CN110512825B

CN110512825B - Modularly mounted interior trim system

Info

Publication number: CN110512825B
Application number: CN201910813050.4A
Authority: CN
Inventors: 刘勃
Original assignee: Tianjin Anjiju Construction Technology Co ltd
Current assignee: Tianjin Anjiju Construction Technology Co ltd
Priority date: 2019-08-30
Filing date: 2019-08-30
Publication date: 2021-05-18
Anticipated expiration: 2039-08-30
Also published as: CN110512825A

Abstract

The invention discloses an indoor decoration system installed in a modularized mode, which comprises a grid base, floor tiles arranged on the grid base and a filling structure filled on the grid base to support the floor tiles, wherein the grid base is provided with a plurality of grid blocks; the filling structure comprises a filling body, a plurality of first filling parts arranged on the filling body at equal intervals and a plurality of second filling parts arranged on the filling body at equal intervals, wherein the first filling parts are in a conical structure or a hemispherical structure; the second filling part is of a conical structure or a hemispherical structure; the filling body is detachably connected with the grid base. The invention adopts the grid base, the floor tiles can be directly paved on the grid base, the leveling can be kept without adjustment in the paving process, the paving effect is good, and the paving efficiency is high; the filling structure is placed on the grid base to support the local part of the floor tile, and when the heavy object falls down, the local part of the floor tile is prevented from being cracked.

Description

Modularly mounted interior trim system

Technical Field

The invention belongs to the technical field of interior decoration, and particularly relates to an interior decoration system installed in a modularized mode.

Background

Interior decoration has contained wall decoration and ground decoration, and wherein the ground decoration is usually for laying floor tile on traditional cement, and traditional floor tile is laid through spreading grout on ground, then lays floor tile to the grout on, and the rethread is beaten floor tile so that firm in connection between floor tile and the grout, but its speed of laying of this fixed mode is slow, lays inefficiency.

At present, the existing laying mode is that a grid is erected on the ground, then floor tiles are fixed on the grid, but due to the adoption of the grid mode, cavities on the grid are hollow, the cavities have no supporting effect on the local parts of the floor tiles, the thickness of the floor tiles is usually thinner, and under the condition that the local parts of the floor tiles are not supported, once a heavy object hits the floor tiles, the floor tiles can be easily broken by the hit.

Disclosure of Invention

The invention provides an indoor decoration system which has high installation efficiency and protects the modular installation of floor tiles in order to overcome the defects of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: an indoor decoration system installed in a modularized mode comprises a grid base, floor tiles arranged on the grid base and a filling structure filled on the grid base to support the floor tiles; the filling structure comprises a filling body, a plurality of first filling parts arranged on the filling body at equal intervals and a plurality of second filling parts arranged on the filling body at equal intervals, wherein the first filling parts are in a conical structure or a hemispherical structure; the second filling part is of a conical structure or a hemispherical structure; the filling body is detachably connected with the grid base.

According to the invention, the floor tiles are directly paved on the grid base, and the floor tiles can be kept flat after being paved, so that the whole ground can be in a horizontal state; in addition, each floor tile does not need to be adjusted in the laying process, and only needs to be fixed, so that the laying efficiency is high; set up filling structure on the net base and support the floor brick, reduce the unsettled area of floor brick, it is after the heavy object is pounded and is fallen on the floor brick, can transmit away the power that receives fast on the floor brick, it guarantees that the floor brick falls and pounces because of the heavy object and splits, protect the floor brick, and because there is filling structure, when people's activity and production vibrations, vibrations on the floor brick can transmit on filling structure, consequently in the activity on the floor brick, the noise of its production is little, it makes whole indoor silence more, the travelling comfort of living has been improved.

Preferably, the grid base comprises a supporting grid with a plurality of empty grid cavities and supporting legs for supporting the supporting grid, and the filling body is detachably connected with the inner wall of the empty grid cavity through a connecting structure; through can dismantle the connection with the blank intracavity wall with filling the body, it is in supporting grid simple to operate.

Preferably, the connecting structure comprises a step part arranged on the inner wall of the space cavity, an insertion groove formed on the step part and an insertion convex part capable of being inserted into the insertion groove, and the insertion convex part and the filling body are integrally formed; through setting up grafting convex part and inserting groove, it is efficient carrying out the installation to filling the body, only needs to insert the grafting convex part and can realize, and this mounting means is not only simple, installs in addition and can have absorbing effect after accomplishing.

Preferably, the upper end part of the first filling part is provided with a shock absorption structure which is contacted with the lower end surface of the floor tile; the shock absorption structure can absorb the shock on the floor tiles, so that the shock generated by a person during indoor activities can be transmitted to the shock absorption structure and then transmitted to the ground through the filling structure and the support grids, and the shock absorption effect is good; and set up owing to be provided with shock-absorbing structure, it still has the buffering effect, therefore this people when indoor activity, and is comparatively little to the pressure that the floor tile caused, effectively protects the floor tile.

