KR20120075007A - Deck combined with systhetic wood and non-slip member and manufacturing method thereof - Google Patents

Abstract

PURPOSE: A deck having anti-slip members made of different kinds of materials and a manufacturing method thereof are provided to reduce safety accidents by enabling pedestrians to easily distinguish the corners of stairs even in the night. CONSTITUTION: A deck having anti-slip members made of different kinds of materials comprises a deck body(10), a pair of brackets(13), and a coupling member(14). The deck body is composed of base plates(11) and anti-slip members(12) alternately arranged. The brackets are located at both surfaces of the deck body. The coupling member penetrates through the brackets to couple the base plates and anti-slip members to each other. When the coupling member is tightened, the anti-slip members are expanded and protruded more upward than the tops of the base plates.

Description

DECK COMBINED WITH SYSTHETIC WOOD AND NON-SLIP MEMBER AND MANUFACTURING METHOD THEREOF}

The present invention relates to a deck to which the non-slip member is coupled, and more particularly, to a deck to which the non-slip member of different materials is firmly coupled and a manufacturing method thereof.

In general, wood is used as many interior and exterior decoration materials because of the excellent processing, low price and beautiful appearance.

In addition, in terms of wood recycling, synthetic wood, which is formed from a plate or wood of a certain size after mixing powder particles of wood with a molten synthetic resin, has a water resistance due to the synthetic resin, and can be greatly increased in strength, so it is widely used as an outdoor decoration material. It is a trend.

Synthetic wood is a wood substitute material used to compensate for the disadvantages of decay, discoloration, deformation and mold habitat due to weathering when it is installed outdoors. It is mainly installed outdoors in parks, hiking trails, gazebos, playgrounds, and yards.

Synthetic wood contains more than 50% of wood powder, and its workability is similar to wood, but it is an extruded industrial product, which allows uniformity of materials and free form, and various outdoor decks, gazebos, outdoor structures, benches, etc. It is utilized.

In addition, the synthetic wood as described above is capable of recycling the waste wood and excellent weatherability and impact resistance, and can represent a variety of shapes, colors, patterns and textures without a separate treatment compared to ordinary wood, environmentally friendly as a semi-permanent material Subsequently, the use of building materials, furniture, and weather resistance is demanded, such as beach decks, park benches and stairs, walkways and hiking stairs, and the like.

As such, the staircases of trails and hiking trails are designed to prevent sliding accidents because many people step on them.

In particular, the outdoor decks, walkways, and staircases of hiking trails have high moisture, rain, snow, etc., which can cause slippage. Or grooves are provided in the longitudinal direction to impart a slip prevention function. However, this surface processing method has an anti-slip effect at the beginning of installation, but when many people step on it, there is a problem that the surface is quickly worn out and the anti-slip function is lost.

In addition, the conventional synthetic wood has a weak weather resistance, in particular, thermal stability, causing a deformation of the shape is warped, the risk of accidents increase or shrinkage expansion due to temperature changes repeatedly unwinding or breaking the fixed structure may cause various accidents. In addition, there is a problem of discoloration or discoloration.

Therefore, the present invention was created to solve the problems as described above, an object of the present invention is to produce a deck that can maximize the anti-slip function when the non-slip member of the synthetic wood and heterogeneous material.

Another object of the present invention is to strengthen the binding force between the base plate and the anti-slip member even with a simple configuration.

Still another object of the present invention is to prevent the coupling member for coupling the non-slip member of the dissimilar material from interfering with the outside by preventing the coupling member from protruding outward.

Still another object of the present invention is to improve decorativeness while increasing nighttime discrimination.

Another object of the present invention is to increase the friction of the deck surface.

Deck combined with the non-slip member of the heterogeneous material according to an embodiment of the present invention for achieving this object is a deck provided alternately stacked so that the base plate and the non-slip member is vertically positioned, located on both sides of the deck A pair of brackets and a coupling member provided to be coupled through the bracket, and tightening the coupling member expands the non-slip member so that each top surface protrudes above the top surface of the base plate. It features.

In addition, the inside of the base plate is characterized in that the locking groove is formed so that the part of the outer circumferential surface of the non-slip member is expanded and seated when the coupling member is firmly tightened.

In addition, the coupling member is made of a bolt and nut, the base plate at both ends is formed with a receiving portion, characterized in that the bracket is formed to correspond to the shape of the receiving portion.

In addition, the base plate and the non-slip member is stacked, the upper surface of the non-slip member is projected upward from the upper surface of the base plate, respectively, and arranged so that the lower surface of the non-slip member is drawn upward from the lower surface of the base plate It is characterized by.

In addition, the non-slip member may include a photoluminescent material or a photoluminescent material is coated on the surface of the non-slip member.

The base plate is made of any one material of synthetic wood, solid wood, the non-slip member is made of any one material of polyurethane, silicone, synthetic resin.

As described above, according to the deck to which the non-slip member of the dissimilar material according to the present invention is coupled, it has the effect of improving the durability more than the deck consisting of only synthetic wood.

