WO2019218174A1

WO2019218174A1 - Construction method for floor board system

Info

Publication number: WO2019218174A1
Application number: PCT/CN2018/086941
Authority: WO
Inventors: 杨泓斌; 陈祥祥; 李缙; 颜旺龙; 刘威宏
Original assignee: 增城市碧桂园物业发展有限公司
Priority date: 2018-05-16
Filing date: 2018-05-16
Publication date: 2019-11-21
Also published as: CN112292493A

Abstract

A construction method for a floor board system. The method comprises the following steps: fabricating a floor board (1) having a recess (11) in a bottom surface thereof; fabricating a cable routing member (3), cutting or molding, on an elongated board, several wire channels (311) arranged in a lengthwise direction thereof, forming engagement structures at channel openings of the wire channels (311), and obtaining a base (31); cutting or molding, on another elongated board, a structure to be engaged with the channel openings of the wire channels (311), and obtaining a cover board (32); fabricating or purchasing an electrical cable (2); loading the electrical cable (2) into the wire channels (311); engaging the cover board (32) with the channel openings of the wire channels (311), such that the cover board (32) is engaged with and connected to the base (31); and fitting the cable routing member (3) loaded with the electrical cable (2) in the recess (11), and obtaining the floor board system. The invention overcomes the drawback of having to create an opening in a floor or a floor board when repairing a conventional embedded circuit, thereby realizing separation of a circuit from a main structure, reducing damage to a main structural body, and enhancing building safety, reliability, and durability.

Description

Construction method of floor board system

The invention belongs to the technical field of building construction, and in particular relates to a construction method of a floor panel system.

The most important thing to promote the modernization of the construction industry is to promote the transformation of the construction mode. It is necessary to get rid of the traditional construction model and seek a development path aiming at the modernization of the construction industry.

At present, domestic wire construction uses wire in the pre-buried way. For example, high-voltage wires (such as fire wires, neutral wires, ground wires, etc.) are usually embedded in the floor panels of the main structure, but equipment and wires. The service life is generally around 10-20 years, and needs to be replaced several times within the service life of the house, resulting in multiple damage to the main structure and reducing the service life of the house. In addition, when the interior decoration is modified, it is also necessary to destroy the main structure and re-lay the electric wires to reduce the durability of the house.

It can be seen that the traditional wire pre-buriing method needs to destroy the main structure during maintenance, and the maintenance is difficult, the cost is high, and the maintenance efficiency is low; at the same time, a large amount of construction waste and noise pollution are generated during maintenance, which will greatly affect the downstairs users. Due to the damage to the main structure, it is not conducive to the modification of the internal decoration, the cost of repairing and the time-consuming is long. In addition, since the electric wire adopts the pre-buried mode, the electric wire and the main structure are integrated, and the electric wire and the structural main body are inseparably separated, which is not conducive to the modification of the later household type, which is difficult. Meet the needs of residents' diverse and flexible.

Summary of the invention

The technical problem to be solved by the present invention is to provide a method for constructing a floor panel system, which aims to solve the problem that the main structure is damaged when the electric wire is repaired by installing the electric wire in the floor panel by using the pre-buried method in the prior art, and the maintenance is troublesome. , the problem of loud noise.

Embodiments of the present invention provide a method for constructing a floor panel system, including the following steps:

S10, preparing a floor panel, and pouring a floor panel having a groove on the bottom surface at the construction site;

S11. Preparing a wiring component, wherein the wiring component comprises a base and a cover plate; a plurality of wire slots disposed along a length direction thereof are formed or formed on a long plate, and a buckle structure is formed on the notch of the wire groove, a base; a structure that is fastened to the slot of the slot on another elongated block to form the cover;

S13, determining the type of wire required, and preparing or purchasing the wire;

S14, pressing the electric wire into the wire slot from the slot of the wire slot, or penetrating into the wire slot from a port at both ends of the wire groove;

S15, the cover plate is buckled on the slot of the slot, and the cover plate and the base form a snap connection;

S16. Install the wiring component of the installed wire in the groove of the floor panel, that is, the floor panel system is fabricated.

