KR940008472B1 - Assembling flooring - Google Patents

Abstract

The prefab floor construction material made of the waste polymer, is used for constructing various kinds of floor such as heating floor, pedestrian roads, gymnasium floor etc.. The connecting method of the prefab material is composed of forming a circular groove by bringing into contact with one another of a plurality of groove plates (2) divided into more than two pieces; inserting a connecting ring in the groove to simulaneously connect and combine the plates (2); placing a cover over the upper surface (1) to shield the view of inner connection of the plates (2).

Description

Prefabricated flooring and its connection method

1 is an exploded perspective view of one embodiment of the present invention.

FIG. 2 is a bottom view of the groove plate of FIG. 1. FIG.

3 is a plan view showing an embodiment of the assembly according to the configuration of FIG.

4 is an exploded perspective view of another embodiment of the present invention.

5 and 6 are plan and bottom views of FIG.

7 is another embodiment of FIG.

8 is an exploded perspective view of yet another embodiment of the present invention.

9 is another embodiment of FIG.

10 is a plan view showing another embodiment of the groove plate of FIG.

11 to 14 show another example of the cover according to the present invention.

FIG. 15 is a plan view to which embodiments of the configuration of the present invention are exemplarily applied. FIG.

* Explanation of symbols for main parts of the drawings

1: cover 2: groove plate

3: connection ring 4: protrusion

5: coupling wall 6: insertion groove

7: coupling wall groove 8: piping groove

9,9A: Connecting groove 10: Semi-circular wall

11: circular wall 12: connection ring fitting groove

13: escape groove 14: through groove

15: protrusion wall 16: drain groove

17 drain

The present invention relates to a prefabricated flooring material and a connection method thereof that can form various floors in a prefabricated manner, and in particular, by using waste synthetic resin, heating floors of corridors or indoors, pedestrian-only road surfaces, gym floors, school classroom floors, The present invention relates to a prefabricated flooring material which can be used as a flooring material for forming all types of floors, such as a bath floor, a pool floor, a water purification plant floor, a waste water treatment plant floor, a building floor, a warehouse floor, and a barn floor.

As an example of the prior art, in the case of installing the flooring material in the room, most of the pipes are cemented on the cement floor, and the cement is applied again to form the floor. Therefore, when repairing, the applied indoor floor is torn off and the cement is applied again after the construction. Has been a very cumbersome task. In the case of road pavement of roads, the sidewalk blocks used in installing and repairing grids were mostly destroyed and unusable, causing a lot of material loss. In addition, many areas with frequent construction work had many shortcomings such as material loss, labor and construction delays.

In addition to the above examples, the present invention can be used in any place where flooring is installed, regardless of whether it is indoor or outdoor. For example, it is widely used in barn pallets, water source water purification plant floors, bath interior floors, warehouse floors, and the like. In particular, the present invention will be described in detail with reference to the accompanying drawings that the present invention is not only highly desirable in terms of resource saving, but also regenerated and used several times without fear of breakage and corrosion.

1 is an embodiment of the prefabricated flooring of the present invention, consisting of a combination of cover 1 and groove plate 2. The cover 1 is provided with a plurality of projections 4, the groove plate 2 forms a circular wall 11 having a protruding shape at the center thereof, the groove of the inner wall is fitted with a circular connection ring (not shown) A connecting ring fitting groove 12 was formed, and a separation groove 13 was formed for easy separation of the connecting ring fitted in the connecting ring fitting groove 12. In addition, a plurality of insertion grooves 6 are formed in several protruding surfaces, and connection rings 9 and 9A are formed near each edge. In addition, the semicircular wall 10 was provided in the middle part of each side, and the piping groove 8 was formed so that the passage | path of all the grooves may be made to communicate on the groove plate 2. FIG. 2 is a plan view of the bottom surface of the groove plate 2 of FIG. 1, the connecting ring fitting groove 12 and the connection grooves 9 and 9A formed in the same shape as the upper surface of the groove plate 2 in front. A breakaway groove 13 was formed to facilitate separation of the ring.

A flooring installation method according to one embodiment of the present invention as described above will be described below with reference to FIG.

Figure 3 is a plan view showing an installation example of the assembled flooring according to the present invention, as shown in the case of continuously installing the prefabricated flooring according to the present invention, it shows a continuous planar shape of the same shape, wherein the unit assembly flooring , By connecting the connecting ring (3) to the connecting groove (9, 9A) part of the connection. On the other hand, when producing each unit (consisting of the cover 1 and the groove plate 2) of the assembled flooring material (3) is the connection ring fitting groove 12 of the inner circumferential side of the circular wall 11 on the center of the groove plate (2) Since it is shipped in the state attached to it can be easily separated through the release groove 13 when used in the field. On the other hand, assembling flooring is assembled in this way, as shown in the back shape shown in Figure 2, if necessary, the connection ring (3) through the connecting grooves (9, 9A) on the back, if necessary, more securely his fastening It can work.

