KR102463865B1 - deodorizing apparatus for food waste treatment - Google Patents

Abstract

The present invention relates to an organic waste deodorizing device that is connected to an exhaust pipe of a processing chamber having an internal accommodation space for fermenting and drying organic wastes to remove the odor of exhaust gas generated from the processing chamber. A tip deodorization chamber that removes dust and oil contained in exhaust gas and discharges it through an exhaust port, a suction fan connected to the exhaust port and one end of the tip deodorization chamber, and the other end of the suction fan connected to the exhaust gas to be burned and a main deodorizing chamber that is connected in series to the lower part of the heating chamber and removes odor components remaining with a built-in adsorbent while passing through the heating chamber, and the exhaust gas discharged from the main deodorization chamber is heat-exchanged with outside air and discharged and a main deodorizing unit having a heat exchange chamber having a heat exchange unit. According to the organic waste deodorizing device, the structure is simplified while providing the advantage of improving the odor treatment efficiency.

Description

Organic waste deodorizing apparatus {deodorizing apparatus for food waste treatment}

The present invention relates to an organic waste deodorizing device, and more particularly, to an organic waste deodorizing device capable of improving deodorization efficiency.

In general, an apparatus for annihilation treatment of food wastes solves the odor problem by injecting external air into the extinction tank for aerobic fermentation by microorganisms, deodorizing the odor gas generated during the extinction treatment process with a deodorizing device, and then discharging it. .

As the prior art related to such a deodorizing device, there were registered Patent No. 10-0785614, Registered Patent No. 10-0763401, Registered Patent No. 10-0809967, Registered Patent No. 10-0743544, and the like.

However, the prior art uses different types of catalysts to configure one deodorizing device, uses a photocatalyst that needs to be irradiated with ultraviolet rays, or uses a separate heater, so the structure is complicated and power consumption is increased. there is a problem with

Moreover, in a general deodorization device, the size of the deodorizing layer is determined in consideration of the amount of odor gas to be treated and the degree of deodorization after treatment, and the body is formed to fit the determined size of the deodorizing layer, but the gas inlet and outlet passages Therefore, even if a rather large pipe diameter is selected, it is made smaller than the body size. Accordingly, the malodorous gas was not evenly dispersed in the deodorizing layer, instead, the deodorization layer was intensively deodorized only in the portion of the deodorizing layer on the line connecting the inlet passage and the outlet passage by the shortest distance, so that the entire deodorization layer was not fully utilized.

On the other hand, although it is important to deodorize the gas inside the extinction tank and discharge it to the outside in an apparatus for extinguishing food waste, it is also important to smoothly discharge the gas inside the extinction tank while replacing it with external air. As a prior art for this purpose, there is Patent Registration No. 20-0437624, but the prior art has a disadvantage in that external air is sprayed in a tornado, so that the incoming external air is mixed with the internal malodorous gas and only the malodorous gas cannot be smoothly discharged.

An object of the present invention is to provide an organic waste deodorizing device capable of improving odor treatment efficiency while simplifying the structure, as devised to improve the above problems.

In order to achieve the above object, an organic waste deodorization device according to the present invention is connected to an exhaust pipe of a treatment chamber having an internal accommodation space for fermenting and drying organic waste to remove the odor of exhaust gas generated from the treatment chamber. An apparatus comprising: a front-end deodorization chamber for removing dust and oil contained in the exhaust gas flowing in through an inlet connected to the exhaust pipe and discharging it through an outlet; a suction fan having one end connected to the outlet of the distal deodorizing chamber; A heating chamber connected to the other end of the suction fan to heat the exhaust gas introduced therein, and a main for removing odor components remaining while passing through the heating chamber with a built-in adsorbent connected in series to the lower portion of the heating chamber and a main deodorization unit having a deodorization chamber and a heat exchange chamber having a heat exchange unit for exchanging the exhaust gas discharged from the main deodorization chamber with external air and discharging it.

According to one aspect of the present invention, the inside of the tip deodorizing chamber is formed to contain at least one of activated carbon, ceramic, and zeolite to filter dust and oil.

Preferably, an adsorption tank formed to store adsorbed water for adsorbing pollutants contained in the exhaust gas passing through the heat exchange chamber is provided at a lower portion of the heat exchange chamber.

In addition, activated carbon is built in the main deodorizing chamber, the heating of the heating chamber is controlled so that the internal temperature is maintained at 380 to 400 ℃.

More preferably, the exhaust gas passing through the adsorption tank flows into a residual heat recovery inlet formed in the lower center of the treatment chamber, and is formed in both directions from the residual heat recovery inlet to be exhausted through zigzag guide partitions formed alternately.

According to the organic waste deodorizing device according to the present invention, it provides the advantage of improving the odor treatment efficiency while simplifying the structure.

1 is a view showing an organic waste deodorizing device according to a preferred embodiment of the present invention.

Hereinafter, an organic waste deodorizing device according to a preferred embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

1 is a view showing an organic waste deodorizing device according to a preferred embodiment of the present invention.

Referring to FIG. 1 , the organic waste deodorization device 100 according to the present invention includes a tip deodorization chamber 110 , a suction fan 120 , and a main deodorization unit 150 .

The tip deodorization chamber 110 is connected to the exhaust pipe 20 of the processing chamber 10 having an internal accommodation space for fermenting and drying food waste, which is an organic waste, so as to receive the exhaust gas generated from the processing chamber 10. has been

The tip deodorization chamber 110 removes dust and oil contained in the exhaust gas flowing in through the inlet 112 connected to the exhaust pipe 20 and discharges it through the outlet 114 .

