KR19980037005A - Deodorizer using pyrolysis method - Google Patents

Abstract

The present invention relates to a deodorizing apparatus using a pyrolysis method for purifying a large amount of odor.

Such a device is a deodorizing device 10 for reducing and discharging a mixed gas having various harmful components in a clean state: a suction pipe 10a and a discharge pipe 10b are respectively connected to a lower portion and an upper portion thereof, and have a low thermal conductivity. A casing 11 formed of; A heater 12 mounted on upper and lower insulators 13 at an inner center of the casing 11 and operated by an AC power source applied through an electric wire 16; A deodorant 15 mounted surrounding the entire outer circumferential surface of the heater 12 and oxidizing and decomposing the mixed gas; A heat insulating material (14) mounted on an inner surface of the casing (11) between the outer surfaces of the deodorant (15) and blocking heat transfer from the heater (12) to the casing (11); A filter 20 connected to the suction pipe 10a of the casing 11 and filtering out foreign substances primarily; And a blower 30 connected to the discharge pipe 10b of the casing 11 and causing air flow in the casing 11.

Accordingly, the present invention has the effect of completely oxidizing the polluted air by using a high temperature deodorant material in the place where the home appliance or industrial equipment control occurs, to quickly purify a large amount of odor to improve the living environment and to prevent air pollution.

Description

Deodorizer using pyrolysis method

The present invention relates to a deodorizing apparatus using a pyrolysis method, and more particularly, to clean a large amount of odor generated in household equipment such as a food processor for treating waste food or industrial equipment for thermally and chemically treating various materials. It relates to a deodorizing device using a pyrolysis method.

In general, a certain amount of residue (waste food) is discharged from each home or restaurant every day, and the residue is used as a livestock feed or filtered through a simple strainer, and then discarded. This residue treatment method increases the amount of garbage collection, and if the garbage is not thrown away frequently, a bad smell is generated to contaminate the surrounding air and thus a food waste treatment machine is used.

An input door for inserting the residue and a discharge door for taking out the treated residue are formed outside the main body of the food waste processor made of the heat insulator, and a treatment tank for processing the residue and the odor generated during the residue treatment are removed. Deodorization and the like to be installed.

The conventional food waste treatment system disposes of odors which are continuously generated during water loss and fermentation loss while heating and stirring the residue in the treatment tank in a deodorizing device, but using a solid deodorant such as activated carbon. There is a disadvantage that the deodorizing treatment of a large amount of residue by the method.

In addition, dust collectors, water treatment systems, etc. are applied to protect working environments in industrial sites that discharge various pollutants, but complex mixed gases are often released to the outside without purification treatment to cause air pollution.

On the other hand, in order to deodorize a large amount of residue, a deodorizing pipe of a relatively long distance may be installed and a liquid deodorizing method of supplying tap water may be used, but the deodorizing pipe is long, the piping is relatively complicated, and maintenance and repair are frequent. Do.

Accordingly, the present invention has been made in order to solve the above problems, and to purify a large amount of odor generated in household equipment such as a food processor for treating waste food or industrial equipment for thermally and chemically treating various materials. It is an object of the present invention to provide a deodorization apparatus using a pyrolysis method.

1 is a perspective view schematically showing an external configuration of a deodorizer according to the present invention;

Figure 2 is a block diagram showing the main functional portion inside the deodorizer of Figure 1;

