodies (1) are spliced, the sub-buckle side limiting bodies (204) are embedded into the corresponding female buckle side limiting holes (203);

the upper surface of the female buckle clamping part (201) is lower than the upper surface of the floor body (1);

when the sub-buckle clamping parts (202) adjacent to the floor body (1) are clamped with the corresponding female buckle clamping parts (201), the upper surfaces of the adjacent floor bodies (1) are flush;

a plurality of groups of female buckle clamping parts (201) are arranged on the same edge of the floor body (1) at intervals, the female buckle clamping parts (201) comprise female buckle side clamping round holes (20102) positioned in the middle of the female buckle clamping parts, and modeling parts (20101) with one ends connected with the floor body (1) and the other ends connected with the outer walls of the female buckle side clamping round holes (20102);

the modeling parts (20101) are configured into corrugated or bent structures, and one end, far away from the floor body (1), of each modeling part (20101) on two sides is connected with one female buckle side clamping round hole (20102);

a plurality of sub-buckle clamping parts (202) matched with the female buckle side clamping round holes (20102) of the female buckle clamping parts (201) are arranged on the same edge of the floor body (1) at intervals, the sub-buckle clamping parts (202) are configured into a cylinder structure with an open slot in the middle, and the sub-buckle clamping parts (202) can be embedded into the female buckle side clamping round holes (20102);

the bottom surface of the floor body (1) is surrounded by a plurality of cavities distributed in an array through supporting ribs (301);

a supporting cylinder (303) protrudes towards one side far away from the floor body (1) at the junction of the supporting ribs (301) of the adjacent cavities, the supporting cylinder (303) is configured into a tubular supporting cylinder (303) which is hollow along the axial direction of the supporting cylinder, and the floor body (1) is supported on the ground through a plurality of supporting cylinders (303);

the cavity is internally provided with a cross support (302), and the cross support (302) protrudes out of the middle position of the corresponding support rib (301);

each cavity of the floor body (1) is internally provided with a plurality of surface layer supporting parts (304) which are arranged in a crossing way;

and supporting blocks (305) are protruded at the middle positions of the supporting ribs (301) between the adjacent cavities, and the protruded heights of the supporting blocks (305) are consistent with the heights of the cross-shaped supports (302).

2. A splice-type floating floor according to claim 1, characterized in that the box-side limiting hole (203) is configured as a oblong hole;

the sub-buckle side limiter (204) is configured as a strip-shaped structure matched with the oblong hole.

3. The spliced suspended floor according to claim 1, wherein a plurality of groups of rice-shaped units (101) are formed on the surface of the floor body (1) in an array manner, and a plurality of hollowed holes (102) are formed in each group of rice-shaped units (101);

every four groups of the rice-shaped units (101) form a cavity at the bottom of the floor body (1), and the hollowed holes (102) are communicated with the corresponding cavities.

4. A splice-type floating floor according to claim 3, characterized in that the space between the box-clamp connection (201) and the box-side limiting hole (203) is configured as a drain channel (103) communicating with the corresponding cavity.

5. A spliced floating floor according to claim 1, characterized in that the surface treatment of the floor body (1) is formed as a leather embossing.