KR101804932B1 - Roasting solid fuel packing method - Google Patents

Abstract

The present invention relates to a solid fuel packaging method for roasting, and more particularly, to a method of packaging a solid fuel having a predetermined shape while being used for roasting, such as charcoal, coal (charcoal, briquettes, briquettes, etc.)
The method for packing roasted solid fuel according to an embodiment of the present invention is characterized in that a plurality of roasting solid fuels such as charcoal, coal, and ignition coals are aligned at a predetermined interval and placed on the lower coarse paper so as to prevent the roasting solid fuel from moving, And the upper and lower ignition paper are laminated, adhered or sewn together, inserted into vinyl, and sealed and packaged.

Description

[0001] Roasting solid fuel packing method [0002]

The present invention relates to a solid fuel packaging method for roasting, and more particularly, to a method of packaging a solid fuel having a predetermined shape while being used for roasting, such as charcoal, coal (charcoal, briquettes, briquettes, etc.)

As the five-day workweek expands and outdoor activities increase, so does the culture of eating meat outdoors.

In order to bake meat outdoors in such a way, it is troublesome and occasionally lost because it is necessary to prepare a hot plate for baking meat, a portable gas range, and gas in advance.

In addition, in the case of charcoal grilling using charcoal in the outdoors, charcoal which is a combustion material is not easy to be ignited, and generally it is not preferable from the viewpoint of hygiene and safety because a gunpowder component is applied to the surface of charcoal for rapid ignition.

In addition, since the means for burning the char is not deserved, the coal is burned in the simple structure after the stones are collected around the simple structure, so that there is always a risk of fire due to the outflow of the fire do.

On the other hand, a disposable charcoal grilling machine is disclosed in Japanese Patent Application Laid-Open No. 10-2005-0101126. In this prior patent, as shown in Fig. 1, The charcoal 30 is accommodated in the case 10 made of refractory material provided with the intake hole 11 and the charcoal 30 contained in the case 10 is ignited and burnt to heat the meat placed in the fire plate 20 And is configured to bend,

The ignition paper 40 is provided between the fire plate 20 and the charcoal 30 so that the fire is propagated to the charcoal so that the charcoal is ignited and burned together.

A mesh member 50 made of a metal wire such as wire is provided between the bottom surface of the case 10 and the charcoal 30 so that the charcoal grill 1 can be stably fixed to the flat ground. .

However, since the charcoal 30 is accommodated inside the case 10 separately from the ignition paper 40, the charcoal 30 has a problem in that when the charcoal 40 moves, the charcoal 30 is not aligned while being broken.

In order to ignite an existing charcoal or burnt, it is necessary to heat for 10 minutes or more with a heating apparatus such as a lightening torch or a torch lamp, and the above-mentioned ignition burnt or disposable charcoal fire is also ignited within 3 seconds, Even if you use the ignition paper to induce firepower, it takes about 1-2 minutes, or when the wind is blowing, the ignition itself becomes more difficult.

Therefore, a faster ignition method and a more accurate means of spreading fire power are needed.

On the other hand, if you place a lightning bolt on a barbecue grill that is commonly used, it will be difficult to ignite and the firepower will not be constant due to the difference between the place where the lightning is buried and the place where it is less.

In addition, in the disposable charcoal grill described above, although the ignition paper is used for rapid diffusion of fire, when the wind is blown, it is difficult to ignite, the firepower does not spread rapidly, and the ignition coals are not fixed during circulation. There is a difficulty in arranging the ignition guns with a tool such as chopsticks.

In addition, when the ignition charcoal is concentrated only in one place, the heating is uneven and it is difficult to align it with a firing gun. In the case of disposable charcoal grilling, the ignition charcoal can not be positioned at the time of distribution and must be aligned using a tool such as chopsticks.

In other words, it is urgently required to spread and arrange the firepower more quickly in the ignition using ignition charcoal or charcoal.

Open Patent No. 10-2005-0101126 (October 20, 2005)

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to solve the above-mentioned problems and to provide a solid fuel for charcoal, charcoal, briquette, briquette, And to provide a solid fuel packaging method for roasting that can prevent breakage of solid fuel during distribution.

In addition, the object of the present invention is to provide a method and apparatus for sorting a solid fuel for roasting by packing and sorting the solid fuel for roasting into a complex paper so that the solid fuel for roasting such as an ignition coal is not concentrated in one place, And to provide a convenient method for packaging a solid fuel for roasting without having to align the solid fuel for roasting.

According to another aspect of the present invention, there is provided a method for packaging a solid fuel for roasting, the method comprising: aligning a plurality of roasting solid fuels such as charcoal, coal, and ignition coals, And the upper and lower ignition paper are laminated, adhered, sewn, or degreased, and vacuum is packed.