Explanation of symbols on the main parts of the drawings

10: deodorizing device 10a: suction pipe

10b: discharge pipe 11: casing

12 heater 13 insulator

14 Insulation 15 Deodorant

16: wire 20: filter

30: blower

In order to achieve the above object, the present invention provides a deodorizing apparatus 10 for reducing and discharging a mixed gas having various harmful components in a clean state: a suction pipe 10a and a discharge pipe 10b are connected to the lower and upper portions, respectively. A casing 11 formed of a sealed structure using a material having a low thermal conductivity; A heater 12 mounted on upper and lower insulators 13 at an inner center of the casing 11 and operated by an AC power source applied through an electric wire 16; A deodorant 15 mounted surrounding the entire outer circumferential surface of the heater 12 and oxidizing and decomposing the mixed gas at a predetermined temperature; A heat insulating material (14) mounted on an inner surface of the casing (11) between the outer surfaces of the deodorant (15) and blocking heat transfer from the heater (12) to the casing (11); A filter 20 connected to the suction pipe 10a of the casing 11 and filtering out foreign substances primarily; And it is connected to the discharge pipe (10b) of the casing (11) provides a deodorizing apparatus using a pyrolysis method comprising a blower (30) for causing air flow in the casing (11).

At this time, the deodorant 15 uses a platinum-alumina-based deodorant, and has a structure in which air flows inside.

EXAMPLE

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention.

1 is a perspective view schematically showing the external configuration of the deodorizer according to the present invention.

The present invention is applied to the deodorizing apparatus 10 for reducing and discharging the mixed gas having various harmful components in a clean state, and is classified roughly into details such as the deodorizing apparatus 10, the filter 20, the blower 30, and the like. .

If the deodorizing device 10 is applied to an environment in which a lot of dust or foreign matters is used, the filter 20 is essential. However, omitting it first or in an environment with less foreign matters does not cause a serious problem in the operation of the system. .

The blower 30 may be externally installed as an essential component of the deodorizer 10 as shown in the drawing, and may be embedded in the upper or lower portion of the deodorizer 10.

Figure 2 is a block diagram showing the main functional portion inside the deodorizing device of FIG.

The apparatus according to the present invention comprises a casing 11 which is a structure, an electrical component such as a heater 12, an electric wire 16, and a thermal component such as an insulator 13, a heat insulating material 14, and a deodorant 15. In the same manner as in the conventional deodorization apparatus, a portion for treating moisture is unnecessary.

In the casing 11 of the present invention, the suction pipe 10a and the discharge pipe 10b are connected to the lower part and the upper part, respectively, and are formed in a closed structure using a material having a low thermal conductivity.

The casing 11 is a structure in which portions except for the suction pipe 10a and the discharge pipe 10b are sealed, and the upper or lower portion of the casing 11 may be opened or closed in order to mount components therein.

The casing 11 may be made of a metallic material having heat resistance and corrosion resistance, or may be made of a non-gold-like material such as engineering plastic.

The filter 20 and the blower 30 are connected to the suction pipe 10a and the discharge pipe 10b, and each thread is threaded into a thread or directly connected to each other, or a bead is formed by caulking to connect a hose and a hose clamp. .

In addition, the heater 12 of the present invention is mounted on the upper and lower insulators 13 at the inner center of the casing 11 and is operated by an AC power source applied through the electric wire 16.

The heater 12 disposed along the air flow path uses a rod-shaped one because the air flow path requires a predetermined length for the purification process. The heater 12 has a calorific value capable of generating a temperature of 250 ° C. or more by an alternating current power applied to the wire 16 connected to the lower portion.

In order to prevent such a high temperature heat conduction to the casing 11, it is installed on the upper and lower insulator 13, the insulator 13 is made of a ceramic material that withstands high temperatures.

In addition, the deodorant 15 of the present invention is mounted covering the entire outer circumferential surface of the heater 12, and oxidizes and decomposes the mixed gas at a predetermined temperature.

Deodorant 15 is formed in a suitable flow cross-sectional area and length in consideration of the flow rate, flow resistance, etc. of the air to ensure a sufficient contact time of the flowed air.

At this time, the deodorant 15 uses a deodorant material of platinum-alumina crab, and has a structure in which air flows inside.

The deodorizing material of platinum (Pt) -alumina (Al ₂ O ₃ ) is completely oxidized and decomposed in the air odor component, multi-component mixed gas and the like at a high temperature of about 250 ℃. When the heater 12 is turned off and cooled as the temperature decreases, the deodorizing material of the platinum-alumina system is reduced to its original state and thus can be used permanently.