Preferably, the shock-absorbing structure is an elastically deformable gasket, and the shock-absorbing structure is bonded to the upper part of the first filling part; by arranging a gasket which is provided with

Preferably, a groove structure for embedding a floor heating pipeline is arranged at the upper part of the supporting grid; the floor heating pipelines can be conveniently installed by arranging the groove body structure, the efficiency of installing the floor heating pipelines is high, and the distance between the floor heating pipelines is kept constant, so that the heating temperature is uniform when the space in the heating chamber is heated, and the internal environment is comfortable; and because place ground heating pipe on the cell body structure, because the material of support net, it has heat retaining effect.

Preferably, the supporting grid comprises a plurality of first rod bodies arranged transversely and a plurality of second rod bodies arranged longitudinally, the first rod bodies are connected with the second rod bodies, and the groove body structure comprises a first groove arranged on the first rod bodies and a second groove arranged on the second rod bodies; through setting up first, second cell body can be convenient for carry out effectual arranging to ground heating pipeline, whole installation effectiveness is high.

Preferably, a first heat-insulating layer is bonded on the inner wall of the first groove, and a second heat-insulating layer is bonded on the inner wall of the second groove; through setting up first heat preservation and second heat preservation, it can weaken the thermal scattering and disappearing among the floor heating pipe, consequently in winter, its effectual to indoor heating.

Preferably, the support grid further comprises a first cover at least partially insertable into the first recess and a second cover at least partially insertable into the second recess; through setting up first lid and second lid, consequently need not the region that the installation ground warms up in the south, can close first recess and second recess, consequently support the net and carry out effectual that supports to the floor tile.

Preferably, a plurality of first breaking parts for breaking the first cover body are arranged on the first cover body at equal intervals, and a plurality of second breaking parts for breaking the second cover body are arranged on the second cover body at equal intervals; through setting up first portion and the second portion of splitting, it can carry out and the second lid carries out local rupture to first lid, consequently after installation floor heating pipe, the region of partial non-embedding floor heating pipe can be with first, the second lid roll over a part with the card go into first recess and second recess on, consequently is being good at the support effect to the floor tile.

In conclusion, the grid base is adopted, the floor tiles can be directly paved on the grid base, the floor tiles can be kept smooth without adjustment in the paving process, the paving effect is good, and the paving efficiency is high; the filling structure is placed on the grid base to support the local part of the floor tile, and when the heavy object falls down, the local part of the floor tile is prevented from being cracked.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is an exploded view of the present invention.

Fig. 3 is a partial structural diagram of the first embodiment of the present invention.

Fig. 4 is a partial structural schematic diagram of the present invention.

Fig. 5 is a schematic view of a partial structure of the support grid of the present invention.

FIG. 6 is a schematic view of the structure A in FIG. 5

Fig. 7 is a schematic structural diagram of the filling structure of the present invention.

Fig. 8 is a schematic structural view of the supporting foot of the present invention.

Fig. 9 is an exploded view of a support leg of the present invention.

Fig. 10 is a schematic structural view of the connecting member of the present invention.

Fig. 11 is a partial structural diagram of the first support grid of the present invention.

Fig. 12 is an enlarged view of B in fig. 11.

Fig. 13 is an exploded view of the structure of fig. 11.

Fig. 14 is a schematic view of a partial structure of the support grid of the present invention.

Fig. 15 is an enlarged view of C in fig. 14.

Fig. 16 is an exploded view of the structure of fig. 14.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

As shown in fig. 1 to 16, an indoor decoration system installed in a modularized manner includes a grid base 1, floor tiles 2, and a filling structure 3, wherein the grid base 1 is erected on the ground, the grid base 1 includes a supporting grid 11 and supporting legs 18, the supporting grid 11 includes a first rod 111 and a second rod 112, the first rod 111 and the second rod 112 are both solid plastic plates, the first rod 111 is arranged in a horizontal direction, the second rod 112 is arranged in a vertical direction, and the first rod 111 and the second rod 112 are connected together, so that the first rod 111 and the second rod 112 form a plurality of square space cavities 10; the support grid 11 supports the support grid by means of support feet 18; the supporting leg 18 comprises a supporting member 181, a screw 182 and a foot 183, wherein the supporting member 181 is a metal sheet or a metal block, and four limiting structures 184 are arranged on the upper part of the supporting member 181; the limiting structure 184 is a convex part integrally formed with the supporting member 181; two of the convex parts are used for limiting the first rod body 111, and the other two convex parts are used for limiting the second rod body 112; of course in other embodiments the stop formation may be provided as a recess.