In addition, it has an effect of preventing the base plate and the non-slip member from being easily broken and separated.

In addition, by minimizing the interference to the outside by the coupling member can be easier to work when the deck is installed on the stairs.

In addition, the pedestrian is easy to identify the edge of the stairs even at night has the effect of preventing safety accidents due to slipping or slipping.

In addition, it has an effect that can maximize the function of the more effective slip prevention compared to the structure formed of simple unevenness.

1 is an exploded perspective view showing a deck combined with a non-slip member of a different material according to an embodiment of the present invention.
Figure 2 is a cross-sectional view of the deck combined with a non-slip member of a different material according to an embodiment of the present invention.
Figure 3 is a perspective view of the deck combined with the non-slip member of the different materials according to an embodiment of the present invention.
Figure 4 shows that the deck combined with the non-slip member of the heterogeneous material according to an embodiment of the present invention is embedded in the corner of the stairs.
Figure 5 shows that the receiving grooves are formed on both sides of the deck is coupled to the non-slip member of the different materials according to an embodiment of the present invention.
Figure 6 is a flow chart of the deck combined with a non-slip member of a different material according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an exploded perspective view showing a deck combined with a non-slip member of a dissimilar material according to an embodiment of the present invention, Figure 2 is a deck of a non-slip member is combined according to an embodiment of the present invention 3 is a cross-sectional view of a deck to which a non-slip member of different materials according to an embodiment of the present invention is coupled.

As shown in the figure, the deck to which the non-slip member of the heterogeneous material according to the embodiment of the present invention is coupled includes a base plate 11, a non-slip member 12, and a bracket 13.

The base plate 11 may be applied to the natural wood or synthetic wood.

Here, the synthetic wood may have a known composition obtained by mixing the wood classification, which is the wood chips that crush the waste wood, and the synthetic resin, which is a high-temperature, liquefied olefin-based polymer (Polyolefins), and then cooling and curing in a pressurized state in a predetermined mold. have. As such, the deck made of synthetic wood has a substantially plate shape, and may be manufactured in various shapes according to a user's intention, and may have various physical properties by configuring different powder sizes and materials of synthetic resin.

In the present invention, it is assumed that the deck is applied to the stairs indoors and outdoors, but can be applied in various applications where synthetic wood, such as pillar members or handrail members, can be applied.

The deck body 10 has a characteristic that the strength is increased while curing the synthetic resin of the liquid mixed with the wood classification.

In addition, when the base plate 11 is produced by extrusion molding the synthetic wood, since the initial surface is molded in a very smooth state, the uneven surface is formed on the surface by a brushing process that can be generally applied to reinforce the frictional force. Can be formed.

In addition, locking grooves 111 may be formed on both side surfaces of the base plate 11. The locking groove 111 performs a function of increasing the binding force between the base plate 11 and the non-slip member 12 when a portion of both sides of the anti-slip member 12 to be described later is protruded.

In addition, the non-slip member 12 is provided so as to alternately overlap the base plate 11. Such an anti-slip member 12 can be formed using a synthetic resin such as polyurethane, silicone, rubber with a buffering force.

The non-slip member 12 is made of any one material of night light emitting particles, ceramic powder particles, abrasive powder particles, or any one or more of the night light emitting particles, ceramic powder particles, abrasive powder particles as a binder Therefore, the frictional force can be increased by forming the outer surface convexly.

In addition, the photosensitive material may be included in the non-slip member 12 or the photoluminescent material may be applied to the surface of the non-slip member 12. ) Can be easily identified by pedestrians, and aesthetics can also be displayed.

The deck main body 10 is manufactured by arrange | positioning so that both sides of the said base plate 11 and the non-slip member 12 may be superimposed alternately.

In this case, the base plate 11 is disposed outside, and the bracket 13 may be disposed on both side surfaces of the base plate 11.

Here, it is preferable that the bracket 13 is disposed at both ends of the deck main body 10 so as to contact the base plate 11 in a state where the base plate 11 is disposed.

The bracket 13 allows the coupling member 14, which will be described later, to be easily installed at the place of use, to be firmly supported and coupled.

In addition, the locking groove 121 is formed on both sides of the non-slip member 12, and the locking groove 111 is formed in the base plate 11 so as to correspond to the locking protrusion 121. 111 and the engaging protrusion 121 are engaged with each other.

Figure 4 shows that the deck combined with the non-slip member of the heterogeneous material according to an embodiment of the present invention is embedded in the corner of the stairs.

As shown, the deck body 10 may be installed recessed in the stairs (S) during the initial installation.

That is, the deck main body 10 is installed on the edge of the stairs (S), but the deck by cutting the corner portion of the stairs (S) to correspond to the shape of the deck body 10 so as to minimize the portion protruding upwards The main body 10 may be seated on the stairs (S). Here, when the deck body 10 is installed on the stairs S, an adhesive member (not shown) may be attached to form the adhesive on the stairs S, and the adhesive member may be formed on the deck body 10. When coated on the outer surface, release paper is required. In addition, a separate bracket (not shown) may be penetrated from the upper side of the deck body 10 or may be coupled using other coupling means.