The solid fuel may be in any one of a shell shape, a tie-shaped shape, a triangular shape, a square shape, a round shape, and a heart shape, and has a size (height, width or length) of 0.5 to 300 mm.

Further, the solid fuel has a water content of 0.5 to 35%.

Further, the inside of the solid fuel is characterized by being gripped or perforated.

Further, the solid fuel is mixed or coated with a complexing compound.

Further, the solid fuel is arranged so that the gap therebetween is 0.1 to 80 mm or the solid fuel is arranged to be overlapped.

The solid fuel may be arranged in any one of a triangular shape, a square shape, a hexagonal shape, an octagonal shape, a circular shape, a heart shape, and a cupid arrow shape.

In addition, the lower igniter and the upper igniter are continuously supplied to the solid fuel, and one of the lower and upper igniter is formed with a cutting line.

Further, adhesive is applied to at least one of the lower ignition paper and the upper ignition paper, and the solid fuel is mixed or coated with the binder.

In addition, a band of an igniter may be formed on at least one of the lower igniter and the upper igniter, or an igniter may be applied.

In addition, a firing line may be connected to at least one of the lower and upper glazing fingers, or an ignition bundle may be provided at an end of an flare line connected to the glazing flare.

Further, the upper and lower adhesive paper are subjected to laminating, bonding, sewing, degassing, and vacuuming using a compression roller or a compression press.

Further, it is characterized in that the solid fuel is wrapped with a lapping paper, an adhesive, a sewing machine or a deaerating machine, and a vacuumed upper and lower plastic paper is inserted into a plastic and sealed and packaged.

Further, in the vinyl-sealed packaging, the flammable alcohol and the fluorine-containing vinyl chloride are separately wrapped and inserted together in the vinyl, followed by sealing and packaging.

In addition, the disposable charcoal grill is hermetically packed by inserting the solid fuel into the disposable charger while wrapping the solid fuel in the disposable bag, bonding, sewing or degassing the bag, and vacuuming the upper and lower bags.

In addition to the disposable charcoal grilling machine, a pyrophoric alcohol or a fire extinguisher is also packaged.

According to another embodiment of the present invention, there is provided a method of packaging a solid fuel for roasting, which comprises the steps of: compressing a complex paper bag in a state in which solid fuel for baking such as charcoal, coal, and ignition coal is powdered and placed in a plastic bag; And an open gap paper bag is bonded and packaged.

According to another embodiment of the present invention, there is provided a method of packaging a solid fuel for roasting, comprising the steps of: preparing a solid fuel for baking such as charcoal, coal, and ignition coal in the form of powder, And is characterized in that the edge portions are bonded and packaged without being subjected to compression molding or compression molding.

According to another embodiment of the present invention, there is provided a method for packaging a solid fuel for roasting, which comprises aligning a plurality of roughening solid fuels such as charcoal, coal, and ignition carbon at predetermined intervals to produce at least two kinds of vinyl or non-polluting vinyl, And then packed together.

And the pressure is increased by deaerating and evacuating the inside of the vinyl or non-polluting vinyl, coating paper or oil paper.

According to the means for solving the above-mentioned problems, the solid fuel for charcoal such as charcoal, charcoal (charcoal, briquettes, briquettes, etc.) and ignition coals are aligned and packed in the ignition paper so that they can be ignited more quickly and spread the thermal power. It is possible to prevent breakage of the battery.

In addition, since the solid fuel for roasting is aligned and packed in the ignition paper, the solid fuel for roasting such as ignition coal is not concentrated in one place, the fuel is uniformly arranged, the ignition charcoal is fixed at the time of distribution, It is convenient to do not need to arrange them individually.

1 is a view showing an example of a conventional disposable charcoal grilling machine.
2 is a process diagram showing a packaging method of a solid fuel according to an embodiment of the present invention.
3 is a view for explaining the process shown in Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

It is to be noted that the same components of the drawings are denoted by the same reference numerals and symbols as possible even if they are shown in different drawings.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

Also, when a part is referred to as "including " an element, it is to be understood that it may include other elements as well, without departing from the other elements unless specifically stated otherwise.

FIG. 2 is a process chart showing a solid fuel packing method according to an embodiment of the present invention, and FIG. 3 is a view for explaining the process shown in FIG.

First, the solid fuel 110 for roasting, such as charcoal, charcoal (charcoal, briquettes, briquettes, etc.) and ignition coals manufactured by publicly known methods, is aligned at predetermined intervals or overlapped (S20).

The shape, size, spacing, water content, etc. of the solid fuel 110 can be adjusted in consideration of manufacturing conditions, thermal power, ignition time, and the like in manufacturing the solid fuel 110.

