KR101376106B1 - Manufacturing method of fireproof-wallpaper - Google Patents

Abstract

The present invention relates to a fireproof wall paper manufacturing method for producing a wallpaper by mixing the waste material with an adhesive and hot compression at high temperature.
Fireproof wall paper manufacturing method according to the present invention, the material cutting step (S110) for cutting the material to a predetermined size; An inflation step (S120) of inflating the material cut by the material cutting step (S110) using a carding machine; A stacking step (S130) of stacking a plurality of layers; A binding step (S140) of punching up and down the materials stacked in a plurality of layers by the laminating step (S130) by using a punching machine to entangle the plurality of materials stacked up and down; An application step (S150) of applying an adhesive to one surface; An exterior step (S160) of attaching a fixing agent to one surface thereof; Drying step (S170) to dry; It consists of a product cutting step (S180) and packaging step (S190). According to the present invention as described above, there is an advantage that the burning of the wallpaper is prevented even in a high temperature flame.

Description

Manufacturing method of fireproof wall paper {Manufacturing method of fireproof-wallpaper}

The present invention relates to a fireproof wallpaper manufacturing method, and to a fireproof wallpaper manufacturing method for producing a wallpaper that withstands high temperature through the process of inflating and binding the waste material and the adhesive mixture.

In general, the wallpaper is attached to the outer surface of the building by an adhesive to decorate the exterior, made of a material such as paper.

Therefore, such a conventional wallpaper has a problem that is vulnerable to fire prevention. In other words, various technologies such as Korean Patent Publication No. 10-2007-0053379, and the technology for the various types of wallpaper and its manufacturing method are used, but generally made of paper, there is a problem that the fire is vulnerable to fire.

In addition, waste materials, in particular, a material containing free auxin or pyromax as a main component, are no longer utilized and are discarded, thereby becoming a major culprit of environmental pollution.

Accordingly, an object of the present invention is to solve the problems of the prior art as described above, mainly composed of free auxin or pyromax, and carbon is selectively mixed to prevent combustion at high temperatures. It is to provide fireproof wallpaper.

Another object of the present invention is to provide a method for producing a fire-resistant wallpaper which separates free auxin or pyromax from waste material to create a wallpaper that can withstand high temperatures.

According to a feature of the present invention for achieving the object as described above, the method of manufacturing a fireproof wallpaper according to the present invention comprises: cutting a material to a predetermined size; An inflation step of inflating the material cut by the material cutting step by using a carding machine; A lamination step of flowing the material inflated by the inflation step from side to side by a molding machine and stacking a plurality of layers; A binding step in which a plurality of materials stacked up and down are entangled with each other by punching the materials stacked in a plurality of layers by the laminating step up and down using a punching machine; An application step of applying an adhesive to at least one surface of the material assembly bound by the binding step; An exterior step of attaching a fixing agent to one surface of a material assembly to which an adhesive is applied to an outer surface by the applying step; A drying step of drying the finished material by using a heater; A product cutting step of cutting the product made by passing the drying step to a predetermined length; And a packaging step of wrapping the outside of the product cut to a predetermined size by the product cutting step.

Before the material cutting step, there is further provided a separation step of separating the waste material, extracting the material containing free auxin or pyromax as a main component; The material cutting step is characterized in that the process of cutting the material having a predetermined length of the carbonized or prioxine or pyromax (pyromax) separated in the separation step (S100) as a main component.

The coating step may include a feeding process of guiding the material to be supplied through a pair of supply rollers; An impregnation process of applying an adhesive made of silicon to a lower surface of the material supplied through the supply process; Characterized in that it comprises a; discharge process to discharge the material passed through the impregnation process is passed through a pair of discharge rollers.

In addition, the fixing agent in the exterior step, characterized in that at least any one of rayon (nylon).

And, the exterior step, the rayon attaching process for attaching the rayon powder to the outer surface of the adhesive-coated material using the wind, and during the nylon attaching process for attaching nylon powder to the outer surface of the adhesive-coated material by generating static electricity It is characterized by including any one process.

Fireproof wall paper manufacturing method according to the present invention has the following effects.

