CN212358982U - Plug-in type lock catch elastic floor - Google Patents

Abstract

The utility model provides a plug-in type locking elastic floor, which comprises an elastic floor and a plug-in product structure connected between two adjacent elastic floors; the elastic floor comprises a substrate layer and a decorative layer, wherein the lower parts of two sides of the substrate layer are provided with a plug-in assembly groove structure, and two adjacent plug-in assembly groove structures are buckled and connected with a plug-in product structure; the structure of the plug-in product is a continuous structure or a discontinuous structure in the longitudinal axis direction; the cross section of the plug-in assembly groove structure is L-shaped or C-shaped; the outer edge of the base material layer is provided with a lower bulge; the cross section of the plug-in product structure is of a single-side type or a double-side type; the two sides of the strip-shaped body part on the plug-in product structure are symmetrically provided with upper bulges, and the upper bulges are clamped into the plug-in assembly groove structure; a long groove is formed between the protrusions on the two sides and the body part, and the lower protrusion is clamped in the space of the long groove. The utility model discloses the intensity of mating formation is high, and the appearance is pleasing to the eye, and application range is wide, and installation and construction is swift, maintenance is convenient, and the performance of mating formation is superior, environmental protection regeneration, long service life, ultra-thin ultralight.

Description

Plug-in type lock catch elastic floor

Technical Field

The utility model relates to a floor technical field particularly, especially relates to a bayonet hasp resilient floor.

Background

With the improvement of energy-saving and environment-friendly concept of consumers, the energy-saving policy of main national buildings comes out one after another, and consumers select more decorative materials which are safe, environment-friendly, comfortable, attractive and have good performance in the decoration process of purchasing new houses or secondarily modifying houses. Meanwhile, with the increasing of the protection of international main timber producing countries on forest resources, the increasing of attack strength of main developed countries on illegal timber felling and trading, the tightening situation of timber output is presented, and certain restriction is generated on the application of the traditional solid wood and solid wood composite floor. In a comprehensive view, the elastic floor product with the advantages of natural resource saving, environmental protection, high cost performance and the like well conforms to the environmental protection concept of consumers in a new era and becomes an important growth point of the ground decoration material market.

The elastic floor is generally formed by hot pressing of substrate layers, color film layers, wear-resistant layers, UV layers and other structural layers, and has the advantages of environmental protection, deformation resistance, water and moisture resistance, scratch resistance, skid resistance and the like. The traditional elastic floor is paved and matched in a lap joint locking mode, two matched floors are directly grooved, and the two floors are fastened in a lap joint mode. The traditional locking manner has insufficient lap joint strength; the requirement on the performance of the floor is high, and the processing cost is high; the service life is low; the overall feeling of the feet is weak, and the like.

SUMMERY OF THE UTILITY MODEL

According to the traditional elastic floor paving and matching, a lap joint locking mode is adopted, two matched floors are directly grooved and fastened in a lap joint mode. The traditional locking manner has insufficient lap joint strength; the requirement on the performance of the floor is high, and the processing cost is high; the service life is low; the overall foot feeling is weak, and the like, thereby providing an insertion type locking elastic floor. The utility model discloses mainly utilize the plug-in components assembly groove and the plug-in components product structure cooperation that set up on splicing two floors each other to be connected, utilize two adjacent elastic floor to realize mating formation on floor through penetrating the buckle convolution mode of mating formation.

The utility model discloses a technical means as follows:

a plug-in type locking elastic floor comprises an elastic floor and a plug-in product structure connected between two adjacent elastic floors; the elastic floor comprises a substrate layer and a decorative layer, a plug-in assembly groove structure is arranged below two sides of the substrate layer, and two adjacent plug-in assembly groove structures on two elastic floors are connected with the plug-in product structure in a buckling manner;

the insert product structure is a continuous structure or a discontinuous structure in the longitudinal axis direction;

the distribution mode of the two adjacent rows of plug-in product structures in the direction of the transverse axis is that continuous structures are distributed at intervals side by side, or discontinuous structures are distributed at intervals side by side, or the continuous structures and the discontinuous structures are combined and distributed at intervals side by side;

