CN113417434A

CN113417434A - Assembled ground and installation method thereof

Info

Publication number: CN113417434A
Application number: CN202110805235.8A
Authority: CN
Inventors: 丁欣欣; 周东珊; 丁泽成; 王文广; 余广
Original assignee: Zhejiang Yasha Decoration Co Ltd
Current assignee: Zhejiang Yasha Decoration Co Ltd
Priority date: 2021-07-16
Filing date: 2021-07-16
Publication date: 2021-09-21
Anticipated expiration: 2041-07-16
Also published as: CN113417434B

Abstract

The invention discloses an assembled ground and an installation method thereof, and the assembled ground comprises a bottom supporting frame (1), a ground panel (2) arranged on the bottom supporting frame and a groove sealing strip (3) arranged in the longitudinal side edge area of the ground panel; the bottom supporting frame comprises a floor clamping groove and an adjusting supporting leg arranged on the floor clamping groove; the floor board comprises plate units which are spliced with each other, flexible caulking strips arranged at longitudinal splicing seams of the plate units and plate connecting strips arranged at transverse splicing seams of the plate units; the groove sealing strip is arranged on the bottom supporting frame closest to the wall surface, and comprises a horizontal groove plate, a first side plate and a second side plate, wherein the first side plate is arranged on one side, close to the wall body, of the horizontal groove plate, and the second side plate is arranged on one side, far away from the wall body, of the horizontal groove plate. The assembly type ground installation method is simple and convenient, has high installation efficiency, adopts dry construction, does not need seam beautifying glue, has comfortable foot feel and has a sound insulation function.

Description

Assembled ground and installation method thereof

Technical Field

The invention relates to the technical field of building interior decoration, in particular to an assembly type ground and an installation method thereof.

Background

At present, the building interior decoration industry is vigorously pushing the assembly of building interior decoration, but ground products are still few; the existing fabricated floor still needs to be subjected to seam beautifying in the later period, and although the seam beautifying agent can be used for avoiding damage to the floor caused by water, oil or other dust impurities penetrating into the floor seam, the fabricated plate is easy to vibrate due to impact force, so that seam beautifying glue is easy to fall off, repeated maintenance and replacement are needed in the later period, and great troubles are brought to users; meanwhile, waiting time is needed by adopting later-stage seam beautifying, and the effect of immediate installation and immediate survival cannot be achieved. In addition, assembled ground is because built on stilts characteristic for the ground foot feel variation on ground receives sealed effect and overhead structure's influence, and assembled ground's syllable-dividing effect is also not good, and user's experience is felt and the comfort is relatively poor, has greatly restricted assembled ground's popularization.

Disclosure of Invention

The invention aims to solve the technical problems and provides the fabricated floor which is constructed by a dry method, does not need seam-beautifying glue, has higher installation efficiency, comfortable foot feel and a sound insulation function.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

an assembled floor comprising a bottom support frame, a floor panel disposed on said bottom support frame and a gutter strip disposed in the longitudinal side edge region of said floor panel; the bottom supporting frame comprises a floor clamping groove and an adjusting support leg arranged on the floor clamping groove; the floor board comprises plate units which are spliced with each other, flexible caulking strips arranged at longitudinal splicing seams of the plate units and plate connecting strips arranged at transverse splicing seams of the plate units; the groove sealing strip is arranged on the bottom supporting frame closest to the wall surface, comprises a horizontal groove plate, a first side plate and a second side plate, wherein the first side plate is close to one side of the wall body, the second side plate is far away from one side of the wall body, and the shape of the second side plate is matched with that of the adjacent floor clamping groove.

Preferably, the floor chuck groove comprises a groove bottom plate and groove edges symmetrically arranged on two sides of the groove bottom plate, wherein the groove edges comprise inclined side plates, horizontal edges arranged on the upper portions of the inclined side plates and vertical edges arranged on the horizontal edges.

Preferably, the adjusting support leg comprises a threaded connection part, a base part and a glue applying hole arranged on a central shaft of the adjusting support leg; one side of the base part close to the floor slab is provided with a glue overflow groove, and the upper part of the glue applying hole is provided with an adjusting hole; the threaded connecting part is arranged on the floor clamping groove, and a threaded hole meshed with the threaded connecting part is formed in the floor clamping groove.