That is, when the solid fuel 110 is manufactured, the solid fuel 110 may be in the shape of a shell, a diamond, a triangle, a square, a circle, or a heart.

The size (height, width, or length) of the solid fuel 110 is preferably 0.5 to 300 mm.

If the size is less than 0.5mm, firepower and durability will be poor, and if it is over 300mm, the ignition time will be longer.

Further, it is preferable that the solid content of the solid fuel 110 is 0.5 to 35%.

If the moisture content of the solid fuel 110 is less than 0.5%, the manufacturing difficulty becomes more difficult. If the water content is more than 35%, the solid fuel 110 may be damaged after molding.

In addition, the solid fuel 110 can be punched or partially gripped inside the solid fuel 110 for faster ignition and stronger firepower.

And the complexing compound may be mixed or applied to the solid fuel 110 for the purpose of faster ignition.

On the other hand, when the solid fuel 110 is aligned, the interval is preferably 0.1 mm to 80 mm.

If the gap between the solid fuels 110 is 0.1 mm or less, the solidity of the solid fuel 110 is weakened after the completion of the packaging. If the gap is 80 mm or more, the thermal power of the solid fuel 110 is weakened.

When the solid fuel 110 is aligned, the shape of the solid fuel 110 can be variously arranged such as a triangle, a square, a hexagon, an octagon, a circle, a heart shape, or a cupid arrow shape.

In addition, when the solid fuel 110 is aligned, a plurality of solid fuels 110 can be packed at the same time by arranging them in more than one series for the purpose of mass packaging.

Next, the upper and lower paper jets 130a and 130b are loosened and fed while feeding the solid fuel 110 aligned at predetermined intervals (S21).

That is, the upper and lower carrier paper 130a and 130b wound on the upper and lower uncoilers 120a and 120b are loosened and fed to above and below the solid fuel 110 while continuing to transport the solid fuel 110 aligned at predetermined intervals using a conveyor or the like .

Whereby the lower ignition paper 130b is positioned on the upper surface of the conveyor and conveyed together with the conveyor.

At this time, it is possible to absorb dust of the solid fuel by providing a dust collecting facility for increasing the adhesion force between the ignition paper and the ignition paper, the solid fuel and the solid fuel or the ignition paper and the solid fuel and for removing the dust.

Cutting lines may be formed on at least one of the upper and lower paper sheets 130a and 130b for easy partial cutting.

Further, adhesives may be applied to the light guides 130a and 130b, and the solid fuel 110 may be mixed with or coated with the adhesive for the purpose of increasing the adhesive strength between the light guide paper and the light guide paper, and between the solid fuel and the solid fuel.

Further, for the purpose of faster ignition, a powder explosive (a band of an igniter) can be formed on the ignition paper, or a chemical liquid (igniter) can be applied.

It is also possible to connect the fuse to the ignition paper for the purpose of more convenient and correct ignition, or to provide an ignition bundle at the end of the fuse connected to the ignition paper.

The complexing compound may be added to the complexing paper for the purpose of faster complexing, or the complexing compound may be poured into the complexing paper at the time of complexing.

 The solid fuel 110 is raised to the lower gap paper 130b while the next solid fuel 110 is conveyed and the upper gap paper 130a covers the upper portion of the solid fuel 110, (130a, 130b) (S22).

At this time, the solid fuel 110 may be stacked up and down so as to have two or more layers for the purpose of long thermal power and wrapped by the top and bottom paper sheets 130a and 130b.

In order to strengthen the bonding strength, the compression rollers 140a and 140b are pressed to bond or adhere the upper and lower paper sheets 130a and 130b wrapping the solid fuel (S23).

At this time, the compression rollers 140a and 140b can control the size and shape of the solid fuel 110 and the pressure of the solid fuel 110 according to the size of the solid fuel 110 and the alignment of the solid fuel 110. Without using the compression rollers 140a and 140b They can be lapped or bonded using only a compression press.

Instead of the above-mentioned joining or bonding, the upper and lower bonding paper may be sewn (sewn) to increase adhesion and bonding force, or may be deaerated or vacuumed.

It is also possible to heat the compression rollers 140a and 140b or to bond the complex paper 140a and 140b with high frequency or ultrasonic waves and to couple or bond the multiple paper cards 140a and 140b at one time using a compression press can do.

Next, the cut sheets 112 are obtained by cutting the bonded upper and lower paper sheets 130a and 130b into a predetermined size while wrapping the solid fuel 110 (S24).

Next, the cut material 112 is encapsulated with a vinyl 150 or the like to obtain a package 114 (S25).

In this case, a flammable alcohol or a complexing compound (fire-proofing compound) may be separately wrapped and inserted into the vinyl 150 together with the cut 112, and then sealed and packaged.