the plug-in assembling groove structure is a long groove structure, and the cross section of the long groove structure is L-shaped or C-shaped; the outer edge of the substrate layer is provided with a lower bulge, the lower bulge is close to the plug-in assembly groove structure, and the edge curved surface on one side of the plug-in assembly groove structure and the edge curved surface on one side of the lower bulge are positioned on the same curved surface;

the plug-in product structure is a strip-shaped structure, and the cross section of the strip-shaped structure is of a single-side type or a double-side type; the bottom of the plug-in product structure is provided with a strip-shaped body part, two sides of the body part are symmetrically provided with upper bulges, and the upper bulges are clamped into the plug-in assembly groove structure; a long groove is formed between the upper bulges at the two sides and the body part, and the lower bulges are clamped in the space of the long groove;

the bottom structure of the plug-in product structure is square or circular arc.

Further, the structure of the single-side plug-in product is matched and connected with the structure of the L-shaped plug-in assembly groove; the double-side plug-in product structure is matched and connected with the C-shaped plug-in assembly groove structure;

the opening of the L-shaped plug-in component assembly groove structure is downward, and the top of the L-shaped plug-in component assembly groove structure is provided with a gamma-type structure facing the outside; the C-type plug-in assembly groove structure is a T-type structure with a downward opening or a C-type structure with a downward opening and a horizontally inverted top;

the single-side plug-in product structure is a gamma-type structure which is symmetrically arranged at the left side and the right side and the upper bulges face the inside; the double-side plug-in product structure is characterized in that the upper bulges symmetrically arranged on the left side and the right side are T-type structures.

Further, go up the below of bellied one side or both sides and be equipped with first hypotenuse, the below of one side or both sides of plug-in components assembly groove structure is equipped with the second hypotenuse, first hypotenuse with the second hypotenuse is connected with the cooperation, just first hypotenuse with the angle of inclination of second hypotenuse is the same.

Furthermore, the cross section shapes of the plug-in assembly groove structures on two sides of the same elastic floor are both L-shaped or C-shaped, or are respectively L-shaped and C-shaped; the structures of the plug-in component assembly groove structures on the adjacent sides of two adjacent elastic floors are the same.

Further, when the cross-sectional shape of the card assembly groove structure is L-shaped, the width W5 of the long groove structure is 1.5-9mm, the opening width W6 of the long groove structure is 2-8mm, the width W7 of the lower protrusion is 1-8mm, and the height H3 of the lower protrusion is 2-10 mm;

when the cross section of the plug assembling groove structure is C-shaped, the width W5 of the long groove structure is 2.5-10mm, the opening width W6 of the long groove structure is 2-8mm, the width W7 of the lower protrusion is 1-8mm, and the height H3 of the lower protrusion is 2-10 mm.

Further, when the cross-sectional shape of the card product structure is a single-sided type, the opening width W1 of the long groove is 2-20mm, the width W2 of the body is 3-24mm, the width W3 of the long groove is 2.5-21mm, the depth H1 of the long groove is 1-6mm, and the height H2 of the card product structure is 2-12 mm;

when the cross-sectional shape of plug-in components product structure is the bilateral type, the opening width W1 of long recess is 2-20mm, the width W2 of somatic part is 3-24mm, the width W3 of long recess is 2.5-21mm, two go up bellied total width W4 and be 4-25mm, the degree of depth H1 of long recess is 1-6mm, the height H2 of plug-in components product structure is 2-12 mm.

Furthermore, the plug-in product structure is made of a plastic material or a metal material.

Further, the bottom surface of the insert product structure and the bottom surface of the resilient floor are located at the same horizontal plane.