Preferably, the adjusting hole is a hexagonal hole.

Preferably, the plate unit comprises a plurality of sound insulation holes which are arranged in the inner area of the body and are longitudinally parallel, and a splicing groove which is arranged at the longitudinal edge part of the body; the groove openings of the splicing grooves face the floor slab, the splicing grooves are matched with the shapes of the adjacent floor clamping grooves, and the width of the groove bottoms of the splicing grooves is larger than that of the horizontal edges.

Preferably, the flexible caulking strip comprises a first caulking part and a second caulking part arranged below the first caulking part, wing edges are symmetrically arranged on two sides of the second caulking part, and an included angle between each wing edge and the second caulking part is upward; the first caulking part is in interference fit with the longitudinal splicing seam.

Preferably, the plate connecting strip comprises a connecting plate, connecting columns symmetrically arranged on two sides of the connecting plate, bayonets arranged at two ends of the connecting plate, and clamping blocks arranged close to the bayonets.

Preferably, the width of the opening of the floor clamping groove is equal to the sum of the thickness of the corresponding groove edge of two adjacent floor blocks and the width of the flexible caulking strip.

Preferably, the flexible caulking strip is made of flexible high polymer material.

Another object of the present invention is to provide a method of installing a fabricated floor.

A method of installing a fabricated floor, comprising the steps of:

arranging bottom support frames in parallel, adjusting the adjusting support legs, and injecting structural adhesive from adhesive applying holes to fix the adjusting support legs on a floor slab;

splicing grooves of the plate units are clamped in floor clamping grooves, two adjacent plate units are arranged in the same floor clamping groove through the splicing grooves, and then flexible caulking strips are arranged in longitudinal splicing seams of the two adjacent plate units; then, plate connecting pieces are arranged in transverse splicing seams of two plates clamped in the same floor clamping groove, connecting columns are inserted into the sound insulation holes, and clamping blocks are arranged in gaps between the floor clamping grooves and the splicing grooves;

and arranging the groove sealing strip in the floor clamping groove closest to the wall body so as to seal the edge of the floor panel.

The invention has the following beneficial effects:

the assembled ground is assembled by arranging the plate units on the bottom support frames which are arranged in parallel, arranging flexible caulking strips at longitudinal splicing seams of the plate units, arranging plate connecting strips at transverse splicing seams of the plate units and finally arranging groove sealing strips on the footing support frames closest to a wall body. The fabricated ground is of an overhead structure, and a sufficient mounting space is reserved between the ground board and the bottom supporting frame and can be used for mounting floor heating facilities; the seam beautifying glue is not needed to be used for seam beautifying treatment, so that the time for waiting for air drying and curing of the seam beautifying glue is saved, the mounting efficiency is increased, the floor panel is convenient to disassemble and assemble, and the plate units can be recycled; in addition, the fabricated floor has better sealing performance under the combined action of the flexible caulking strips, the plate connecting strips and the groove sealing strips, not only has the capability of blocking sound transmission, but also effectively prevents pollutants from entering the interior of the fabricated floor to cause pollution to the plate units and the laid lines.

The flexible caulking strip comprises a first caulking part, a second caulking part and a wing edge, the first caulking part is in interference connection with the longitudinal splicing seam, the stability of connection of the flexible caulking strip and two adjacent plate units is guaranteed, the width of the second caulking part is smaller than that of the first caulking part, the flexible caulking strip is convenient to install in the longitudinal splicing seam, the wing edge increases the friction force of the flexible caulking strip and the adjacent plate units, the ground plates can be tightly spliced, the impact resistance of the whole ground structure is improved, and the bulge of the ground plate connecting seam is prevented.

The adjusting support legs are connected with the bottom supporting frame through threads, and the ground leveling can be realized by adjusting the length of the threaded connection between the adjusting support legs and the bottom supporting frame; meanwhile, the supporting and adjusting feet are provided with glue applying holes, and the supporting and adjusting feet can be firmly fixed on a floor slab through applying structural glue, so that the overall stability and reliability of the ground structure are improved, the ground is ensured not to vibrate violently when being subjected to large impact force, the hollowing feeling when being stepped on the ground is weakened, and the comfort level of the foot feeling is enhanced.