The tip deodorization chamber 110 is formed in a housing shape that can accommodate the filtering material therein, and a dust filter 116 for filtering dust is mounted on the upper portion of the interior opposite to the inlet 112, and the dust filter At the lower portion (116), a primary deodorizing layer 117 filled with at least one filter material capable of filtering oil and odor components, for example, activated carbon, ceramic, zeolite, and the like is formed.

The suction fan 120 has one end connected to the outlet 114 of the distal end deodorizing chamber 110 and the other end connected to the main deodorizing unit 150 to be described later, and blows from the distal end deodorizing chamber 110 to the main deodorizing unit 150 . This creates a suction force that can be achieved. The suction fan 120 may be a ring blower (Ring Blower) is applied.

The main deodorizing unit 150 is connected to the other end of the suction fan 120 to a heating chamber 152 for heating the introduced exhaust gas to be burned, and a heating chamber 152 connected in series to the lower portion of the heating chamber 152 . A heat exchange chamber having a main deodorization chamber 154 for removing odor components remaining while passing through with a built-in adsorbent, and a heat exchange unit 160 for exchanging the exhaust gas discharged from the main deodorization chamber 154 with outside air and discharging it ( 156) and an adsorption tank 158.

The heating chamber 152 has a heater 153 built therein, and operation is controlled by a controller 180 to be described later. The heating chamber 152 is connected to the other end of the suction fan 120 so that the exhaust gas is burned by heating of the heater 153 .

The main deodorizing chamber 154 is formed at the lower end of the heating chamber 152 and has a built-in activated carbon capable of removing the remaining odor components while passing through the heating chamber 152 .

The heat exchange chamber 156 is provided under the main deodorization chamber 154, and a plurality of heat exchange tubes 160a connecting the main deodorization chamber 154 and the adsorption tank 158 to be described later in communication with each other are vertically arranged. The heat exchange units 160 spaced apart from each other are built-in.

In addition, an outside air inlet pipe 162 for introducing outside air into the lower side of the heat exchange chamber 156 is formed, and an outside air discharge pipe 164 through which the air heat-exchanged with the heat exchange pipe 160a is discharged at the other upper side. ) is provided. Here, the air transferred through the outdoor air discharge pipe 164 is connected to be supplied to the processing chamber 10 .

The adsorption tank 158 is formed in the lower portion of the heat exchange chamber 156 to store adsorption water 159 for adsorbing contaminants contained in the exhaust gas passing through the heat exchange chamber 156 .

A discharge pipe 171 through which exhaust gas passing through the adsorption tank 158 is discharged is provided on the side surface of the adsorption tank 158 .

In addition, the exhaust gas discharged through the discharge pipe 171 through the adsorption tank 158 is connected to be introduced into the residual heat recovery inlet 15 formed in the lower center of the treatment chamber 10, and the residual heat recovery inlet 15 It is formed in both directions from and is to be exhausted through the zigzag guide partition walls 18 formed alternately.

The first temperature sensor 171 measures the internal temperature of the heating chamber 152 and provides it to the controller 180 .

The second temperature sensor 172 measures the internal temperature of the main deodorization chamber 154 and provides it to the controller 180 .

The controller 180 operates the heater so that the set combustion temperature is maintained using the temperature information detected by the first temperature sensor 171 when the deodorization mode is performed. Alternatively, the controller 180 controls the heater 153 to be heated so that the internal temperature of the main deodorization chamber 154 is maintained at 380 to 400° C. using the temperature information of the second temperature sensor 172 .

According to the organic waste deodorizing device, the structure is simplified while providing the advantage of improving the odor treatment efficiency.

110: tip deodorization chamber 120: suction fan
150: main deodorization unit

Claims (5)

In the organic waste deodorizing apparatus connected to the exhaust pipe of the processing chamber having an internal accommodation space for fermenting and drying the organic waste to remove the odor of the exhaust gas generated from the processing chamber,
a front-end deodorization chamber for removing dust and oil contained in the exhaust gas flowing in through the inlet connected to the exhaust pipe and discharging it through the outlet;
a suction fan having one end connected to the outlet of the distal deodorizing chamber;
A heating chamber connected to the other end of the suction fan to heat the exhaust gas introduced therein, and a main for removing odor components remaining while passing through the heating chamber with a built-in adsorbent connected in series to the lower portion of the heating chamber a main deodorization unit having a deodorization chamber and a heat exchange chamber having a heat exchange unit for exchanging the exhaust gas discharged from the main deodorization chamber with external air; and
and an adsorption tank formed in a lower portion of the heat exchange chamber to store adsorbed water for adsorbing pollutants contained in the exhaust gas passing through the heat exchange chamber;
The exhaust gas that has passed through the adsorption tank is introduced into a residual heat recovery inlet formed in the lower center of the treatment chamber, is formed in both directions from the residual heat recovery inlet, and is exhausted through zigzag guide partitions formed alternately organic waste, characterized in that it is formed deodorizer. The organic waste deodorization device according to claim 1, wherein the inside of the front end deodorization chamber contains at least one of activated carbon, ceramic, and zeolite to filter dust and oil. delete According to claim 1, wherein the main deodorizing chamber has a built-in activated carbon, organic waste deodorizing device, characterized in that the heating of the heating chamber is controlled so that the internal temperature is maintained at 380 to 400 ℃.
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