The utility model also provides a method of mating formation on bayonet hasp elastic floor, including following step:

preparing two elastic floors to be spliced, namely a first elastic floor and a second elastic floor; selecting a plug-in product structure with matched model according to the structural model of the plug-in assembly groove structures on the splicing sides of the two elastic floors;

step two, one side of the plug-in product structure is inserted or clamped into the first elastic floor to be spliced in advance, and the plug-in product structure is connected with the first plug-in assembly groove structure on one side of the first elastic floor in a buckling mode;

the first lower bulge of the first elastic floor is inserted into or clamped into one side of the long groove of the plug-in product structure, and the upper bulge of the plug-in product structure on the same side as the first lower bulge is inserted into or clamped into the first plug-in assembly groove structure;

thirdly, placing the connected first elastic floor and the plug-in product structure at a preset position of the ground where the floor is to be laid;

inserting or clamping the adjacent second elastic floor boards on the other side of the plug-in product structure to finish the paving between the two elastic floor boards;

the plug-in product structure is buckled and connected with a second plug-in assembly groove structure on one side of the second elastic floor, a second lower bulge of the second elastic floor is inserted into or clamped and installed on the other side of the long groove of the plug-in product structure, and an upper bulge of the plug-in product structure on the same side of the second lower bulge is inserted into or clamped and installed in the second plug-in assembly groove structure;

and step five, when the plurality of elastic floors are paved, splicing the adjacent elastic floors on the other side of the second elastic floor according to the steps to finish the paving of the plurality of elastic floors.

Compared with the prior art, the utility model has the advantages of it is following:

1. the paving strength is high:

the inserted locking elastic floor is adopted, and after splicing, the overall strength is high.

2. The appearance is beautiful:

the inserted locking elastic floor is adopted, the splicing gap is flat and compact, the appearance is attractive, and the product is more easily accepted.

3. The application range is wide:

the elastic floor board with the plug-in lock catch is suitable for different materials and different thicknesses, and has wider application range.

4. The installation and construction are quick, and the maintenance is convenient:

the elastic floor board with the plug-in lock catch has the advantages of consistent floor board blocks, consistent peripheral groove structures, convenience in processing and control, quickness in installation and construction and convenience in maintenance.

5. The paving performance is excellent:

the inserted locking elastic floor is adopted, and after the floor is paved, the waterproof, sealing, deformation-resistant and moisture-proof performances are excellent.

6. Environmental protection and regeneration:

the inserted locking elastic floor can be regenerated and reused, and has great significance for protecting the natural and ecological environment.

7. The service life is long:

the plug-in type locking elastic floor is adopted, the splicing quality is stable, the strength is reliable, and the whole service life is long.

8. Ultra-thin and ultra-light:

the inserted locking elastic floor board has thickness of 5-12mm and weight of 30% of common floor decorating material, and has incomparable advantages in high building, such as bearing stairs and saving space.

To sum up, use the technical scheme of the utility model traditional resilient floor who can solve among the prior art mating formation cooperation adopts the overlap joint hasp mode, directly slots on two matched floors, through the overlap joint mode straining. The traditional locking manner has insufficient lap joint strength; the requirement on the performance of the floor is high, and the processing cost is high; the service life is low; the overall feeling of the feet is weak, and the like.

Based on the above reason the utility model discloses can extensively promote in fields such as indoor land used surface pavement.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

Fig. 1 is a schematic structural view of the middle resilient floor of the present invention.

Fig. 2 is a schematic structural view of the structure of the square single-sided plug-in unit inserted between the resilient floors of the present invention.

Fig. 3 is a schematic structural view of the structure of the square double-sided insert product penetrating between the elastic floors of the present invention.

Fig. 4 is a schematic structural view of the structure of the elastic floor board of the present invention, in which the arc-shaped single-sided plug-in is inserted.

Fig. 5 is a schematic structural view of the structure of the circular arc double-sided plug-in unit inserted between the elastic floors of the present invention.

Fig. 6 is a drawing of the penetrating layout of the product structure of the interposer of the present invention, wherein (a) is the spacing layout of the continuous structure, (b) is the spacing layout of the discontinuous structure, (c) is the spacing cross layout of the discontinuous structure, and (d) is the spacing layout of the combination of the continuous structure and the discontinuous structure.

Fig. 7 is a schematic structural diagram of the structure of the middle plug-in unit of the present invention, wherein (a) is a square single-sided plug-in unit structure, (b) is a square double-sided plug-in unit structure, (c) is an arc single-sided plug-in unit structure, and (d) is an arc double-sided plug-in unit structure.

Fig. 8 is a schematic structural view of the L-shaped plug-in mounting groove structure of the present invention.