A screw hole 185 is formed in the middle of the supporting member 181, and threads are formed on the inner wall of the screw hole 185; the support 181 is screwed to the screw 182; the bottom foot 183 is a metal disc, and the lower part of the screw rod 182 is movably connected with the bottom foot 183; a through hole is formed in the middle of the bottom leg 183, a protruding ring 186 is formed at the lower end of the screw 182, the protruding ring 186 has a diameter larger than that of the through hole, a limit nut 187 is screwed to the lower portion of the screw 182, the limit nut 187 is a metal hexagonal nut, and the limit nut 187 is located above the bottom leg 183, so that the bottom leg 183 is sandwiched by the limit nut 187 and the protruding ring 186; therefore, when the screw rod is installed, the foot 183 is sleeved under the upper part of the screw rod 182, and then the limit nut 187 is screwed to limit the foot 183.

Further, an anti-drop nut 188 is screwed on the upper portion of the screw 182, the anti-drop nut 188 is a hexagon nut, the anti-drop nut 188 is located above the supporting member 181, and the anti-drop nut 188 limits the supporting member 181 to ensure that the supporting member 181 cannot move up and down; a rotation stopping structure 189 is arranged at the upper part of the screw 182, the rotation stopping structure 189 is a rotation stopping groove formed on the screw 182, and the rotation stopping groove is an inner hexagonal groove; the screw 182 is rotated by a tool such as a screwdriver, thereby adjusting the height of the supporting member 181, and thus the supporting grid 11 to be horizontal.

The filling structure 3 is filled in the hollow lattice cavity 10; specifically, the filling structure 3 includes a filling body 30, a plurality of first filling portions 31 and a second filling portion 32, the filling body 30 is a plastic steel plate, the plurality of first filling portions 31 are hollow hemispherical plastic steel, and the first filling portions 31 and the filling body 30 are integrally formed; the first filling parts 31 are arranged at equal intervals, and the interval between two adjacent first filling parts 31 is equal to the diameter of the lower part of the first filling part 31; the number of the second filling parts 32 is also multiple, the second filling part 32 is hollow hemispherical plastic steel, and the second filling part 32 and the filling part body 30 are integrally formed; wherein the first filling part 31 supports the floor tile 2 at an upper portion thereof and the second filling part 32 is erected on the ground.

Specifically, the filling body 30 is detachably connected with the inner wall of the hollow lattice cavity 10 through a connecting structure; the connecting structure comprises a step part 41, an insertion groove 42 and an insertion convex part 43 which are arranged on the inner wall of the hollow cell cavity 10, wherein the step part 41 is a convex strip which is integrally formed with the first rod body 111, and the insertion groove 42 is arranged in the step part 41; and a plurality of fastening protrusions 421 arranged side by side are arranged on the inner wall of the insertion groove 42, the fastening protrusions 421 are ribs arranged obliquely downward, the insertion protrusion 43 is a rib perpendicular to the filling body 30, the insertion protrusion 43 can be inserted into the insertion groove 42, and a plurality of fastening openings 431 corresponding to the fastening protrusions 421 are arranged on the insertion protrusion 43, so that after the insertion protrusion 43 is inserted into the insertion groove 42, the fastening protrusions 421 are inserted into the fastening openings 431, thereby fixing the filling structure.

Further, a damper structure 5 is bonded to an upper end portion of the first filling portion 31, and the damper structure 5 is an elastically deformable gasket made of a rubber sheet.

Specifically, the floor tiles 2 are floor tiles on the market, and the floor tiles 2 are connected with the supporting grids 11 through connecting members 6; specifically, the connecting member 6 includes a member body 61, an insertion piece 62 perpendicular to a side wall of the member body 61, and a connecting hook 63 disposed at a lower portion of the member body 61; wherein the inserting piece 62, the member body 61 and the connecting hook 63 are integrally formed; the side wall of the floor tile 2 is provided with a groove body 20, and the insertion sheet 62 can be inserted into the groove body 20, so that the floor tile 2 and the connecting member 6 are connected; the upper part of the connecting hook 63 is provided with an inclined plane inclined from top to bottom; therefore, when the connecting member 6 is continuously connected to the lower portion of the first rod 111, it can realize the firm connection between the connecting member 6 and the supporting grid 11, and the lower portion of the second rod 112 has a plurality of first saw teeth 102, and the upper portion of the connecting hook 63 has a plurality of second saw teeth 601, and the second saw teeth 102 and the second saw teeth 601 are limited.

Meanwhile, two symmetrically arranged limit protrusions 611 are arranged on the middle of the member body 61, the limit protrusions 611 are integrally formed with the member body 61, and the limit protrusions 611 are perpendicular to the side walls of the member body 61, so that when the connecting member 61 is connected to the supporting grid 11, the limit protrusions 611 contact the side walls of the first rod 111, thereby limiting the connecting member 61 from tilting.

