KR20100102261A

KR20100102261A - Apparatus for lighting to and treating charcoal

Info

Publication number: KR20100102261A
Application number: KR1020090020544A
Authority: KR
Inventors: 권혁진
Original assignee: 권혁진
Priority date: 2009-03-11
Filing date: 2009-03-11
Publication date: 2010-09-24

Abstract

PURPOSE: A charcoal ignition and disposal apparatus is provided to quickly fire charcoal by blowing exterior air from the top to the bottom of a brazier so as to carry the flame to the deep part of the brazier. CONSTITUTION: A charcoal ignition and disposal apparatus comprises a housing(11), a drawer-type support(12), a ventilator(13), a gas burner(18), and a cover(21). The support is arranged on the top a prop(14) of the housing. A charcoal brazier(30) having a plurality of through-holes is settled in the support. The ventilator comprises a fan(16) drawing in exterior air above the housing and a duct(17b) for discharging the intake air to the outside of the housing. The gas burner generates flame using an ignition plug to ignite charcoal. The cover is opened when the ventilator starts to operate.

Description

Charcoal ignition and processing unit {Apparatus for lighting to and treating charcoal}

The present invention relates to a charcoal ignition and treatment apparatus, and more particularly, to an apparatus that can environmentally treat ash in order to ignite the charcoal safely and quickly while preventing air pollution.

Here, charcoal refers to any fuel made of wood or coal that is easy to ignite and to maintain high temperature heat as long as possible. Charcoal is known to have an effect of deodorization and sterilization compared to gas or electricity, and thus is used for roasting meat, especially in commercial restaurants.

Charcoal is designed to keep hot heat as long as possible, but it can't wait for a long time to ignite. Therefore, in the restaurant, the charcoal is pre-ignited and waited or, optionally, ignited as necessary, the customer is provided with the charcoal.

However, in the case of the former, if the atmospheric state is long, there is a problem that the char is not actually used and becomes ash. In addition, in the latter case, it takes a relatively long time to ignite and provide the charcoal, there is a problem that the smooth service. The common problem is that there is no means to ignite the charcoal quickly.

There is a proposal to solve the above problems, the rotary coal ignition device disclosed in the registration room No. 375333. The apparatus disclosed herein arranges a plurality of cylindrical members on which the oven is seated on a rotating disc at regular intervals, ignites the charcoal of the oven in the upper spark plug, while blowing the wind in the oven in the lower blower. It has a structure to feed in the direction.

As described, this structure has the advantage of being able to ignite the charcoal quickly and provide it in large quantities by rotating the furnace and igniting it with a spark plug. However, no measures have been taken with regard to the safety and handling of ash in handling the device. Thus, the worker is always exposed to the risk of burns, and the air is greatly contaminated by the ashes of charcoal.

In addition, the structure of supplying wind to the oven upwards from the lower blower can prevent the charcoal located deep inside the furnace from being ignited, so that the furnace must be used as a small one, so that the coal is fired quickly and in large quantities. The effect is meaningless or antagonistic.

Moreover, the blower supply structure serves to disperse ash into the atmosphere, thereby accelerating air pollution. In general, since restaurants are in close proximity to houses, complaints are often raised due to such air pollution.

The present invention has been proposed to solve the above problems of the prior art. An object of the present invention is to provide a ignition device that can ignite a large amount of charcoal using a large-scale fire pit by allowing the charcoal to ignite quickly to the deep position of the fire pit.

Another object of the present invention is to provide an ignition device considering the safety of the operator. Still another object of the present invention is to provide an ignition apparatus that can prevent the pollution of the atmosphere due to ashes by allowing the ashes of charcoal to be treated preferably.

Charcoal ignition and processing apparatus according to the present invention:

An inner space is formed and a housing having a cradle formed on an inner wall thereof;

A drawer-type pedestal disposed on an upper portion of the cradle, the charcoal oven having a plurality of holes is seated therein;

A fan installed at a lower portion of the holder and including a fan for sucking external air from the upper side of the housing and a duct for discharging the sucked air to the outside of the housing;

A gas crater disposed inside the housing and generating sparks by a spark plug to ignite charcoal in the oven;

A cover provided on an upper side of the housing and opened during operation of the fan;

It includes.

