KR102459412B1 - Corn Complexing Agent - Google Patents

Abstract

The present invention relates to a corn complexing agent that improves the convenience of initial ignition operation through corncobs that are easy to crush and segment. and a first bundle consisting of a core inserted into the hollow part; and a second cob using a corncob in which a plurality of segmental grooves forming a predetermined distance from each other in the longitudinal direction of the corncob are formed.

Description

Corn Complexing Agent

The present invention relates to a corn complexing agent, and more particularly, to a corn complexing agent that improves the convenience of an initial ignition operation through a corncob that is easily crushed and divided.

Solid fuels such as firewood, briquettes, and charcoal are difficult to ignite, so an ignition agent such as lightning bolts is usually used.

On the other hand, as the population for outdoor leisure activities such as camping increases, the demand for ignition agents is increasing. Existing ignition agents have a problem in that harmful gases are severely generated during combustion.

Accordingly, an alternative ignition agent using an eco-friendly material such as wood by-product or palm fruit has been introduced. As an example, the solid ignition fuel introduced in Patent Document 1 below is characterized by immersing corncobs from which grains have been removed in alcohol. do.

However, the prior art is not provided in an appropriate size depending on the ignition target (firewood, briquettes, charcoal) or ignition conditions (temperature, humidity, presence of wind, etc.), but is provided in the original form of the corncob, so the convenience of use is somewhat insufficient.

Registered Patent Publication No. 10-1904805 (2018. 10. 05. Announcement)

SUMMARY OF THE INVENTION An object of the present invention is to provide a corn complexing agent in which the convenience of initial ignition operation is improved through corncobs that are easily crushed and segmented.

Corn complexing agent of the present invention for solving the above problems, a first cob consisting of an outer stalk having a hollow portion and a core rod inserted into the hollow portion by cutting a portion of the corncob into a cylindrical shape by a predetermined thickness; and a second cob using a corncob in which a plurality of segment grooves forming a predetermined distance from each other in the longitudinal direction of the corncob are formed.

In addition, in the corn complexing agent of the present invention, a plurality of crushing grooves are formed radially in the longitudinal direction of the cob on the surface of the outer strip.

In addition, in the corn complexing agent of the present invention, an aluminum oxide layer is formed on the surfaces of the outer and second bundles and at least one end in the longitudinal direction of the core, and the aluminum oxide layer is formed on the surfaces of the outer and second bundles. It is formed by roasting the alumina powder adhered to at least one end in the longitudinal direction of the core at a temperature of 80 to 90°C.

According to the corn complexing agent of the present invention, the convenience of the initial ignition operation is improved through the first cob separated by the outer stalk and the core and the second cob having a plurality of segment grooves, thereby improving the marketability of the corn complexing agent.

1 is a plan view (b) of a state in combination with a cross-sectional view (a) showing a first cob of corn complexing agent according to the present invention separated.
2 is a cross-sectional view of a corncob;
3 is a cross-sectional view showing a second cob of corn complexing agent according to the present invention.

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

1 is a cross-sectional view (a) and a plan view (b) of a combined state in which a first cob of a corn complexing agent according to the present invention is separated, FIG. 2 is a cross-sectional view of a corn cob, and FIG. It is a cross-sectional view showing the second cob of the corn complexing agent.

1, 2 and 3, the present invention consists of a plurality of first speed bands 10 used for the initial ignition operation of the ignition agent and a plurality of second speed bands 20 used for ignition of solid fuel, , It is characterized in that an aluminum oxide layer, which is a combustion catalyst, is formed on the surfaces of the first bundle 10 and the second bundle 20 .

Hereinafter, the specific content of the present invention will be described with reference to the above components. First, as shown in FIG. 1 , the first cob 10 uses a corncob, but the outer stalk 11 having a hollow part (e) and It consists of a core 12 inserted into the hollow part (e).

Usually, the cross section of the corncob consists of a core part (a), a wood part (b), and a surface layer part (c) as shown in FIG. 2 , and the first cob 10 is a part of the corncob, preferably the wood part ( b) The outer rib 11 and the core 12 are formed by cutting (E) the portion in a cylindrical shape by a predetermined thickness.

When the user takes out the first cob 10 from the corn complexing agent in the packaging state, takes out the core 12 from the outer stalk 11, and then twists the outer rib 11 of the hollow (e), the surface layer of the outer stalk 11 In (c), the remaining kernels after the separation of the corn kernels are densely packed in a lattice form, so they can be easily crushed (hereinafter, 'shredded outer stalk fragments are referred to as cod chips'), and the cod chips are used for ignition of cob chips (A), which will be described later. used

In addition, a plurality of crushing grooves 13 are radially formed on the surface of the outer band 11 in the longitudinal direction of the bundle as shown in FIG. The torsional deformation of (11) is increased to facilitate the creation of a fast chip.