Further, the steps S15 and S16 can also be replaced by the following steps:

S15', placing the base into the groove of the floor panel, and fixing the base to the groove of the floor panel by screws;

S16', the cover plate is snapped onto the slot of the slot, and the cover plate is snap-fitted with the base to form the floor panel system.

Further, in the step S11, preparing the base includes the following steps:

Forming a metal mold matched with the shape of the base, and then molding the base by using a wood plastic composite material in combination with the metal mold;

The formulation of the wood-plastic composite material is prepared according to the following parts by weight: 45 parts of polyethylene, 47 parts of wood powder, 1 part of maleic anhydride grafted polyethylene, 1 part of polyethylene wax, 1 part of zinc stearate, color 2 parts of powder, 0.6 parts of t-butyl hydroquinone, 0.8 parts of UV-resistant absorbent UV-1130, 0.6 parts of stearic acid and 1 part of lubricant.

Further, in the step S11, the preparing the base comprises the following steps:

The wire groove is cut on a plate-shaped profile, and then a snap structure is cut on the side of the profile, that is, the base is made.

Further, in the step S11, the slot width of the slot formed or formed is smaller than the width of the slot space.

Further, in the step S11, the prepared wiring member is a strong electric wiring member, and in the step S13, the electric wire prepared or purchased is a strong electric wire, and in the step S14, the strong electric wire is taken from the The slot of the slot of the strong electric wiring member is pressed into the slot, or a port from both ends of the slot of the strong electric wiring member penetrates into the slot of the strong electric wiring member.

Further, in the step S10, the groove formed by the floor panel during molding comprises a lateral groove and a longitudinal groove, and the lateral groove communicates with the longitudinal groove.

Compared with the prior art, the present invention has the beneficial effects that the present invention provides a method for constructing a floor panel system in which the electric wire is separated from the main structure, and the floor panel is formed with a groove during the pouring forming process, thereby passing through the wiring member. The wire is fixedly installed in the groove, which overcomes the disadvantages of the need to open the floor panel during the maintenance of the conventional pre-buried line, realizes the separation of the line from the main structure (SI separation), reduces damage to the structural body, and greatly increases the safety and reliability of the house. Durability.

The separate design of the wire and the main structure provides more space for interior and equipment renewal. The wires and equipment can be updated without damaging the main structure, which greatly saves the cost of later maintenance and modification. It greatly reduces the construction waste and noise pollution generated during the later maintenance and renovation, and reduces the damage to the natural environment. Reducing the impact on the downstairs users during maintenance can greatly improve the satisfaction of the occupants. In addition, the occupants can modify the unit according to the needs of each individual to maximize the satisfaction of residential use requirements.

DRAWINGS

1 is a flow chart of a construction method of a floor panel system according to an embodiment of the present invention;

2 is a schematic structural view of a floor panel with a groove formed by pouring according to an embodiment of the present invention;

3 is a schematic exploded view of a wiring member according to an embodiment of the present invention;

4 is a schematic structural view showing a plurality of wire grooves arranged on the base of FIG. 3;

Figure 5 is a schematic cross-sectional structural view of the wiring member shown in Figure 3 after the wires are assembled and assembled;

Figure 6 is a cross-sectional structural view showing the wiring member shown in Figure 5 installed in the groove on the bottom surface of the floor panel;

Figure 7 is a schematic view of a floor panel system according to an embodiment of the present invention;

FIG. 8 is a flow chart of another construction method of a floor panel system according to an embodiment of the present invention.

Detailed ways

The present invention will be further described in detail below with reference to the accompanying drawings and embodiments. It is understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in FIG. 1 to FIG. 7 , a preferred embodiment of the present invention provides a method for constructing a floor panel system, including the following steps:

S10, preparing the floor panel 1, pouring a floor panel 1 having a groove 11 on the bottom surface at the construction site;

S11, the wiring member 3 is prepared, and the wiring member 3 includes a base 31 and a cover plate 32. Referring to FIG. 4, a plurality of spaced-apart slot 311 disposed along the length thereof is formed or formed on a long plate. Then, a snap structure is formed on the slot of each of the slots 311 to obtain the base 31; and a structure that is engaged with the slot of the slot 211 is formed or formed on the other elongated block, thereby obtaining a structure Cover plate 32;

S13, determining the type of wire required, and preparing or purchasing the wire 2;

S14, the wire 2 is pressed into the wire slot 311 from the slot of the wire slot 311, or penetrates into the wire slot 311 from a port at both ends of the wire slot 311;

S15, the cover plate 32 is buckled on the slot of the slot 311, and the cover plate 32 is formed into a snap connection with the base 31;

S16. The wiring member 3 on which the electric wire 2 is mounted is mounted in the recess 11 on the bottom surface of the floor panel 1, that is, the floor panel system is manufactured.