The spliced pole set up in the hole that gives sound insulation in, it is right when playing the connection effect to the plate element the hole tip that gives sound insulation play the supporting role, take place to fracture when the tip that prevents the hole that gives sound insulation receives great impact force.

Drawings

Figure 1 shows the effect of the installation of the fabricated floor,

figure 2 is a schematic view of the bottom support frame,

figure 3 is a schematic view of an adjusting foot,

figure 4 is a schematic view of a plate unit,

figure 5 is a schematic view of the connection of the panel unit to the flexible caulking strip,

figure 6 is a schematic view of a plate joint bar,

figure 7 is a schematic view of the connection of the plate unit and the plate connecting strip,

FIG. 8 is a schematic view of the installation of the capping strip;

wherein, 1 is a bottom supporting frame, 11 is a floor clamping groove, 111 is a groove bottom plate, 112 is a groove edge, 1121 is an inclined side plate, 1122 is a horizontal edge, 1123 is a vertical edge, 113 is a threaded hole, 12 is an adjusting support leg, 121 is a threaded connecting part, 122 is a base part, 123 is a glue applying hole, 124 is an adhesive overflowing groove, 125 is an adjusting hole, 2 is a ground plate, 21 is a plate unit, 211 is a sound insulation hole, 212 is a splicing groove, 22 is a flexible caulking strip, 221 is a first caulking part, 222 is a second caulking part, 223 is a wing edge, 23 is a plate connecting strip, 231 is a connecting plate, 232 is a connecting column, 233 is a bayonet, 234 is a clamping block, 3 is a groove sealing strip, 31 is a horizontal groove plate, 32 is a first side plate, and 33 is a second side plate.

Detailed Description

The present invention will be described in further detail with reference to specific examples.

In the description of the present invention, it should be noted that the terms "above", "below", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention conventionally place when used, are merely used for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated.

In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Fig. 1 is a view showing the installation effect of the fabricated floor, as shown in fig. 1, the fabricated floor includes a bottom supporting frame 1, a floor panel 2 disposed on the bottom supporting frame 1, and a groove sealing strip 3 disposed in a longitudinal side edge region of the floor panel 2, where the longitudinal side edge region refers to a side edge region where the floor panel 2 is close to a wall body; fig. 2 is a schematic view of a bottom support frame, and as shown in fig. 2, the bottom support frame 1 includes a floor board slot 11 and an adjusting foot 12 disposed on the floor board slot 11; as shown in fig. 1, the floor panel 2 includes plate units 21 that are spliced with each other, flexible caulking strips 22 that are arranged at longitudinal splicing seams of the plate units 21, and plate connecting strips 23 that are arranged at transverse splicing seams of the plate units 21; fig. 8 is an installation diagram of a groove sealing strip, as shown in fig. 8, the groove sealing strip 3 is disposed on the bottom support frame 1 closest to the wall surface, the groove sealing strip 3 includes a horizontal groove plate 31, a first side plate 32 disposed on one side of the horizontal groove plate 31 close to the wall, and a second side plate 33 disposed on one side of the horizontal groove plate 31 far from the wall, and the shape of the second side plate 33 is matched with the shape of the adjacent floor clamping groove 11.

Fig. 2 is a schematic view of a bottom supporting frame, and as shown in fig. 2, the floor clamping groove 11 includes a groove bottom plate 111, groove edges 112 symmetrically disposed at two sides of the groove bottom plate 111, and the groove edges 112 include inclined side plates 1121, horizontal edges 1122 disposed at upper portions of the inclined side plates 1121, and vertical edges 1123 disposed on the horizontal edges 1122. The upper part is far away from the floor slab, and the lower part is close to the floor slab. The upper edge of the inclined side plate 1121 is close to the longitudinal symmetrical plane of the slot bottom plate 111, and the distance between the vertical edges 1123 is equal to the width of the floor slot plate. The equal to or different from the included distance comprises the condition of 1-2 mm of phase difference. The width of the opening of the floor clamping groove is the minimum and is equal to the sum of the thickness of the corresponding groove edge of two adjacent floor plates and the width of the flexible caulking strip.