In this manner, the pyrophoric alcohol or the complexing compound can be poured into the cleavage product 112 at the time of subsequent ignition.

Such a package 114 is packaged and sold in units.

Finally, the cut material 112 is inserted into the disposable charcoal grill, and the disposable charcoal grill is hermetically packed to complete the packaging (S26).

At this time, only the pyrophoric alcohol or the complex compound may be packed separately without adding the pyrophoric alcohol or the pyrophoric compound (pyrography) to the solid fuel 110 in the cut 112, and sold separately from the charcoal grill.

In the above description, the solid fuel has a predetermined size and a uniform shape. However, in another embodiment, the solid fuel 110 may be powdered and packaged.

At this time, the ignition paper cut into a predetermined size in advance is made into a pocket or envelope, and the solid fuel powder is put into a soft paper bag vertically supplied and compression bag is compression-molded. You can also get water.

In addition, after the edge of the ignition paper cut in advance to a predetermined size is faced upward and the solid fuel powder can be held with its center downward, the solid fuel powder is supplied in a slanting line to put the solid fuel powder in the inside of the oblique ignition paper, It is also possible to obtain a cut product by joining edges of the coated paper without molding or compression molding.

After obtaining such a cut product, the product is inserted into a disposable charcoal grill through the above step S26 and vacuum-packed.

In another embodiment, the solid fuel may be aligned, such as charcoal, charcoal (charcoal, briquettes, briquettes, etc.), and ignition coals, and then packed together with vinyl or non-polluting vinyl, coating paper or oil paper.

At this time, it is possible to increase the compression force by deaerating and evacuating the inside of the vinyl or non-polluting vinyl, coating paper or oil paper in order to package it in a more easy way.

In another embodiment, the processing apparatus may be packed vertically or obliquely in such a manner that oxide is freely dropped and packed by gravity.

Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. In addition, it is a matter of course that various modifications and variations are possible without departing from the scope of the technical idea of the present invention by anyone having ordinary skill in the art.

110: solid fuel 112: cutting water
114: Package 120a, 120b: Uncoiler
130a, 130b: Placing paper 140a, 140b: Roller
150: Vinyl

Claims (20)

Aligning a plurality of roughened solid fuels containing charcoal, charcoal, and ignition coal and pierced therein at 0.1 to 80 mm intervals or overlapping;
Feeding the solid fuel and the upper and lower surfaces of the solid fuel by releasing the upper and lower adhesion paper coated with the adhesive on at least one of the lower and upper ignition paper while absorbing the dust with the dust collecting facility;
The solid fuel is fed to the lower igniter while the solid fuel is being conveyed, and the upper igniter covers the upper portion of the solid fuel so that the solid fuel is surrounded by the upper and lower igniter;
Adhering, bonding, degassing, or vacuuming the upper and lower conductive paper wrapping the solid fuel using a compression roller or a compression press;
Cutting the solid fuel, laminating, adhering, sewing or degassing, and vacuuming the top and bottom paper to a predetermined size to obtain a cut material; And
Inserting the cut material into the vinyl and sealing and wrapping the same, wherein the flammable alcohol or the complexing compound is separately wrapped, inserted into the vinyl, and sealed and packaged;
Wherein the solid fuel is heated to a temperature of at least < RTI ID = 0.0 > The method according to claim 1,
Wherein the shape of the solid fuel is one of a shell shape, a diamond shape, a triangular shape, a square shape, a round shape, and a heart shape, and the size (height, width or length) is 0.5 to 300 mm. The method according to claim 1,
And the moisture content of the solid fuel is 0.5 to 35%. delete The method according to claim 1,
Wherein the solid fuel is mixed or coated with the complexing compound. delete The method according to claim 1,
Wherein the alignment of the solid fuel is one of a triangular shape, a square shape, a hexagonal shape, an octagonal shape, a circular shape, a heart shape, and a cupid arrow shape. The method according to claim 1,
Wherein the lower igniter and the upper igniter are continuously supplied to the solid fuel, wherein a cutting line is formed on one of the lower or upper igniter. delete The method according to claim 1,
Wherein a band of an igniter is formed on at least one of the lower igniter and the upper igniter, or an igniter is applied. The method according to claim 1,
Wherein at least one of the lower igniter and the upper igniter is connected to a fuse or an ignition bundle is provided at an end of the fuse connected to the igniter. delete delete delete The method according to claim 1,
Wherein the disposable charcoal grill is hermetically packed by inserting the package sealed and packed in the inside of the disposable charcoal grill. 16. The method of claim 15,
Wherein the disposable charcoal grilling machine is packaged with a pyrophoric alcohol or a fire extinguisher separately from the disposable charcoal grill. delete delete delete delete

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