By connecting and installing in this way to form the indoor and outdoor floor, the required pipe or wiring can be installed in the desired direction and angle. That is, as shown in the diagram between the groove plate 2 of FIG. 1, if the pipe or the wiring is laid in such a manner as to wind the outer circumference of the semicircular wall 10 and the circular wall 11, the curved portion of the pipe or the wiring does not suddenly bend. In the case of piping and wiring, and also used as a heating floor material in the room, even though each pipe forms a curved portion on the outer circumference or inner circumference of the circular wall 11, the recessed grooves 13 are formed on all sides of the circular wall. In addition, all parts of the groove plate (2) is made of a structure that can communicate with each other, so in the case of a heating floor structure by heat, there is also an effect that the effect of heating can be transmitted to all sides of every corner.

In addition, such a structure can be very useful even when the floor surface always requires the outflow of liquids, such as sidewalks, indoor pools or barns, waste stockyards, and the like. Where it is necessary to prevent the leakage of fluid through the adhesive to the side connecting portion of each groove plate (2) by using the adhesive can prevent fluids such as wastewater, such as wastewater, causing environmental pollution into the ground.

And if you want to make a flat plane, such as the indoor floor structure, simply cover the cover (1) so that the projection (4) is fitted into the insertion groove (6) of the groove plate (2) simply assembly is made, and if necessary, cover ( 1) It is possible to change or repair the internal piping or wiring by separating it, so once the floor is composed, it can be used almost permanently. Applicability can be applied to other various places, but the scope of application is wide, but specific examples thereof have been described, but only as described above, the present invention is not limited to the application of these embodiments.

Next, various embodiments in which modifications are applied by applying the basic structure of the present invention described above will be described by way of example only. 4 is an example in which the shape of the assembled flooring material according to the present invention is formed in a long rectangular shape, and reference numeral 14 is a through groove. The through groove 14 penetrates the groove plate 2 as shown in the plan view of FIG. 5 and the rear view of FIG. 6, and is provided as a fastening means such as nails and bolt nuts through the through groove 14 if necessary. It is used to fasten to the bottom of the. This through groove 14, although not described in the previous embodiment can be formed in any place, of course. 7 is another example of the structure of FIG. 4, in which the coupling wall 5 is formed long in the cover 1. In the groove plate 2 corresponding to the coupling wall 5, a coupling wall groove 7 is formed so that the coupling wall 5 of the cover 1 is coupled.

FIG. 8 is an embodiment applied when the bottom surface treatment as shown in FIG. 15 is performed. The shape of the coupling wall 5 is formed as a curved portion, and the coupling wall groove 7 of the groove plate 2 coupled thereto is also formed therein. Grooves of corresponding shape were formed. FIG. 9 is an example similar to that of FIG. 8, in which the corner portion is curved as shown in the application example of FIG. It is characterized in that the formation position of the coupling wall 5 and the coupling wall groove 7 is located at the corner.

FIG. 10 shows only the plane of the groove plate as a modified example of the configuration of FIG. In the present embodiment, the pipe groove 8 is further formed, but this is because all the grooves formed in the portion requiring the pipe or the wiring or the groove plate 2 are inclined toward the pipe groove 8 according to the installation position. It also serves as a conduit to give.

11 to 13 show an example that is applied when a certain protrusion having a predetermined shape is formed on the bottom as shown in FIG. Here, the protruding wall 15 was formed in various forms on the upper surface of the lid 1.

14 is a plan view and a cross-sectional view of another configuration example of the cover 1, in which the drain groove 16 is formed on the upper surface, and as shown in the cross-sectional view, the drain hole 17 is also formed to form the drain groove on the upper surface of the cover 1. Liquid accumulated in (16) was allowed to leak to the bottom through the drain hole (17). Such a structure is applicable to various places such as a pool floor, a sidewalk block, a bath floor, and the like.

15 is a plan view showing all examples to which the above-described configuration of the assembled flooring material according to the present invention can be applied. According to the configuration of the present invention described above, it is possible to form a protrusion wall of a predetermined shape on the bottom surface, such as the portion shown in Figs. In addition, not only the bottom surface on which the drain groove 16 is formed as shown in FIG. 14 can be formed, but also the bottom surface is formed only by the configuration of the groove plate 2 without the cover 1 as shown in the lower part of FIG. It can be done.

All the grooves formed in the groove plate 2 described above are U-shaped when viewed in cross-sectional shape, and the grooves formed on the upper and lower surfaces of the groove plate 2 are formed at the front of the groove plate 2 of FIG. As you can see, it is good to make the upper and lower grooves cross each other. This is because the bending and breakage of the groove plate 2 can be prevented under load, and sufficient strength is maintained.

According to the configuration of the present invention as described above, for example, in the case of forming the indoor floor surface, after forming a concrete surface on the floor surface, and after the concrete construction work after the concrete coating simply after laying the piping plate of the present invention Since the cover is assembled, the operation is very convenient, and in the case of an office, when the flooring material according to the present invention is installed without having to install the floor pallet, wiring through the ceiling is unnecessary, and wiring through the ceiling is not necessary. Unsightly wiring to the upper surface of the floor can also be prevented. In case of fire through the ceiling, the wire wired to the ceiling burns out first when the fire occurs, but the wire installed on the floor of the present invention burns after the fire, so if the building is not completely burned, the floor surface after extinguishing the fire Wiring such as wires wired below also has the advantage of being secured.

