KR102225847B1 - Non-slip deck for improve a stability, because sticking a luminous body - Google Patents

Abstract

The present invention relates to a non-slip deck made of a WPC material with improved safety by attaching at least one of a phosphorescent light or a light emitting body. More particularly, the present invention relates to a non-slip deck made of WPC material with improved safety by attaching at least one of a phosphorescent light or a light emitting body, which is configured to be easy to sequentially arrange, maximizes the effect on non-slip by providing concave-convex grooves on upper and lower surfaces to achieve non-slip property and additionally providing a stainless non-slip pad on one side of the upper surface, while ensuring safety for deck use by including a light emitting body on the other side of the upper surface.

Description

Non-slip deck made of WPC material with improved safety by attaching at least one of phosphorescent or luminous bodies {NON-SLIP DECK FOR IMPROVE A STABILITY, BECAUSE STICKING A LUMINOUS BODY}

The present invention relates to a non-slip deck made of a WPC material with improved safety by attaching at least one of a phosphorescent or a light emitting body.

Specifically, in the deck of WPC material, it is configured to be easily arranged continuously, and provides non-slip by providing uneven grooves on the upper and lower surfaces, but by additionally providing a stainless non-slip pad on one side of the upper surface, the effect on non-slip is maximized. On the other hand, it relates to a non-slip deck made of a WPC material with improved safety by attaching at least one of a phosphorescent or a luminous body, which is provided with a luminous body on the other side of the upper surface to ensure safety for the use of the deck.

Recently, there is a need for the development of various building materials, and in particular, demand for civil works and building materials that are light while having high strength is constantly being demanded.

Wood Plastic Composite (hereinafter referred to as WPC) profile extrusion product, which is manufactured by mixing wood and plastic, as a building material that has recently been in the spotlight is used as exterior building material.

In the case of the WPC, wood powder is added to various thermoplastic resins such as polyvinyl chloride, polyethylene, and polypropylene, so that the excellent processability of plastic and the beautiful appearance of wood, and high strength, low price, and application fields compared to the case of conventional wood or plastic single material There are several advantages, including the versatility of.

As described above, WPCs having various advantages are particularly used outdoors because they can maintain a long life even under adverse conditions such as rain, wind and dust.

In such WPC profile extrusion construction, it is easy to cut to a certain length and construct it, so it is cut to a certain length during production. Due to the nature of the WPC profile extrusion process, continuous work is required and cutting is required, so the length is measured. At the time, a device that measures the length through the number of rotations of a rotating body using a rotating device is mainly used.

However, when cutting the base material of the deck that has exited the double extrusion molding machine, the size of the base material is not uniform due to the slip phenomenon or the sensing error that occurs during a series of processes of sensing the entry of the base material and lowering the cutting blade. As a result, the size of the remaining decks is also affected, resulting in a serious problem that all of the decks produced are defective.

Registered Patent Publication No. 10-1783651 (announced on Oct. 11, 2017) Unexamined Patent Publication No. 10-2011-0057863 (2011.06.01.) Registered Patent Publication No. 10-2038038 (announced on November 26, 2019) Registered Patent Publication No. 10-1129492 (2012.04.02. Announcement)

It is an object of the present invention to achieve non-slip by providing a concave-convex groove on the upper/lower side of a deck made of WPC material, and by additionally providing a sten-non-slip pad on one side of the upper surface, the effect on non-slip On the other hand, it is to provide a non-slip deck made of WPC material with improved safety walking induction function and safety by attaching a luminous or luminous body to ensure safety for the use of the deck by providing a luminous or luminous body on the other side of the upper surface.

Conceived to achieve the above object, the non-slip deck made of WPC material with improved safety by attaching at least one of the phosphorescent or luminous bodies according to the present invention is made of a WPC material, and is formed in a number of rows in the width direction on the upper surface. Consisting of including an upper concave-convex groove 11 and a lower concave-convex groove 12 formed in a plurality of rows in the width direction on the lower surface,

A pad insertion groove 13 is further formed on one side of the upper surface of the WPC deck 10 on which the upper concave-convex groove 11 is formed, and the stainless non-slip pad 20 is inserted,

It is characterized in that it is configured by interpolating a light emitter, further including a phosphorescent insertion groove 14 on the other side of the upper surface of the WPC deck (10).

In this case, a light-emitting body insertion groove 141 is further formed on the bottom surface of the phosphorescent insertion groove 14.

In addition, the stainless non-slip pad 20,

It includes a protrusion 21 configured to be lifted by cutting one side protruding as a hemispherical protrusion on its upper surface,

The protrusions 21 are arranged in multiple rows in a line based on the width direction,

With respect to the incision area of the protrusion in one row, the incision area of the protrusion in the other adjacent row has a direction perpendicular to 90°,

Also in the same row, the cut-out area of any one of the protrusions in the same row is characterized in that the cut-out area of the other adjacent protrusion has a direction opposite to that of the cut-out area.