Referring to FIG. 8, when the wiring member 3 is fixed by the screw 5, the above steps S15 and S16 can be replaced with the following steps:

S15', the base 31 is placed in the recess 11 in the bottom surface of the floor panel 1, and the base 31 is fixedly mounted in the recess 11 of the floor panel 1 by screws 5;

S16', the cover plate 32 is snapped onto the slot of the slot 311, and the cover plate 32 is snap-connected with the base 31 to form the floor panel system.

In the above step S11, the following two methods can be used for preparing the base 31:

Method 1: A metal mold matching the shape of the base 31 is prepared in advance, and then the base 31 is injection molded using a wood plastic composite material in combination with the metal mold.

Method 2: Cutting the wire groove 311 on a plate-shaped profile, and then cutting the buckle structure on the side of the profile, that is, the base 31 is prepared.

In the above step S11, the notch width of the opened or formed wire groove 311 is smaller than the width of the inner space of the groove, so that the electric wire pressed or inserted into the wire groove 311 is not easily detached from the wire groove 311.

Specifically, in the above step S11, the prepared wiring member 3 is a strong electric wiring member, and in the step S13, the electric wire 3 prepared or purchased is a strong electric wire, and in the step S14, the strong electric wire is taken from the device. The notch of the wire slot 311 of the high-voltage wiring member is pressed into the wire groove 311 of the high-voltage wiring member, or the high-voltage wiring member is penetrated from the port at both ends of the wire groove 311 of the high-voltage wiring member. Inside the slot 311.

The base 31 and the cover plate 32 of the wiring member 3 described above are each made of a wood-plastic composite material. Of course, in practical applications, other materials, such as wood, may be used for cutting. This embodiment provides a preferred wood-plastic composite material for the material of the base 31 and the cover plate 32. The formulation of the wood-plastic composite material is prepared according to the following parts by weight: 45 parts of polyethylene, 47 parts of wood powder, and horse. 1 part of acetic anhydride grafted polyethylene, 1 part of polyethylene wax, 1 part of zinc stearate, 2 parts of toner, 0.6 parts of t-butyl hydroquinone, 0.8 parts of UV-resistant absorbent UV-1130, stearic acid 0.6 parts and 1 part of the lubricant; the base 21 and the cover plate 22 made of the wood-plastic composite material have certain structural strength, effectively ensuring the durability and anti-aging ability of the product, prolonging the service life, and the quality thereof is light. Easy to produce and install.

In order to realize the wiring in the two directions of the vertical and horizontal directions, the lead-out position with the electric wire 2 on the floor panel 1 can be set according to requirements. In the above step S10, the groove 11 formed by the floor panel 1 at the time of molding has the lateral groove 12 And a longitudinal groove 13 communicating with the longitudinal groove 11. When it is necessary to steer the electric wire 2 laid in the recess 11 of the floor panel 1, a diverter 4 for arranging the electric wire 2 is installed at the intersection of the lateral groove 12 and the longitudinal groove 13, the diverter 4 except for the appearance shape Different from the wiring member, the structure also includes a cover plate and a base which are mutually buckled, and the base has a wire slot for wiring. In the embodiment, the diverter 4 has an L shape, and of course, in other embodiments. It is in the shape of a cross. The wiring member 3 disposed in the lateral groove 12 and the wiring member 3 disposed in the longitudinal groove 13 are correspondingly butted to both ends of the diverter 4, so that the electric wire 2 disposed in the lateral groove 12 passes through the diverter 4 turning into the wiring member 3 in the longitudinal groove 13, or causing the electric wire 2 disposed in the longitudinal direction groove 13 to be steered through the diverter 4 into the wiring member 3 in the lateral groove 12, thereby enabling the electric wire 2 to Turn between the two for horizontal and vertical layout.