Fig. 3 is a schematic view of an adjusting leg, and as shown in fig. 3, the adjusting leg 12 includes a threaded connection portion 121, a base portion 122, and a glue applying hole 123 disposed on a central axis of the adjusting leg 12; one side of the base part 122 close to the floor slab is provided with a glue overflow groove 124, and the upper part of the glue applying hole 123 is provided with an adjusting hole 125; the threaded connection part 121 is arranged on the floor clamping groove 11, and a threaded hole 113 meshed with the threaded connection part 121 is arranged on the floor clamping groove 11. The adjusting hole 125 is a hexagonal hole.

Fig. 4 is a schematic view of a plate unit, and as shown in fig. 4, the plate unit 21 includes a plurality of soundproof holes 211 longitudinally arranged in parallel in the inner region of the body and a splicing groove 212 arranged at a longitudinal edge portion of the body; the groove opening of the splicing groove 212 faces the floor slab, the shape of the splicing groove 212 is matched with that of the adjacent floor clamping groove 11, and the width of the groove bottom of the splicing groove 212 is larger than that of the horizontal edge 1122.

Fig. 5 is a schematic view illustrating the connection between the panel unit and the flexible caulking strip, as shown in fig. 5, the flexible caulking strip 22 includes a first caulking portion 221 and a second caulking portion 222 disposed below the first caulking portion 221, the width of the first caulking portion 221 is greater than that of the first caulking portion 221, two sides of the second caulking portion 222 are symmetrically provided with wing edges 223, and an included angle between the wing edges 223 and the second caulking portion 222 faces upward; the edges of the wings 223 are flush with the sides of the first caulking portion 221. The upper part refers to the side far away from the floor, and the lower part refers to the side close to the floor. The first caulking part 221 is in interference fit with the longitudinal splicing seam. The flexible caulking strip is made of flexible high polymer materials.

Fig. 6 is a schematic view of the plate connecting bar, and as shown in fig. 6, the plate connecting bar 23 includes a connecting plate 231, connecting posts 232 symmetrically disposed on two sides of the connecting plate 231, bayonets 233 disposed at two ends of the connecting plate 231, and a locking block 234 disposed near the bayonets 233. The diameter of spliced pole 232 with the internal diameter of hole that gives sound insulation match, spliced pole 232 the diameter with the diameter of hole that gives sound insulation equal or differ 1~1.5 mm.

Fig. 7 is a schematic connection diagram of the plate units and the plate connecting strips, the splicing grooves 212 of adjacent plate units 21 are arranged in the same floor clamping groove 11, and the longitudinal splicing seams are provided with flexible caulking strips 22. The plate connecting strips 23 are arranged at the transverse splicing seams of the two adjacent plate units, the bayonets 233 at the two ends of the connecting plate 231 are clamped on the groove edges 112 adjacent to the bayonets, the connecting columns 232 are arranged in the sound insulation holes, and the clamping blocks 234 are inserted into the gaps between the groove edges 112 and the splicing grooves 212 so as to realize the firm connection of the plate units 21.

A method of installing a fabricated floor, comprising the steps of:

arranging the bottom support frames 1 in parallel, then adjusting the adjusting support legs 12, and then injecting structural adhesive from adhesive applying holes 123 to fix the adjusting support legs 12 on a floor slab;

splicing grooves 212 of the plate units 21 are clamped in the floor clamping grooves 11, two adjacent plate units 21 are arranged in the same floor clamping groove 11 through the splicing grooves 212, and then flexible caulking strips 22 are arranged in longitudinal splicing seams of the two adjacent plate units 21; then, a plate connecting piece is arranged in a transverse splicing seam of two plates clamped in the same floor clamping groove 11, the connecting column 232 is inserted into the sound insulation hole 211, and the clamping block 234 is arranged in a gap between the floor clamping groove 11 and the splicing groove 212;

and arranging the sealing strip 3 in the floor clamping groove 11 closest to the wall body so as to seal the edge of the floor board 2.

The above-described preferred embodiments of the present invention are not intended to limit the present invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the claims of the present invention.