Fig. 9 is a schematic structural view of the C-shaped plug-in mounting groove structure of the present invention.

In the figure: 1. a substrate layer; 2. a decorative layer; 3. a plug-in assembly slot structure; 4. a plug-in product structure; 11. a first resilient floor; 12. a second resilient floor; 31. an L-shaped plug-in assembly groove structure; 32. C type plug-in components assembly groove structure.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-9, the utility model provides a plug-in type locking elastic floor, which is a floor for indoor pavement, belonging to a floor paving material for indoor pavement, comprising an elastic floor and a plug-in product structure 4 connected between two adjacent elastic floors; the elastic floor comprises a substrate layer 1 and a decorative layer 2, a plug-in assembly groove structure 3 is arranged below two sides of the substrate layer 1, and two adjacent plug-in assembly groove structures 3 on two elastic floors are connected with a plug-in product structure 4 in a buckling manner;

the insert product structure 4 is a continuous structure or a discontinuous structure in the longitudinal axis direction;

the distribution mode of the two adjacent rows of the plug-in product structures 4 in the direction of the transverse axis is that continuous structures are distributed at intervals side by side, or discontinuous structures are distributed at intervals side by side, or the continuous structures and the discontinuous structures are combined and distributed at intervals side by side;

the plug-in assembly groove structure 3 is a long groove structure, and the cross section of the long groove structure is L-shaped or C-shaped; the outer edge of the substrate layer 1 is provided with a lower bulge, the lower bulge is adjacent to the plug-in assembly groove structure 3, and the edge curved surface on one side of the plug-in assembly groove structure 3 and the edge curved surface on one side of the lower bulge are positioned on the same curved surface;

the plug-in product structure 4 is a strip-shaped structure, and the cross section of the strip-shaped structure is of a single-side type or a double-side type; the bottom of the plug-in product structure 4 is provided with a strip-shaped body part, two sides of the body part are symmetrically provided with upper bulges, and the upper bulges are clamped into the plug-in assembly groove structure 3; a long groove is formed between the upper bulges at the two sides and the body part, and the lower bulges are clamped in the space of the long groove;

the bottom structure of the plug-in product structure 4 is square or circular arc.

Preferably, the single-sided plug-in product structure 4 is connected with the L-shaped plug-in assembly groove structure 31 in a matching manner; the double-sided plug-in product structure 4 is connected with the C-shaped plug-in assembly groove structure 32 in a matching way;

the opening of the L-shaped plug-in mounting groove structure 31 faces downwards, and the top of the L-shaped plug-in mounting groove structure is a gamma-type structure facing outwards; the C-type plug-in mounting slot structure 32 is a type-t structure with a downward opening or a type-C structure with a downward opening and a horizontally inverted top (i.e., a shape after a C-shape is rotated 90 ° clockwise);

the single-side plug-in product structure 4 is a gamma-type structure with the upper bulges facing inwards and symmetrically arranged on the left side and the right side; the double-side plug-in product structure 4 is a T-type structure with upper protrusions symmetrically arranged on the left side and the right side.

Preferably, go up the below of bellied one side or both sides and be equipped with first hypotenuse, the below of one side or both sides of plug-in components assembly groove structure 3 is equipped with the second hypotenuse, first hypotenuse with the second hypotenuse is connected with the cooperation, just first hypotenuse with the angle of inclination of second hypotenuse is the same.

Preferably, the cross-sectional shapes of the plug-in assembly groove structures 3 on both sides of the same elastic floor are both L-shaped or C-shaped, or are L-shaped and C-shaped respectively; the structure of the plug-in mounting groove structures 3 on the adjacent sides of two adjacent resilient floor boards is the same.

Preferably, when the cross-sectional shape of the card assembly slot structure 3 is L-shaped, the width W5 of the long slot structure is 1.5-9mm, the opening width W6 of the long slot structure is 2-8mm, the width W7 of the lower protrusion is 1-8mm, and the height H3 of the lower protrusion is 2-10 mm;

when the cross-sectional shape of the card assembly groove structure 3 is C-shaped, the width W5 of the long groove structure is 2.5-10mm, the opening width W6 of the long groove structure is 2-8mm, the width W7 of the lower protrusion is 1-8mm, and the height H3 of the lower protrusion is 2-10 mm.