According to the present invention, the outside air passes from the upper side to the lower side of the oven by the fan. Accordingly, the flame supplied to the surface of the oven can penetrate deep into the oven and ignite quickly. Therefore, there is an effect that can quickly ignite a large amount of charcoal using a large oven.

In addition, the charcoal oven is not exposed to the outside has the effect of ensuring the safety of the worker. In addition, by attracting all the ashes of the charcoal using the duct in the lower part of the oven, it is possible to prevent the air pollution by treating the ashes preferably without dispersing them into the atmosphere.

Features and effects of the present invention described or not described above will become more apparent through the following description of the embodiments described with reference to the accompanying drawings. In a preferred embodiment of the present invention, the charcoal ignition and processing apparatus of the present invention comprises a charcoal ignition unit and an air purifying unit. However, the charcoal ignition unit and the air purification unit is illustrated in another drawing for convenience.

Referring to Figure 1, the charcoal ignition unit constituting the present invention is indicated by the reference numeral 10. The charcoal ignition unit 10 includes a housing 11, a pedestal 12, and a ventilator 13. The housing 11 has an inner space S, and a cradle 14 is formed on the inner wall. The holder 14 does not physically divide the internal space S.

In other words, even when the internal space S is divided into upper and lower portions by the holder 14, the upper and lower portions are spatially passed through each other. Preferably, the holder 14 is a rail or a bearing supported on the inner wall of the housing 11, thereby smoothly sliding the pedestal 12.

The pedestal 12 has a drawer structure with an open top, and at least one charcoal oven 30 is seated on the bottom surface. Then, a through hole 15 communicating with the suction port of the fan 13 is formed on the bottom surface on which the charcoal oven 30 is seated. The pedestal 12 is disposed on the cradle 14, and enters the upper space of the cradle 14 in a sliding manner. Reference numeral 15 is a handle provided on one side for sliding the pedestal 12 of the drawer structure. The charcoal stove 30 is a conventional upper open oven having a plurality of through holes, the interior is filled with a plurality of charcoal.

The fan 13 is installed at the bottom of the holder 14 and the pedestal 12 to suck the outside air of the upper housing 16, and to the outside of the housing 11 to discharge the sucked air It includes an extended duct 17b. The inlet 17a of the ventilator 13 expands in a tapered form, which is advantageous for sucking a large amount of air for a unit of time and for sucking the ash distributed in the pedestal 12.

A gas crater 18 is disposed on the inner upper side of the housing to generate a spark by an ignition plug to ignite charcoal in the oven 30. The gas crater 18 is an end extended by a high-pressure gas pipe 20 whose opening and closing is controlled by the solenoid valve 19.

On the other hand, a cover 21 is provided on the upper side of the housing 11, which is opened during the operation of the fan 13. A fine hole 22 is formed in the cover 21, and the hole 22 is opened to open when the fan 13 is operating and, on the contrary, to be closed when the fan 13 is stopped.

The charcoal ignition unit 10 of the above configuration is electronically controlled operation. Charcoal-filled oven 30 is seated on the pedestal 12, when the pedestal 12 is positioned in the correct position, that is, the upper space of the cradle 14, the operation switch (not shown) is ON do. Accordingly, the solenoid valve 19 is opened to supply the high pressure gas, while sparks are generated on the spark plug on the gas crater 18 side, and thermal power is released through the gas crater 18. Thus, the chars stacked in the oven 30 directly below the gas crater 18 are ignited from the upper surface thereof.

At the same time, the ventilator 13 is operated to suck outside air above the housing 11 through the opened cover 21. This air is sucked to the fan 13 through the inner space of the pedestal 12 and the stove 30, and the fire provided on the surface of the stove 30 is forced to the downward flow of air to be dispersed downwardly. . Therefore, spread the charcoal deep in the oven 30, a large amount of charcoal can be ignited instantly.

In addition, the ash generated by the ignition of the char is also guided to the flow of the air is sucked to the fan 13 with the air. The ash sucked into the inlet 17a of the fan 13 is discharged to the outside of the housing 11 via the duct 17b together with the air. Since the harmful air discharged in this way may be collected by the duct 17b, it is preferably discharged to the atmosphere through the air filter.