In addition, the WPC deck 10,

After cutting the wood, crushing it to the required size and pulverizing it,

Wood powder and a synthetic resin made of any one of HDPE, PVC or PP are blended, and a composite is formed using additives,

The composite is completely melted at a high temperature of 180° C. or higher, and extruded at high pressure,

After performing the molding to diversify the extruded composite using a mold,

It is characterized in that it is manufactured by cooling the molded body through water cooling and air cooling to maintain the shape of the product and increase the hardness.

In addition, the composite,

It is characterized in that the wood flour 50% by weight or more, 30 to 45% by weight of synthetic resin and 5 to 20% by weight of additives as raw materials.

According to the non-slip deck made of WPC material with improved safety by attaching at least one of the phosphorescent light or the light-emitting body according to the present invention, it is configured to be easily arranged continuously, and has uneven grooves on the top and bottom to achieve non-slip, but on one side of the top surface. By additionally providing a stainless non-slip pad, the effect on non-slip can be maximized.

In addition, it has the effect of ensuring the safety for the use of the deck by providing a light-emitting body on the other side of the upper surface.

1 shows a non-slip deck made of a WPC material with improved safety by attaching at least one of a phosphorescent light or a luminous body according to the present invention.
2 shows the configuration of a stainless non-slip pad coupled to a non-slip deck made of a WPC material with improved safety by attaching at least one of a phosphorescent light or a light-emitting body according to the present invention.

Terms or words used in this specification and claims should not be construed as being limited to their usual or dictionary meanings, and that the inventor can appropriately define the concept of terms in order to describe his own invention in the best way. Based on the principle, it should be interpreted as a meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the matters shown in the drawings are only the most preferred embodiments of the present invention, and do not represent all the technical ideas of the present invention, and various equivalents that can replace them at the time of application It should be understood that there may be variations and variations.

Hereinafter, prior to description with reference to the drawings, matters that are not necessary to reveal the gist of the present invention, that is, known configurations that can be obviously added by those skilled in the art are not shown or specifically described. Make the note clear.

The present invention relates to a non-slip deck made of a WPC material with improved safety by attaching at least one of a phosphorescent or a light emitting body.

Specifically, in the deck of WPC material, it is configured to be easily arranged continuously, and provides non-slip by providing uneven grooves on the upper and lower surfaces, but by additionally providing a stainless non-slip pad on one side of the upper surface, the effect on non-slip is maximized. On the other hand, it relates to a non-slip deck made of a WPC material with improved safety by attaching at least one of a phosphorescent or a luminous body, which is provided with a luminous body on the other side of the upper surface to ensure safety for the use of the deck.

A non-slip deck made of a WPC material having improved safety by attaching at least one of the phosphorescent or luminous bodies of the present invention according to the accompanying drawings will be described with reference to FIG. 1 of the accompanying drawings.

1 shows a non-slip deck made of WPC material with improved safety by attaching at least one of a phosphorescent light or a luminous body according to the present invention.

The WPC deck 10 is made of a WPC material, and includes an upper concave-convex groove 11 formed in a plurality of rows in the width direction on an upper surface, and a lower concave-convex groove 12 formed in a plurality of rows in the width direction on the lower surface.

In addition, the WPC deck 10 is completed by arranging and combining a plurality of the WPC deck 10 with a predetermined size. At this time, two of the two opposite sides of the one side of the WPC deck 10 in order to couple the WPC deck 10 between adjacent ones. The side may be configured with a groove for coupling the connecting means.

At this time, the direction connecting the connecting means is referred to as the longitudinal direction, and the direction perpendicular thereto is referred to as the width direction.

In addition, a pad insertion groove 13 is further formed on one side of the upper surface of the WPC deck 10 on which the upper uneven groove 11 is formed, so that the stainless non-slip pad 20 can be inserted.

In addition, it further includes a phosphorescent insertion groove 14 on the other side of the upper surface of the WPC deck 10, so that the phosphorescent (tape) can be interpolated.

In addition, the light-emitting body insertion groove 141 may be further formed in the width direction below the photoluminescent insertion groove 14. The luminous body insertion groove 141 is a configuration in which a luminous body is inserted and fixed. In this case, the luminous body is not shown in the drawing, but means a light-emitting means such as a phosphor or an LED, and may be electrically connected.

In this case, when electricity is required to emit light from the light-emitting body, a wiring groove (refer to the lateral groove in FIG. 1) may be formed to enable wiring of an electric line.

At this time, it is natural that both the pad insertion groove 13 and the phosphorescent insertion groove 14 are formed in the width direction.

In addition, the lower concave-convex groove 12 is configured to have a larger size of the concave-convex groove compared to the upper concave-convex groove 11. Accordingly, it is possible to more effectively prevent the WPC deck from sliding from the ground, and even if there is a curvature or foreign matter in the ground, it is helpful to flatten the WPC deck 10 from the ground.

The stainless non-slip pad 20 may refer to FIG. 2 of the accompanying drawings.

2 shows the configuration of a stainless non-slip pad coupled to a non-slip deck made of a WPC material with improved safety by attaching at least one of a phosphorescent light or a luminous body according to the present invention.