Preferably, when the cross-sectional shape of the card product structure 4 is a single-sided type, the opening width W1 of the long groove is 2-20mm, the width W2 of the body is 3-24mm, the width W3 of the long groove is 2.5-21mm, the depth H1 of the long groove is 1-6mm, and the height H2 of the card product structure 4 is 2-12 mm;

when the cross-sectional shape of plug-in product structure 4 is the bilateral type, the opening width W1 of long recess is 2-20mm, the width W2 of somatic part is 3-24mm, the width W3 of long recess is 2.5-21mm, two go up bellied total width W4 and be 4-25mm, the degree of depth H1 of long recess is 1-6mm, the height H2 of plug-in product structure 4 is 2-12 mm.

Preferably, the material of the insert product structure 4 is a plastic material or a metal material.

Preferably, the bottom surface of the insert product structure 4 is located at the same level as the bottom surface of the resilient floor.

Example 1

As shown in the figure, the utility model also provides a method of mating formation of bayonet hasp elastic floor, including following step:

preparing two elastic floors to be spliced, namely a first elastic floor 11 and a second elastic floor 12; selecting a plug-in product structure 4 with a matched model according to the model of the plug-in assembly groove structures 3 on the splicing sides of the two elastic floors;

step two, one side of the plug-in product structure 4 is inserted or clamped into the first elastic floor 11 to be spliced in advance, and the plug-in product structure 4 is connected with the first plug-in assembly groove structure 3 on one side of the first elastic floor 11 in a buckling manner;

the first lower bulge of the first elastic floor 11 is inserted into or clamped into one side of the long groove of the plug-in product structure 4, and the upper bulge of the plug-in product structure 4 on the same side as the first lower bulge is inserted into or clamped into the first plug-in assembly groove structure 3;

thirdly, placing the connected first elastic floor 11 and the plug-in product structure 4 on a preset position of the ground where the floor is to be laid;

fourthly, inserting or clamping the adjacent second elastic floor boards 12 on the other side of the plug-in product structure 4 to finish the pavement between the two elastic floor boards, namely paving the floor boards by penetrating the two adjacent elastic floor boards in a buckle combined type pavement mode;

the plug-in product structure 4 is connected with the second plug-in assembly groove structure 3 on one side of the second elastic floor 12 in a buckling manner, the second lower bulge of the second elastic floor 12 is inserted into or clamped into the other side of the long groove of the plug-in product structure 4, and the upper bulge of the plug-in product structure 4 on the same side as the second lower bulge is inserted into or clamped into the second plug-in assembly groove structure 3;

and step five, when the plurality of elastic floors are paved, splicing the adjacent elastic floors on the other side of the second elastic floor 12 according to the steps to finish the paving of the plurality of elastic floors.

Example 2

As shown in fig. 2 and fig. 7(a), in the present embodiment, the cross-sectional shape of the insert product structure 4 is a single-sided type, and the bottom structure thereof is a square. Wherein the opening width W1 of the long groove is 2mm, the width W2 of the body is 3mm, the width W3 of the long groove is 2.5mm, the depth H1 of the long groove is 1mm, and the height H2 of the card product structure 4 is 2 mm.

The cross-sectional shapes of the insert-fitting groove structures 3 of the first resilient floor 11 and the second resilient floor 12 are both L-shaped, as shown in fig. 8. The cross-sectional shapes of the plug-in mounting groove structures 3 on two sides of the same elastic floor are both L-shaped, the opening of the L-shaped plug-in mounting groove structure 31 faces downwards, and the top of the L-shaped plug-in mounting groove structure is a gamma-shaped structure facing outwards. The width W5 of the long groove structure is 1.5mm, the opening width W6 of the long groove structure is 2mm, the width W7 of the lower protrusion is 1mm, and the height H3 of the lower protrusion is 2 mm.

In this embodiment, the insert product structure 4 spliced between any two elastic floor boards is a continuous structure in the longitudinal axis direction. The two adjacent rows of card product structures 4 are distributed in a manner that the continuous structures are spaced side by side in the transverse axis direction, as shown in fig. 6 (a).