In another example, in the case of a landfill site, if only the groove plates according to the present invention are installed on the floor, but each groove plate is airtightly bonded with a binder, wastewater generated along the grooves of the groove plate can be collected without fear of sewage into the ground. Environmental protection is also very advantageous.

Most preferably, the material of the prefabricated flooring material according to the present invention is produced using waste synthetic resin. Because the groove plate according to the present invention has a complicated groove structure, if it is made of cement, the strength is lowered and is open to break or break. Therefore, when forming and fabricating using waste synthetic resin, the groove structure is easy to manufacture and the strength is also very high, so even if the groove of a complicated structure is formed, there is no fear of being easily broken or broken, and the weight is lighter than cement. In some cases, in addition to the waste synthetic resin, it may be prepared by mixing cement, stone powder, or waste sludge from a paper mill.

In general, when waste resin is burned, air is contaminated by the generation of toxic gas, and when it is landfilled, it has not contaminated for a long time and contaminates the soil. When manufactured by production, it is an invention that can recycle waste synthetic resin which is the main culprit of environmental pollution, which is very useful industrially and has a great effect in terms of environmental protection.

Meanwhile, in the present invention, the basic planar shape of the assembled flooring material has been described based on a square or rectangular shape, but the present invention is not limited thereto and may be formed in various other shapes. For example, in the case of forming a diamond, all shapes of the corresponding portions can be modified to suit the shape. In other words, it is appropriate to form the connection ring (3) connecting each unit assembly flooring in this case to form an oval. In addition, in the basic structure of the groove plate and the cover illustrated in the embodiments of the present invention can be divided (divided) into more pieces and interconnected by the same method.

Description of the embodiments of the present invention as described above is merely exemplary, and may be changed in any form within the technical scope of the present invention.

Claims (8)

In the prefabricated flooring connecting method for forming the indoor and outdoor floor surface by the continuous connection of the prefabricated flooring material, the grooves (2) divided into two or more are in close contact with each other to form a circular groove, and then the circular groove in the groove Joining the coupling ring (3) of the plurality of groove plates (2) are coupled to be connected at the same time, the upper surface is coupled to the cover (1) to connect the prefabricated flooring material so that the connection inside the groove plate (2) is not visible. In forming a prefabricated flooring material to be configured by connecting the indoor and outdoor floors in a prefabricated series, the cover (1) having a projection (4) on the lower surface; Insertion groove (6) coupled to the protrusion (4), the circular wall 11 and the semi-circular wall (10) formed a protruding wall to allow the insertion of the connection ring inward, the circle for separation of the connection ring A connection formed near the side for connecting the separation groove 13 formed in the wall 11 and the semi-circular wall 10 and the connection ring fitting groove 12 formed inside the circular wall 11 and another groove plate. A groove plate (2) having grooves (9, 9A) and piping grooves (8) formed as grooves that are generally concave for piping or wiring; And a connecting ring (3) connecting the grooves (2) to each other by inserting the connection grooves (9, 9A) of the grooves (2) (FIG. 1). The prefabricated flooring material according to claim 2, wherein the groove formed in the groove plate (2) is U-shaped in cross section. The method of claim 1, wherein the groove plate 2 is made of a diamond shape and the connecting ring 3 is an elliptical shape, when the groove shape of the groove plate (2) sandwiching it is also in close contact with each other to form an elliptical groove How to connect. In forming a prefabricated flooring material to be configured by connecting the indoor and outdoor floors in a prefabricated series, the cover (1) having a projection (4) on the lower surface; Insertion groove (6) coupled to the projection (4), connecting grooves (9, 9A) formed near the side for connecting the other groove plate, and piping grooves (8) formed of concave grooves for piping or wiring ), A separation groove 13 formed in the circumferential direction of the connection grooves 9 and 9A for separation of the connection ring, and a groove plate 2 having a through groove 14 formed to penetrate vertically. Prefabricated flooring material (figure 4). In forming a prefabricated flooring material to be configured by connecting the indoor and outdoor floors in a prefabricated series, step (1) having a projection (4) and the engaging wall (5) projecting perpendicular to the lower surface; Insertion groove (6) to be coupled to the projection (4), connecting groove (9A) formed for connection with other groove plate, and through groove (14) penetrating vertically from the upper surface to the lower surface, separation of the connection ring Groove plate (2) having a separation groove (13) formed in the outer circumferential direction of the connecting groove (9A) and a coupling wall groove (7) formed of a groove for engaging with the coupling wall (5) of the cover (1) for Prefabricated flooring (figure 8) consisting of (figure 9). The prefabricated flooring material according to claim 5, wherein the cover (1) is further provided with a coupling wall (5) vertically formed downward, and the groove plate (2) corresponding thereto has a coupling wall groove (7). 7). The drainage groove 16 is formed in the upper surface of the cover 1, and the drain hole 17 which penetrates the cover 1 is formed in any one of Claims 2, 5, and 6. Prefabricated flooring (14).