On the other hand, the separated core 12 is used for the initial ignition operation of the ignition agent, a detailed description will be described later.

The second cob 20 uses a corncob, but as shown in FIG. 3 , a plurality of segment grooves 21 forming a predetermined distance from each other in the lengthwise direction of the corncob are formed on the surface.

When the user applies a bending load to the second bundle 20, the segmental groove 21 is cut, and the second bundle 20 is divided into a plurality of pieces (hereinafter referred to as 'short stem pieces'), and the inner pieces ( A) is used for solid fuel ignition.

On the other hand, it has been said that an aluminum oxide layer is formed on the surfaces of the first bundle 10 and the second bundle 20, preferably the surfaces of the outer belt 11 and the second bundle 20 and the core 12. At least one end in the longitudinal direction of the aluminum oxide layer is formed as a combustion catalyst, the formation method is as follows.

First, using a sprayer to wet the surfaces of the outer stem 11 and the second bundle 20 and at least one end in the longitudinal direction of the core 12, and then apply the alumina powder, the alumina powder is adhered to the thin layer. form a layer

In addition, corn starch may be added to the alumina powder to form a mixed powder and then applied, which increases the adhesion of the alumina powder to the corncob.

Next, the corncobs to which the alumina powder is adhered are dried naturally and then roasted at a temperature of 80 to 90° C. for about 2 hours to form an aluminum oxide layer. In (20), a predetermined number is promptly sealed with a packaging material after dipping in alcohol.

When the initial ignition operation process using the first bundle 10 and the second bundle 20 is described, first, the outer belt 11 and the core 12 of the first bundle 10 are separated, and then the outer belt ( 11) Twist to make chips and place them on the bottom of the hearth (or stove).

Next, the second bundle piece (A) formed by segmenting the second bundle unit (20) is placed on the core unit chip, and then solid fuel is loaded thereon again.

Finally, if one end of the core 12 is ignited using a lighter or the like and then inserted into the inner core chip, the initial ignition operation is completed.

Therefore, the deep chips laid on the floor are easily ignited by increasing the surface area exposed to air per unit volume, and the deep chips A, which is burned by the thermal power of the ignited deep chips, provides combustion heat to the solid fuel for a long time, thereby starting combustion of the solid fuel. is done quickly and reliably.

On the other hand, depending on the above-mentioned ignition target (firewood, briquettes, charcoal) or ignition conditions (temperature, humidity, presence of wind, etc.) or the structure of the furnace or stove (hereinafter referred to as 'ignition operation conditions') The initial ignition operation is performed by varying the loading ratio of A), and information on the appropriate loading ratio according to each ignition operation condition is provided by marking on the packaging material.

In addition, in the case of some furnaces (or stoves), there is a rather inconvenient aspect that the ignition agent has to be ignited through a vent formed at the bottom. This inconvenience can be eliminated.

Although preferred embodiments of the present invention have been described above, the scope of the present invention is not limited thereto, and it should be understood that the scope of the present invention extends to a range substantially equivalent to the embodiment of the present invention, Various modifications may be made by those of ordinary skill in the art to which the invention pertains without departing from the spirit of the invention.

10: 1st speed squad
11: Outskirts
12: core
13: crushing groove
20: 2nd generation
21: segmental groove

Claims (3)

Using a corncob, a portion of the corncob is cut in a cylindrical shape by a predetermined thickness (E) to have an outer stalk 11 having a hollow part (e) and a core rod (12) inserted into the hollow part (e). stalk (10); and
a second cob 20 using a corncob and having a plurality of segment grooves 21 spaced apart from each other in a lengthwise direction of the corncob;
is made of,
Corn complexing agent, characterized in that the aluminum oxide layer is formed on the surface of the outer stem (11) and the second bundle (20) and at least one end in the longitudinal direction of the core (12). According to claim 1,
Corn complexing agent, characterized in that a plurality of crushing grooves (13) are radially formed on the surface of the outer stalk (11) in the longitudinal direction of the corncob. According to claim 1,
The aluminum oxide layer is formed by roasting the alumina powder adhered to the surface of the outer band 11 and the second bundle 20 and at least one end in the longitudinal direction of the core 12 at a temperature of 80 to 90 ° C. Corn complexing agent.

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