Example 3

As shown in fig. 3 and 7(b), in the present embodiment, the cross-sectional shape of the insert product structure 4 is a double-sided type, and the bottom structure thereof is a square. Wherein the opening width W1 of the long groove is 2mm, the width W2 of the body is 3mm, the width W3 of the long groove is 2.5mm, the total width W4 of the two upper protrusions is 4mm, the depth H1 of the long groove is 1mm, and the height H2 of the card product structure 4 is 2 mm.

The cross-sectional shapes of the insert-fitting groove structures 3 of the first resilient floor 11 and the second resilient floor 12 are both C-shaped, as shown in fig. 9. The cross-sectional shapes of the plug-in mounting groove structures 3 on both sides of the same elastic floor are both C-type, and the C-type plug-in mounting groove structure 32 is a t-type structure with a downward opening. The width W5 of the long groove structure is 2.5mm, the opening width W6 of the long groove structure is 2mm, the width W7 of the lower protrusion is 1mm, and the height H3 of the lower protrusion is 2 mm.

In this embodiment, the plug-in product structures 4 spliced between any two elastic floors are all the same discontinuous structures in the longitudinal axis direction. The two adjacent rows of card product structures 4 are distributed in a non-continuous manner along the transverse axis, with the non-continuous structures spaced side-by-side, as shown in fig. 6 (b).

Example 4

As shown in fig. 4 and fig. 7(c), in this embodiment, the cross-sectional shape of the insert product structure 4 is a single-sided shape, and the bottom structure thereof is a circular arc shape. Wherein the opening width W1 of the long groove is 20mm, the width W2 of the body is 24mm, the width W3 of the long groove is 21mm, the depth H1 of the long groove is 6mm, and the height H2 of the card product structure 4 is 12 mm.

The cross-sectional shapes of the insert-fitting groove structures 3 of the first resilient floor 11 and the second resilient floor 12 are both L-shaped, as shown in fig. 8. The cross-sectional shapes of the plug-in mounting groove structures 3 on two sides of the same elastic floor are both L-shaped, the opening of the L-shaped plug-in mounting groove structure 31 faces downwards, and the top of the L-shaped plug-in mounting groove structure is a gamma-shaped structure facing outwards. The width W5 of the long groove structure is 9mm, the opening width W6 of the long groove structure is 8mm, the width W7 of the lower protrusion is 8mm, and the height H3 of the lower protrusion is 10 mm.

In this embodiment, the two adjacent rows of card product structures 4 are distributed in a non-continuous manner in the direction of the transverse axis, and the card product structures 4 spliced between any two elastic floors are non-continuous structures in the direction of the longitudinal axis, but the two adjacent rows of card product structures 4 have different non-continuous structures and are arranged in a cross manner. As shown in fig. 6 (c).

Example 5

As shown in fig. 5 and 7(d), in this embodiment, the cross-sectional shape of the insert product structure 4 is a double-sided shape, and the bottom structure thereof is a circular arc shape. Wherein the opening width W1 of the long groove is 20mm, the width W2 of the body is 24mm, the width W3 of the long groove is 21mm, the total width W4 of the two upper protrusions is 25mm, the depth H1 of the long groove is 6mm, and the height H2 of the card product structure 4 is 12 mm.

The cross-sectional shapes of the insert-fitting groove structures 3 of the first resilient floor 11 and the second resilient floor 12 are both C-shaped, as shown in fig. 9. The cross section shapes of the plug-in assembly groove structures 3 on two sides of the same elastic floor are C-shaped, and the C-shaped plug-in assembly groove structures 32 are C-shaped structures with downward openings and horizontally inverted tops. The width W5 of the long groove structure is 10mm, the opening width W6 of the long groove structure is 8mm, the width W7 of the lower protrusion is 8mm, and the height H3 of the lower protrusion is 10 mm.

In this embodiment, the insert product structures 4 spliced between two adjacent resilient floors are continuous structures or discontinuous structures in the longitudinal axis direction, and the insert product structures 4 in two adjacent rows are a combination of continuous structures and discontinuous structures in the longitudinal axis direction. The two adjacent rows of card product structures 4 are distributed in the direction of the transverse axis in a manner that the continuous structures and the discontinuous structures are combined and distributed at intervals side by side, as shown in fig. 6 (d).