Further, a groove structure is arranged at the upper part of the supporting grid 11 and used for installing a floor heating pipeline; the groove body structure comprises a first groove 113 formed at the upper part of the first rod body 111 and a second groove 114 formed at the upper part of the second rod body 112; the first groove 113 and the second groove 114 are both concave parts with arc-shaped inner walls; the first groove and the second groove are arranged to be grooves with arc-shaped surfaces, so that deformation is not easy to occur, and the shape of the floor heating pipeline can be matched.

Specifically, a first heat-insulating layer 115 is arranged on the inner wall of the first groove 113, the first heat-insulating layer 115 is made of heat-insulating cotton, and the first heat-insulating layer 115 is bonded with the inner wall of the first groove 113; a second insulating layer 116 is arranged on the inner wall of the second groove 114, and the second insulating layer 116 is made of insulating cotton bonded with the inner wall of the second groove 114.

Further, the supporting grid 11 further includes a first cover 117 and a second cover 118, and both the first cover 117 and the second cover 118 are made of plastic steel material; the lower part of the first cover 117 is provided with a first protrusion 121 with an arc-shaped surface, the first protrusion 121 can enter the first groove 113, the first cover 117 is provided with a first limit protrusion 122, the upper part of the first groove 113 is provided with a first anti-falling protrusion 123, and the first anti-falling protrusion 123 can limit the first limit protrusion 122, so as to limit the first cover 117 from being detached from the first groove 113; similarly, the lower part of the second cover 118 has a second protrusion 125 with an arc-shaped surface, and the second protrusion 125 can enter into the second groove 114; the second cover 118 has a second limit protrusion 126, the second recess 114 has a second anti-slip protrusion 127, and the second anti-slip protrusion 127 is connected to the second protrusion 125.

Specifically, a plurality of first split portions 119 are disposed on the first cover 117, and the first split portions 119 are a plurality of through holes formed in the first cover 117, and the first cover 117 can be broken by the first split portions 119; the second cover 118 is provided with a plurality of second split portions 120, and the second split portions 120 are a plurality of through holes formed in the second cover 118, so that the second cover 118 can be broken by the second split portions 120.

It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Claims

1. An indoor decoration system installed in a modularized mode comprises a grid base (1), floor tiles (2) arranged on the grid base (1) and filling structures (3) filled on the grid base (1) to support the floor tiles (2); the method is characterized in that: the filling structure (3) comprises a filling body (30), a plurality of first filling parts (31) arranged on the filling body (30) at equal intervals and a plurality of second filling parts (32) arranged on the filling body (30) at equal intervals, wherein the first filling parts (31) are in a conical structure or a hemispherical structure; the second filling part (32) is of a conical structure or a hemispherical structure; the filling body (30) is detachably connected with the grid base (1);

the upper end part of the first filling part (31) is provided with a damping structure (5) which is contacted with the lower end surface of the floor tile (2);

the first filling part (31) is hollow hemispherical plastic steel;

the grid base (1) comprises a supporting grid (11) with a plurality of grid cavities and supporting legs (12) for supporting the supporting grid (11), and the filling body (30) is detachably connected with the inner wall of each grid cavity through a connecting structure; the connecting structure comprises a step part (41) arranged on the inner wall of the space cavity, an insertion groove (42) formed on the step part (41) and an insertion convex part (43) capable of being inserted into the insertion groove (42), wherein the insertion convex part (43) and the filling body (30) are integrally formed.

2. A modularly installable interior trim system of claim 1, wherein: the shock absorption structure (5) is an elastically deformable gasket, and the shock absorption structure (5) is bonded with the upper part of the first filling part (31).

3. A modularly installable interior trim system of claim 1, wherein: and the upper part of the supporting grid (11) is provided with a groove body structure for embedding a floor heating pipeline.

4. A modularly installable interior trim system of claim 3, wherein: support net (11) including a plurality of horizontal first body of rod (111) that set up and a plurality of vertical second body of rod (112) that set up, first body of rod (111) with second body of rod (112) link to each other, the cell body structure is including locating first recess (113) on the first body of rod (111) and locating second recess (114) on the second body of rod (112).

5. A modularly installable interior trim system of claim 4, wherein: a first heat-insulating layer (115) is bonded on the inner wall of the first groove (113), and a second heat-insulating layer (116) is bonded on the inner wall of the second groove (114).

6. A modularly installable interior trim system of claim 4, wherein: the support grid (11) further comprises a first cover (117) at least partially insertable into the first recess (113) and a second cover (118) at least partially insertable into the second recess (114).

7. A modularly installable interior trim system of claim 6, wherein: the first cover body (117) is provided with a plurality of first breaking parts (119) for breaking the first cover body (117) at equal intervals, and the second cover body (118) is provided with a plurality of second breaking parts (120) for breaking the second cover body (118) at equal intervals.