In the construction method of the floor panel system provided by the embodiment, the bottom surface of the floor panel 1 is formed with the recess 11 during the pouring forming process, so that the electric wire 2 can be fixedly mounted in the recess 11 through the wiring member 3, thereby overcoming the conventional pre-buried. When the line is repaired, the disadvantages of the floor panel need to be solved, and the separation of the line from the main structure (SI separation) is realized, thereby reducing damage to the structural body and greatly increasing the safety, reliability and durability of the house.

The separate design of the electric wire 2 and the floor panel 1 provides more space for interior installation and equipment renewal. The electric wires and equipment can be updated without destroying the main structure, which greatly saves the cost of post-maintenance and modification. It greatly reduces the construction waste and noise pollution generated during the later maintenance and renovation, and reduces the damage to the natural environment. Reducing the impact on the downstairs users during maintenance can greatly improve the satisfaction of the occupants. In addition, the occupants can modify the unit according to the needs of each individual to maximize the satisfaction of residential use requirements.

The above is only the preferred embodiment of the present invention, and is not intended to limit the present invention. Any modifications, equivalent substitutions and improvements made within the spirit and principles of the present invention should be included in the protection of the present invention. Within the scope.

Claims

A method for constructing a floor panel system, comprising the steps of:
S10, preparing a floor panel, and pouring a floor panel having a groove on the bottom surface at the construction site;
S11. Preparing a wiring component, wherein the wiring component comprises a base and a cover plate; a plurality of wire slots disposed along a length direction thereof are formed or formed on a long plate, and a buckle structure is formed on the notch of the wire groove, a base; a structure that is fastened to the slot of the slot on another elongated block to form the cover;
S13, determining the type of wire required, and preparing or purchasing the wire;
S14, pressing the electric wire into the wire slot from the slot of the wire slot, or penetrating into the wire slot from a port at both ends of the wire groove;
S15, the cover plate is buckled on the slot of the slot, and the cover plate and the base form a snap connection;
S16. Install the wiring component of the installed wire in the groove of the floor panel, that is, the floor panel system is fabricated.
The construction method according to claim 1, wherein the steps S15 and S16 are further replaced by the following steps:
S15', the base is placed in the groove of the floor panel, and the base is fixedly installed in the groove of the floor panel by screws;
S16', the cover plate is buckled on the slot of the slot, and the cover plate is snap-connected with the base, that is, the floor panel system is manufactured.
The construction method according to claim 1, wherein in the step S11, preparing the base comprises the following steps:
Forming a metal mold matched with the shape of the base, and then molding the base by using a wood plastic composite material in combination with the metal mold;
The formulation of the wood-plastic composite material is prepared according to the following parts by weight: 45 parts of polyethylene, 47 parts of wood powder, 1 part of maleic anhydride grafted polyethylene, 1 part of polyethylene wax, 1 part of zinc stearate, color 2 parts of powder, 0.6 parts of t-butyl hydroquinone, 0.8 parts of UV-resistant absorbent UV-1130, 0.6 parts of stearic acid and 1 part of lubricant.
The construction method according to claim 1, wherein in the step S11, preparing the base comprises the following steps:
The wire groove is cut on a plate-shaped profile, and then a snap structure is cut on the side of the profile, that is, the base is made.
The construction method according to claim 1, wherein in the step S11, the slot width of the slot formed or formed is smaller than the width of the slot space.
The construction method according to claim 1, wherein in the step S11, the prepared wiring member is a strong electric wiring member, and in the step S13, the electric wire prepared or purchased is a strong electric wire, and the step S14 is performed. The strong electric wire is pressed into the wire slot from the slot of the wire slot of the high-voltage wiring member, or the high-voltage is penetrated from a port at both ends of the wire slot of the high-voltage wiring member Inside the wire slot of the wiring piece.
The construction method according to any one of claims 1 to 6, wherein in the step S10, the groove formed by the floor panel at the time of molding comprises a lateral groove and a longitudinal groove, the lateral concave The slot communicates with the longitudinal groove.