The present invention relates to a method of separating fired material to make a fireproof wallpaper. Therefore, the waste material is used to manufacture the wallpaper has the advantage of reducing the material cost and environmental pollution.

In addition, according to the production method according to the present invention, since the adhesive and the fixing agent are applied to the outer surface, the wallpaper is firm and the appearance is excellent.

In addition, according to the method of manufacturing a fireproof wallpaper according to the present invention, since the manufactured fireproof wallpaper mainly contains preoxine or the like, there is an advantage of preventing fire at high temperatures of 2000 ° C or higher. That is, since the fireproof wallpaper according to the present manufacturing method having a thickness of about 5 mm has a property of withstanding a high temperature flame, there is an advantage that the combustion is prevented.

1 is a block diagram showing a process of a preferred embodiment of the fireproof wallpaper manufacturing method according to the present invention.
Figure 2 shows the binding step constituting an embodiment of the present invention, a work flow diagram showing a state that the material passes through the needle punching device (Needle punching device).
Figure 3 is a block diagram showing each process of the application step constituting an embodiment of the present invention.
4 is a schematic diagram of an apparatus for performing an application step constituting an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the fireproof wallpaper manufacturing method according to the present invention will be described in detail.

1 is a block diagram showing an embodiment of a fireproof wallpaper manufacturing method according to the present invention.

As shown in this, the fireproof wall paper manufacturing method according to the present invention, the separation step (S100) for extracting the material, the material cutting step (S110) for cutting the material to a predetermined size and the material cutting step (S110) Inflating the material cut by using a carding machine (S120) and the inflated step (S120), and the material inflated by the inflating step (S120) flows from side to side by a molding machine to stack a plurality of layers Bonding step (S130) and the plurality of materials stacked up and down by punching up and down by using a punching machine (punching) a plurality of layers stacked by the stacking step (S130) using a punching machine ( S140, a coating step (S150) for applying an adhesive to at least one surface of the material assembly bound by the binding step (S140), and on one surface of the material assembly, the adhesive is applied to the outer surface by the application step (S150) Attaching fixative The key is to cut the product produced by passing through the drying step (S160), the drying step (S170) and the drying step (S170) to dry the material, the exterior step (S160) is completed using a heater. Product cutting step (S180), and the packaging step (S190) for packaging the outside of the product cut to a predetermined size by the product cutting step (S180).

The separation step (S100) is a step of separating the waste material, and extracts a material containing free auxin or pyromax (pyromax) as a main component.

In other words, the general waste material and free auxin or pyromax (pyromax) containing material is separated, only free auxin or pyromax (pyromax) as a main component is separated separately It's a collecting process.

Prior to the material cutting step, by separating the waste material, a separation step of extracting the material containing the main component of free auxin (pyromax) (pyromax) is further provided.

On the other hand, carbon (炭素, Carbon) is additionally added to the waste material separated in the separation step. That is, carbon is added to free auxin or pyromax to form a material.

More preferably, 35% of carbon, 60% of free auxin or pyromax, and 5% of the adhesive used in the application step (S150) are made of materials. good.

The material cutting step (S110) is a process of cutting a material having carbonized or free auxin or pyromax separated in the separation step S100 as a main component to a predetermined length.

That is, by cutting the waste material separated in the separation step (S100) to a size of about 10cm, it is a process of cutting to facilitate the introduction into a carding machine (梳 綿 機, carding machine).

The inflation step (S120) is a step of inflating the material, which is generally used a carding machine or card (card) used in the carding process.

After the inflation step S120, the lamination step S130 is performed.

At this time, the molding machine flows to the left and right to stack a plurality of materials. Therefore, the materials are laminated to have a predetermined thickness, and the thickness can be adjusted according to the needs of the user.

The binding step (S140) is a step of tangling the materials stacked in a plurality of layers by the lamination step (S130), mainly a needle punching device (needle punching device) is used. That is, as shown in FIG. 2, the material that has passed through the lamination step S130 is bound up and down while passing through at least one needle punching device.