In addition, the heat insulating material 14 of the present invention is mounted between the inner surface of the casing 11 and the outer surface of the deodorant 15 to block heat transfer from the heater 12 to the casing 11.

The heat insulating material 14 uses asbestos for insulation or engineering plastics, etc., and blocks the high temperature generated by the heater 12 to maintain the temperature of the casing 11 at about 40 ° C. or less.

In order to increase the heat insulation effect, it is also possible to use the thin heat insulation material 14 in multiple layers, and to provide an air gap between each heat insulation material 14.

In addition, the filter 20 of the present invention is connected to the suction pipe (10a) of the casing 11, and filters out foreign matter primarily.

When the non-combustible foreign matter is adsorbed to the deodorant 15, the flow resistance of the air increases, so that the purifying capacity of the deodorizer 10 is lowered. The filter 20 may use a porous sponge, but it is preferable to use a wire mesh having a predetermined mesh in view of durability.

On the other hand, it is also possible to place activated carbon inside such a filter 20. Activated charcoal is effective in removing a relatively wide range of odors such as ammonia, ethylamine, manure odor, diethylamine, and garbage odor, and the exchange cycle is relatively long with 2 to 3 years.

The porosity of activated carbon increases the area to be contacted when odor passes, but it improves the purification ability. If too fine, the flow resistance of the air increases and the overall purification ability is reduced.

In addition, the blower 30 of the present invention is connected to the discharge pipe (10b) of the casing 11, causing the air flow in the casing (11).

The capacity of the blower 30 is determined in consideration of the flow resistance in the filter 20 and the deodorant 15 and the required flow rate in the deodorant 15.

Since the air passing through the blower 30 is a high temperature, pay attention to the selection of the fan constituting the blower 30, and the cooling device (not shown) is provided so that sufficient heat radiation is also provided to the motor driving the fan.

On the other hand, the deodorizing apparatus 10 of the present invention may operate in a manual mode which is operated only while operating a switch (not shown), and when the switch is turned on, the deodorizing apparatus 10 operates in an automatic mode that is turned on and off while a predetermined gas component is detected. You may.

Although not shown, in the automatic mode, using a gas sensor made of a ceramic material whose internal resistance is changed by a predetermined gas component, it is possible to automatically perform the function according to the present invention.

In any of the above modes, the deodorizing device 10 of the present invention is simple to control because only the heater 12 and the blower 30 are operated by the application of AC power through the wires 16, and accordingly, It can be used semi-permanently without maintenance.

As described above, the deodorizing device using the pyrolysis method of the present invention completely oxidizes contaminated air by using a high temperature deodorizing material at a place where home appliance or industrial device control occurs, thereby quickly purifying a large amount of odors to improve living environment and air pollution. It is effective to prevent.

While the invention has been shown and described with respect to certain preferred embodiments thereof, it will be appreciated that the invention can be varied and modified without departing from the spirit or scope of the invention as set forth in the following claims. One of ordinary skill in the art will readily know.

Claims (2)

In the deodorizing apparatus 10 for reducing and discharging a mixed gas having various harmful components in a clean state: A casing 11 connected to the lower and upper portions of the suction pipe 10a and the discharge pipe 10b and formed of a sealed structure using a material having a low thermal conductivity; A heater 12 mounted on upper and lower insulators 13 at an inner center of the casing 11 and operated by an AC power source applied through an electric wire 16; A deodorant 15 mounted surrounding the entire outer circumferential surface of the heater 12 and oxidizing and decomposing the mixed gas at a predetermined temperature; A heat insulating material (14) mounted on an inner surface of the casing (11) between the outer surfaces of the deodorant (15) and blocking heat transfer from the heater (12) to the casing (11); A filter 20 connected to the suction pipe 10a of the casing 11 and filtering out foreign substances primarily; And And a blower (30) connected to the discharge pipe (10b) of the casing (11) and causing air flow in the casing (11). The deodorizer of claim 1, wherein the deodorant (15) uses a platinum-alumina-based deodorant and has a structure in which air flows into the deodorant.