Here, Figure 5 shows that the receiving grooves are formed on both sides of the deck combined with the non-slip member of the different materials according to an embodiment of the present invention, as shown in the shape of the bracket 13 is the deck body 10 It may be formed in a flat plate shape so as to be in contact with both sides of the), but when the coupling member 14 is composed of a bolt (14a) and a nut (14b), when both ends of the coupling member 14 protrudes outward In order to prevent this, since the interference of the furnace is formed, both ends of the deck main body 10 are formed with receiving grooves 15 inward, and the bracket 13 is formed in a shape corresponding to the receiving groove 111. The bolt 14a and the nut 14b may be drawn inside.

Hereinafter, with reference to the accompanying drawings, the manufacturing method of the deck combined with the non-slip member of the different materials according to an embodiment of the present invention will be described in detail.

Figure 6 is a flow chart of the deck combined with a non-slip member of a different material according to an embodiment of the present invention.

First, the wood classification and the synthetic resin solution are mixed at a known ratio to form a mixture of wood classification evenly distributed, and then the mixture is injected or extruded to form a plurality of plate-shaped base plates 11 ( S1).

Thereafter, a plurality of non-slip members 12 are formed into a shape that can be stacked to correspond to the base plate 11 (S2).

That is, the non-slip member 12 is alternately nested between each of the base plates 11 (S3). At this time, the upper surface of each of the non-slip member 12 is arranged so that the upper surface protrudes from the upper surface of the base plate 11 so that the lower surface of each of the non-slip member 12 is the lower surface of the base plate 11 To protrude downward from the bottom.

Here, when the base plate 11 and the anti-slip member 12 is combined, the anti-slip member 12 is protruded at a predetermined interval upward to have an effect of maximizing the friction force of the upper surface.

In addition, when the base plate 11 and the non-slip member 12 are tightened using the coupling member 14, the base plate so as to correspond to the engaging protrusion 121 formed on both sides of the non-slip member 12. Since the locking groove 111 is formed in the 11, the locking groove 111 and the locking protrusion 121 are engaged with each other to maximize the binding force (S4 and S5).

In addition, brackets 13 are disposed on both side surfaces of the deck body 10 including the base plate 11 and the non-slip member 12.

Thereafter, the bracket 13 is fastened using an example of the coupling member 14 provided separately, using a bolt 14a or a nut 14b.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, And all changes to the scope that are deemed to be valid.

10: Deck
11: base plate
12: non-slip member
13: bracket
14: engagement member
14a: bolt
14b: nuts
15: acceptable home
111: jamming groove
121: Hanging projection

Claims (7)

A deck body 10 provided with the base plate 11 and the non-slip member 12 alternately stacked so as to stand vertically;
A pair of brackets 13 positioned on both sides of the deck body 10; And
A coupling member 14 provided to be coupled through the bracket 13;
Including,
When the coupling member 14 is tightened, the non-slip member 12 expands, so that the upper surface of each of the non-slip members of the non-slip material is combined, characterized in that protrudes above the upper surface of the base plate (11). The method of claim 1,
The base plate 11 is coupled to the non-slip member of the different materials, characterized in that the locking groove 111 is formed so as to correspond to the engaging projection 121 formed on both sides of the non-slip member 12 is coupled. Deck. The method of claim 1,
The coupling member 14 is composed of a bolt 14a and a nut 14b, and the base plate 11 and the bracket 13 at both ends thereof have a bolt 14a and a nut 14b of the coupling member 14. The deck is coupled to the non-slip member of a different material, characterized in that the receiving groove 15 is formed is inserted. The method of claim 1,
The base plate 11 and the non-slip member 12 are stacked, the upper surface of the non-slip member 12 protrudes upwards from the upper surface of the base plate 11, and at the same time of the anti-slip member 12 The deck is coupled to the non-slip member of the different materials, characterized in that the lower surface is arranged to be drawn up from the lower surface of the base plate (11). The method of claim 3,
The non-slip member 12 includes a photoluminescent material, or a non-slip member combined deck characterized in that the photoluminescent material is applied to the surface of the non-slip member (12). The method of claim 1,
The base plate 11 is made of a material of any one of synthetic wood, solid wood, the non-slip member 12 is non-slip of different materials, characterized in that made of any one material of polyurethane, silicone, rubber Deck with joined members. Forming a plurality of base plates 11 (S1);
Made of a soft material, and forming a plurality of non-slip member 12 (S2);
Forming a deck main body (10) by alternately wrapping the base plate (11) and the anti-slip member (12);
Step (S4) by installing a metal bracket 13 on both sides of the deck body 10; And
Fastening the brackets 13 and the deck body 10 on both sides with a coupling member 14 (S5);
Method for producing a deck with a non-slip member of a heterogeneous material comprising a.

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