The application step (S150) is a step of applying an adhesive to at least one surface of the material assembly bound by the binding step (S140). That is, the lower surface of the material is brought into contact with the adhesive so that the adhesive is applied to the lower surface of the material which is pressed by the upper and lower rollers and moved to the right or the left. In this case, an adhesive is applied to one surface of the material.

3 and 4, the application step (S150), the supply process (S152) and the supply process (S152) for guiding the material is supplied through a pair of supply rollers 10, the supply process (S152) The impregnation process (S154) of applying the adhesive 20 made of silicon on the lower surface of the material to be supplied through) and the material passed through the impregnation process (S154) to be discharged through a pair of discharge rollers (30) The discharge process (S156) is made.

Next, the exterior step (S160) proceeds. At this time, the fixing agent is sprayed again on one surface (lower surface) of the material to which the adhesive is applied. The use of such a fixing agent is intended to enhance the fixing and appearance of the adhesive applied to the material.

As the fixing agent, at least one of rayon or nylon is preferably used.

Rayon means that pulp made of pure fiber is treated by treating wood or cotton waste with a suitable chemical method, chemically dissolving it, and then solidifying it into a fibrous form.

The exterior step (S160), the rayon attaching process (S162) for attaching the rayon powder to the outer surface of the adhesive-coated material using wind, and attaching nylon powder to the outer surface of the adhesive-coated material by generating static electricity Nylon attachment process (S164) is made of any one process.

The drying step (S170) is a process of drying the material, in which the exterior step (S160) is completed using a heater, to dry the material using a heater or the like as a heating furnace.

The product cutting step (S180) is a process of cutting the length of the material to a predetermined size. That is, the material is cut at 50m intervals while using a roller in a roll type. In the cutting process, the width of the material is also preferably cut. That is, the product cutting step (S180), in addition to the length cutting process for cutting the product at intervals of 50m, a width cutting process for cutting the left and right of the roll wound material to a predetermined width.

Then, the packaging of the product is made by the packaging step (S190), and is carried out to the outside.

The scope of the present invention is not limited to the above-described embodiments, and many other modifications based on the present invention will be possible to those skilled in the art within the scope of the present invention.

S100. Separation step S110. Material cutting step
S120. Inflation step S130. Lamination step
S140. Binding step S150. Application step
S160. Exterior step S170. Drying step
S180. Product cutting step S190. Packaging stage

Claims (5)

Separating the waste material and extracting a material containing a free auxin or pyromax component (S100);
A material cutting step (S110) of cutting the material separated in the separation step (S100) to a predetermined length;
An inflation step (S120) of inflating the material cut by the material cutting step (S110) using a carding machine;
A stacking step (S130) of allowing the material inflated by the inflation step (S120) to flow from side to side by a molding machine and stacking a plurality of layers;
A binding step (S140) of punching up and down the materials stacked in a plurality of layers by the laminating step (S130) by using a punching machine to entangle the plurality of materials stacked up and down;
An application step (S150) of applying an adhesive to at least one surface of the material assembly bound by the binding step (S140);
An exterior step (S160) of attaching a fixing agent to one surface of a material assembly to which an adhesive is applied to an outer surface by the application step (S150);
A drying step (S170) of drying the finished material (S160) using a heater;
Product cutting step (S180) for cutting the product made by passing through the drying step (S170) to a predetermined length;
And a packaging step (S190) of packaging the outside of the product cut to a predetermined size by the product cutting step (S180). delete The method of claim 1, wherein the applying step (S150),
A supply process (S152) for guiding the material to be supplied through the pair of supply rollers 10;
An impregnation process (S154) of applying an adhesive (20) made of silicon on the lower surface of the material supplied through the supply process (S152);
And a material passing through the impregnation process (S154) to be discharged through a pair of discharge rollers (30) (S156). The method of claim 1 or 3, wherein the fixing agent in the exterior step (S160), at least one of rayon or nylon (nylon). The method of claim 4, wherein the exterior step (S160),
Rayon attaching process (S162) for attaching the rayon powder to the outer surface of the adhesive-coated material using the wind, and nylon attaching process (S164) for attaching nylon powder to the outer surface of the adhesive-coated material by generating static electricity Method for producing a fire-resistant wallpaper comprising one process.

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