Claims

1. An assembled floor, comprising: comprises a bottom supporting frame (1), a floor panel (2) arranged on the bottom supporting frame (1) and a groove sealing strip (3) arranged in the longitudinal side edge area of the floor panel (2); the bottom supporting frame (1) comprises a floor clamping groove (11) and an adjusting supporting leg (12) arranged on the floor clamping groove (11); the floor board (2) comprises plate units (21) which are spliced with each other, flexible caulking strips (22) arranged at longitudinal splicing seams of the plate units (21) and plate connecting strips (23) arranged at transverse splicing seams of the plate units (21); the groove sealing strip (3) is arranged on the bottom supporting frame (1) closest to the wall surface, the groove sealing strip (3) comprises a horizontal groove plate (31), a first side plate (32) arranged on one side of the horizontal groove plate (31) close to the wall body and a second side plate (33) arranged on one side of the horizontal groove plate (31) far away from the wall body, and the shape of the second side plate (33) is matched with that of the adjacent floor clamping groove (11).

2. A fabricated floor as claimed in claim 1, wherein: the floor clamping groove (11) comprises a groove bottom plate (111) and groove edges (112) symmetrically arranged on two sides of the groove bottom plate (111), wherein the groove edges (112) comprise inclined side plates (1121), horizontal edges (1122) arranged on the upper portions of the inclined side plates (1121) and vertical edges (1123) arranged on the horizontal edges (1122).

3. A fabricated floor as claimed in claim 1, wherein: the adjusting support leg (12) comprises a threaded connecting part (121), a base part (122) and a glue applying hole (123) arranged on a central shaft of the adjusting support leg (12); one side of the base part (122) close to the floor slab is provided with a glue overflow groove (124), and the upper part of the glue application hole (123) is provided with an adjusting hole (125); the threaded connecting part (121) is arranged on the floor clamping groove (11), and a threaded hole (113) meshed with the threaded connecting part (121) is formed in the floor clamping groove (11).

4. A fabricated floor as claimed in claim 3, wherein: the adjusting hole (125) is a hexagonal hole.

5. A fabricated floor as claimed in claim 2, wherein: the plate unit (21) comprises a plurality of sound insulation holes (211) which are arranged in the inner area of the body and are longitudinally parallel and splicing grooves (212) which are arranged on the longitudinal edge part of the body; the groove opening of the splicing groove (212) faces towards a floor slab, the shape of the splicing groove (212) is matched with that of the adjacent floor clamping groove (11), and the width of the groove bottom of the splicing groove (212) is larger than that of the horizontal edge (1122).

6. A fabricated floor as claimed in claim 1, wherein: the flexible caulking strip (22) comprises a first caulking part (221) and a second caulking part (222) arranged below the first caulking part (221), wing edges (223) are symmetrically arranged on two sides of the second caulking part (222), and an included angle opening between each wing edge (223) and the second caulking part (222) faces upwards; the first caulking part (221) is in interference fit with the longitudinal splicing seam.

7. A fabricated floor as claimed in claim 1, wherein: the plate connecting strip (23) comprises a connecting plate (231), connecting columns (232) symmetrically arranged on two sides of the connecting plate (231), bayonets (233) arranged at two ends of the connecting plate (231) and clamping blocks (234) arranged close to the bayonets (233).

8. A fabricated floor as claimed in claim 1, wherein: the width of the opening of the floor clamping groove (11) is equal to the sum of the thickness of the corresponding groove edge of two adjacent floor blocks and the width of the flexible caulking strip.

9. A fabricated floor as claimed in claim 1, wherein: the flexible caulking strip (22) is made of flexible high polymer materials.

10. A method for installing a fabricated floor, comprising the steps of:

arranging the bottom supporting frames (1) in parallel, then adjusting the adjusting support legs (12), and then injecting structural adhesive from the glue applying holes (123) to fix the adjusting support legs (12) on the floor slab;

splicing grooves (212) of the plate units (21) are clamped in the floor clamping grooves (11), two adjacent plate units (21) are arranged in the same floor clamping groove (11) through the splicing grooves (212), and then flexible caulking strips (22) are arranged in longitudinal splicing seams of the two adjacent plate units (21); then, plate connecting pieces are arranged in transverse splicing seams of two plates clamped in the same floor clamping groove (11), a connecting column (232) is inserted into the sound insulation hole (211), and a clamping block (234) is arranged in a gap between the floor clamping groove (11) and the splicing groove (212);

and arranging the groove sealing strip (3) in the floor clamping groove (11) closest to the wall body so as to seal the edge of the floor board (2).