A plurality of protrusions 21 are arranged at regular intervals on the upper surface of the stainless non-slip pad 20 shown in FIG. 2 of the accompanying drawings.

In addition, the protrusion 21 is a hemispherical protrusion and is configured to be lifted by cutting one side protruding.

In this case, the protrusions 21 may be arranged in a row in a row with respect to the width direction, and with respect to the incision area of the protrusion in one row, the incision area of the protrusion in the adjacent row has a direction perpendicular to 90°. Let's do it.

In addition, for the same row, the cut area of any one protrusion in the same row is made to have a direction opposite to that of the other adjacent protrusion.

Accordingly, it is possible to further improve the non-slip effect according to the incision area of the protrusion, and at the same time, problems such as deck damage, sports shoe damage, and body damage that may occur due to the incision area of the protrusion can be prevented in advance.

The WPC constituting the WPC deck 10 according to the present invention and the WPC deck 10 using the WPC are manufactured by the following process.

1. It is the process of achieving soft nitriding of wood powder by pulverizing after collecting raw materials. In other words, wood is cut, crushed to the required size, and powdered.

2. This is a process of combining wood powder and synthetic resin (a group consisting of HDPE, PVC or PP) from step 1 and using additives to form a composite.

3. This is an extrusion process in which the composite of the second step is completely melted at a high temperature of 180℃ or higher, and the molecular weight of the synthetic resin is increased under high pressure to strengthen the bond with the fibers.

4. It is a molding process that diversifies the bonded composite secured in step 3 through a mold.

5. This is the process of maintaining the shape of the product and increasing the hardness by cooling the molded body formed in step 4 through water cooling and air cooling.

6. This is the process of making the surface texture similar to that of wood by brushing or finishing the cooling body in the 5th process. In this case, it may further include a process of cutting and cutting according to the standard, if necessary.

Thereafter, surface defects and dimensional inspection are performed, and the WPC deck 10 is completed through packaging and marking.

At this time, the blending of the second step uses at least 50% by weight of wood flour, 30 to 45% by weight of synthetic resin, and 5 to 20% by weight of additives based on the weight ratio.

Specifically, 50% by weight of wood flour, 45% by weight of synthetic resin, and 5% by weight of additives are used, but when using more than 50% by weight of wood flour, the content of the additive may be reduced accordingly.

In addition, as additives, stabilizers, waxes, calcium carbonate, and the like may be used.

What has been described with reference to the drawings above is a description of only the main matters of the present invention, and it is obvious that the present invention is not limited to the configuration of the drawings as various designs are possible within the technical scope.

10: WPC deck
11: upper uneven groove
12: lower uneven groove
13: pad insertion groove
14: phosphorescent insertion groove
141: luminous body insertion groove
20: stainless non-slip pad
21: protrusion

Claims (5)

It is made of a WPC material, and is configured to include an upper concave-convex groove 11 formed in a plurality of rows in the width direction on the upper surface, and a lower concave-convex groove 12 formed in a plurality of rows in the width direction on the lower surface,
A pad insertion groove 13 is further formed on one side of the upper surface of the WPC deck 10 on which the upper concave-convex groove 11 is formed, and the stainless non-slip pad 20 is inserted,
The WPC deck 10 further includes a photoluminescent insertion groove 14 on the other side of the upper surface, and is configured by interpolating a light-emitting body;
The stainless non-slip pad 20,
It includes a protrusion 21 configured to be lifted by cutting one side of the protruding as a hemispherical protrusion on the upper surface,
The protrusions 21 are arranged in multiple rows in a line based on the width direction,
Which one
With respect to the incision area of the protrusion of the column, the incision area of the protrusion of the other adjacent row is made to have a direction perpendicular to 90°,
WPC with improved safety by attaching at least one of a phosphorescent or luminous body, characterized in that the incision area of one protrusion in the same row has a direction opposite to the incision area of another adjacent protrusion, even in the same row. Non-slip deck made of material.

The method according to claim 1,
A non-slip deck made of WPC material, characterized in that a light-emitting body insertion groove 141 is further formed on the bottom surface of the light-emitting insertion groove 14, and at least one of a light-emitting body or a light-emitting body is attached to improve safety.
The method according to claim 1,
The WPC deck 10,
After cutting the wood, crushing it to the required size and pulverizing it,
Wood powder and a synthetic resin made of any one of HDPE, PVC, or PP are mixed, and a composite is formed using additives,
The composite is completely melted at a high temperature of 180° C. or higher, and extruded at high pressure,
After performing the molding to diversify the extruded composite using a mold,
A non-slip deck made of WPC material, characterized in that it is manufactured by cooling the molded body through water cooling and air cooling to maintain the shape of the product and increase the hardness.
The method of claim 3,
The complex,
A non-slip deck made of WPC material with improved safety by attaching at least one of phosphorescent or luminous bodies, characterized in that the wood flour is 50% by weight or more, synthetic resin 30 to 45% by weight, and 5 to 20% by weight of additives as raw materials.


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