Example 6

In this embodiment, the insert product structure 4 spliced between any two resilient floor boards is a continuous structure or a discontinuous structure in the longitudinal axis direction. The distribution mode of two adjacent rows of plug-in product structures 4 in the direction of the transverse axis is that continuous structures are distributed at intervals side by side, or discontinuous structures are distributed at intervals side by side, or a combination of the continuous structures and the discontinuous structures are distributed at intervals side by side, wherein any two rows of the plug-in product structures can be in a regular combination mode that the continuous structures and the discontinuous structures are adjacent, or in a regular combination mode that a plurality of rows of continuous structures and one or more rows of discontinuous structures are adjacent, or in a regular combination mode that one or more rows of continuous structures and a plurality of rows of discontinuous structures are adjacent, or in a chaotic combination mode of the continuous structures and the discontinuous structures.

In this embodiment, three resilient floors, namely a first resilient floor 11, a second resilient floor 12, and a third resilient floor, are spliced. The cross-sectional shapes of the plug-in assembly groove structures 3 on the left side and the right side of the same elastic floor board are different and are respectively L-shaped and C-shaped, the opening of the L-shaped plug-in assembly groove structure 31 faces downwards, the top of the L-shaped plug-in assembly groove structure faces outwards, and the C-shaped plug-in assembly groove structure 32 is a T-shaped structure with a downward opening or a C-shaped structure with a downward opening and a horizontally inverted top.

The L-shaped insert fitting groove structure 31 of the first resilient floor panel 11 is adjacent to the L-shaped insert fitting groove structure 31 of the second resilient floor panel 12 and the C-shaped insert fitting groove structure 32 of the second resilient floor panel 12 is adjacent to the C-shaped insert fitting groove structure 32 of the third resilient floor panel. The single-side type plug-in product structure 4 is inserted or clamped between the first elastic floor 11 and the second elastic floor 12, and the double-side type plug-in product structure 4 is inserted or clamped between the second elastic floor 12 and the third elastic floor.

In the L-shaped card assembly slot structure 31, the width W5 of the long slot structure is 5.25mm, the opening width W6 of the long slot structure is 5mm, the width W7 of the lower protrusion is 4.5mm, and the height H3 of the lower protrusion is 6 mm. In the C-shaped card assembly slot structure 32, the width W5 of the long slot structure is 6.25mm, the opening width W6 of the long slot structure is 5mm, the width W7 of the lower protrusion is 4.5mm, and the height H3 of the lower protrusion is 6 mm.

In this embodiment, the bottom structure of the single-sided card product structure 4 connected between the first resilient floor 11 and the second resilient floor 12 is square, wherein the opening width W1 of the long groove is 11mm, the width W2 of the body portion is 13.5mm, the width W3 of the long groove is 11.75mm, the depth H1 of the long groove is 3.5mm, and the height H2 of the card product structure 4 is 7 mm.

The double-sided card product structure 4 connected between the second resilient floor 12 and the third resilient floor has a circular arc-shaped bottom structure, wherein the width W1 of the opening of the long groove is 11mm, the width W2 of the body is 13.5mm, the width W3 of the long groove is 11.75mm, the total width W4 of the two upper protrusions is 14.5mm, the depth H1 of the long groove is 3.5mm, and the height H2 of the card product structure 4 is 7 mm.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (8)

1. A plug-in type locking elastic floor is characterized by comprising an elastic floor and a plug-in product structure (4) connected between two adjacent elastic floors; the elastic floor comprises a substrate layer (1) and a decorative layer (2), a plug-in assembly groove structure (3) is arranged below two sides of the substrate layer (1), and two adjacent plug-in assembly groove structures (3) on two elastic floors are connected with the plug-in product structure (4) in a buckling manner;

the insert product structure (4) is a continuous structure or a discontinuous structure in the longitudinal axis direction;

the distribution mode of the two adjacent rows of plug-in product structures (4) in the direction of the transverse axis is that continuous structures are distributed at intervals side by side, or discontinuous structures are distributed at intervals side by side, or the continuous structures and the discontinuous structures are combined and distributed at intervals side by side;