When the set operation time elapses or the switch is turned off by an operator's operation, the solenoid valve 19 is closed to shut off the gas supply, and thus the fire power on the gas crater 18 side is extinguished. The cover 22 is closed, and the hole 22 is closed. In this state, the pedestal 12 can be taken out of the housing 11, and the ignited charcoal can be taken out of the oven 30 and provided where necessary. If for some reason the char and oven 30 has not been removed and the char is not completely burned, the char will be extinguished quickly in the absence of air supply, so that much of the char will be recyclable.

Referring to Fig. 2, reference numeral 40 denotes an air purifying unit constituting the present invention. The air purifying unit 40 is connected to the exhaust duct 17b of the fan 13 of FIG. 1, and is discharged from the charcoal ignition unit 10 to the outside of the housing 11 through the duct 17b. It is an air filter to purify the air.

The air purifying part 40 is provided with a collecting part 42 at a lower part of the washing tower 41, and is disposed above the cleaning layer 43 and a cleaning layer 43 called a polling layer. It is a normal washing tower structure comprised of the injection pipe 44. Reference numeral 45 is a pump that pumps the chemical liquid or water in the collecting part 42 and circulates the injection pipe 44.

The harmful air sucked by the ventilator 13 is introduced into the cleaning tower 41 of the air purification unit 40 through the duct 17b, and is introduced between the water collecting unit 42 and the cleaning layer 43. If the inflow rate directly acts on the collecting section 42 or the cleaning layer 43, the axial gap is large, and therefore, it is preferable to provide the air dissipation bracket 47 at a position corresponding to the end of the duct 17b.

The harmful air introduced and dispersed is discharged into the atmosphere through the outlet 46 formed at the upper portion through the cleaning layer 43. On the other hand, the chemical liquid of the collecting part 42 is supplied to the injection pipe 44 by the pump 45, is injected from the upper side of the cleaning layer 43, passes through the cleaning layer 43, and is collected again by the collecting part 42. do. In this process, while the harmful air passes through the cleaning layer 43 and comes into contact with the chemical liquid, other harmful components are removed, and the cleaned and deodorized air is discharged into the atmosphere.

1 is a cross-sectional view showing the configuration of the charcoal ignition unit constituting the present invention.

Figure 2 is a cross-sectional view showing the configuration of the air purification unit constituting the present invention.

10. Charcoal ignition unit 11. Housing

12. Pedestal 13. Ventilator

14. Cradle 18. Gas Crater

19. Solenoid valve 21. Cover

30. Oven 40. Air purifier

41. Washing tower 42. Collection section

43. Cleaning layer 44. Injection pipe

Claims

Charcoal ignition and processing device comprising a.

The method of claim 1,

The holder is a charcoal ignition and processing device, characterized in that the rail or bearing supported on the inner wall of the housing.

The method of claim 1,

The pedestal, charcoal ignition and processing device, characterized in that the through hole communicating with the suction port of the ventilator is formed on the bottom surface seated.

The method of claim 2,

The pedestal is disposed on the cradle, charcoal ignition and processing apparatus, characterized in that the sliding in and out of the upper space of the cradle.

The method of claim 4, wherein

The pedestal is charcoal ignition and processing device, characterized in that the handle is formed on one side.

The method of claim 1,

The ventilator is installed in the lower portion of the cradle and the pedestal, charcoal ignition and processing apparatus comprising a fan for sucking the outside air above the housing, and a duct extending out of the housing to discharge the sucked air .

The method of claim 6,

Charcoal ignition and processing apparatus, characterized in that the inlet of the fan is expanded in a tapered form.

The method of claim 1,

The charcoal ignition and processing device further comprises an air filtering device connected to the end of the duct.

The method of claim 8,

The filtration apparatus is a charcoal ignition and processing apparatus, characterized in that the conventional washing tower structure including a collecting portion formed in the lower portion, the washing layer and the injection pipe disposed above the cleaning layer.

10. The method of claim 9,

Charcoal ignition and processing device, characterized in that the air dispersing bracket for dispersing the harmful air supplied to the end of the duct between the collecting portion and the cleaning layer.