the plug-in assembling groove structure (3) is a long groove structure, and the cross section of the long groove structure is L-shaped or C-shaped; the outer edge of the substrate layer (1) is provided with a lower bulge, the lower bulge is adjacent to the plug-in assembly groove structure (3), and the edge curved surface on one side of the plug-in assembly groove structure (3) and the edge curved surface on one side of the lower bulge are positioned on the same curved surface;

the plug-in product structure (4) is a strip-shaped structure, and the cross section of the strip-shaped structure is of a single-side type or a double-side type; the bottom of the plug-in product structure (4) is provided with a strip-shaped body part, two sides of the body part are symmetrically provided with upper bulges, and the upper bulges are clamped into the plug-in assembly groove structure (3); a long groove is formed between the upper bulges at the two sides and the body part, and the lower bulges are clamped in the space of the long groove;

the bottom structure of the plug-in product structure (4) is square or circular arc.

2. The resilient floor of claim 1, wherein the single-sided insert product structure (4) is cooperatively connected with the L-shaped insert assembly groove structure (31); the double-side plug-in product structure (4) is matched and connected with the C-shaped plug-in assembly groove structure (32);

the opening of the L-shaped plug-in mounting groove structure (31) is downward, and the top of the L-shaped plug-in mounting groove structure is a gamma-type structure facing the outside; the C-type plug-in mounting groove structure (32) is a T-type structure with a downward opening or a C-type structure with a downward opening and a horizontally inverted top;

the single-side plug-in product structure (4) is a gamma-type structure which is symmetrically arranged at the left side and the right side and the upper bulges face inwards; the double-side plug-in product structure (4) is characterized in that the upper bulges symmetrically arranged on the left side and the right side are T-type structures.

3. The insert-type snap-lock resilient floor as claimed in claim 1 or 2, wherein a first inclined edge is provided under one or both sides of the upper protrusion, a second inclined edge is provided under one or both sides of the insert-fitting groove structure (3), the first inclined edge and the second inclined edge are connected in a fitting manner, and the inclination angle of the first inclined edge and the second inclined edge is the same.

4. The resilient floor of claim 3, wherein the cross-sectional shape of the insert assembling groove structures (3) on both sides of the same resilient floor is L-shaped or C-shaped, or L-shaped and C-shaped respectively; the structures of the plug-in component assembly groove structures (3) on the adjacent sides of two adjacent elastic floors are the same.

5. The resilient floor of claim 4, wherein the cross-sectional shape of the insert-fitting groove structure (3) is L-shaped, the width W5 of the long groove structure is 1.5-9mm, the opening width W6 of the long groove structure is 2-8mm, the width W7 of the lower protrusion is 1-8mm, and the height H3 of the lower protrusion is 2-10 mm;

when the cross section of the plug-in assembly groove structure (3) is C-shaped, the width W5 of the long groove structure is 2.5-10mm, the opening width W6 of the long groove structure is 2-8mm, the width W7 of the lower protrusion is 1-8mm, and the height H3 of the lower protrusion is 2-10 mm.

6. The resilient floor of claim 1 or 2, wherein the cross-sectional shape of the insert product structure (4) is a single-sided type, the opening width W1 of the long groove is 2-20mm, the width W2 of the body is 3-24mm, the width W3 of the long groove is 2.5-21mm, the depth H1 of the long groove is 1-6mm, and the height H2 of the insert product structure (4) is 2-12 mm;

when the cross-sectional shape of plug-in components product structure (4) is the bilateral type, the opening width W1 of long recess is 2-20mm, the width W2 of somatic part is 3-24mm, the width W3 of long recess is 2.5-21mm, two go up bellied total width W4 and be 4-25mm, the degree of depth H1 of long recess is 1-6mm, the height H2 of plug-in components product structure (4) is 2-12 mm.

7. The resilient floor of claim 1 or 2, wherein the insert product structure (4) is made of plastic or metal.

8. The male snap-lock resilient floor as claimed in claim 7, wherein the bottom surface of the insert product structure (4) is located at the same level as the bottom surface of the resilient floor.

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