KR20150000884U - Waste disposal unit - Google Patents

Abstract

The present invention relates to a food waste disposal apparatus. One aspect of an embodiment of a food waste disposal apparatus according to the present invention includes: a casing defining an appearance; A treatment tank which is located inside the casing and through which food waste is fermented and decomposed by microorganisms; A deodorization chamber for receiving air containing odor generated in the process of fermentation and decomposition of food waste in the treatment tank and removing odor in the air by ozone; An ozone decomposition chamber for receiving air containing ozone generated in the process of removing odor in the deodorization chamber and decomposing ozone in the air into oxygen; Wherein at least one surface of the ozone decomposition chamber is provided with a plurality of ventilation holes for sucking air into the ozone decomposition chamber and extends from the inner periphery of the vent hole to the inside of the ozone decomposition chamber, The air introduced into the ozone decomposition chamber through the vent hole is guided to the ozone decomposition catalyst positioned adjacent to the ozone decomposition chamber and the ozone decomposition catalyst is prevented from being discharged to the outside of the ozone decomposition chamber through the vent hole And a plurality of guide bosses.

Description

{WASTE DISPOSAL UNIT}

The present invention relates to a food waste disposal apparatus.

Recently, as interest in the environment has increased, a food waste disposal apparatus is being launched to treat food waste more environmentally. Among such food garbage disposers, patent documents filed and registered by the applicant of the present invention disclose a food garbage disposer for eco-friendly decomposition of food garbage using microorganisms.

More specifically, in the food waste disposal apparatus disclosed in the patent document, the food waste is fermented and decomposed by microorganisms inside the treatment tank 10. The odor generated in the process of fermenting and decomposing the food waste in the treatment tank 10 is removed while passing through the deodorization chamber 20. More specifically, when air containing odorous components flows into the deodorization chamber 20, oxygen in the air is synthesized into ozone by the ultraviolet lamp 2 positioned inside the deodorization chamber 20, Thereby eliminating the odor components contained in the exhaust gas. The odor component in the air transferred to the inside of the deodorization chamber 20 may be removed by the photocatalyst or the non-photocatalyst coated on the surface of the air-permeable filler 26 located inside the deodorization chamber 20. Next, the air in which the odor component is removed from the deodorization chamber 20 passes through the ozone decomposition chamber 30, and ozone in the air is removed. That is, when air containing ozone flows into the ozone decomposition chamber 30, ozone remaining in the air is decomposed and removed by the ozone decomposition catalyst 40 located inside the ozone decomposition chamber 30 do. However, in the process of decomposing the ozone remaining in the air, the moisture in the air can be condensed on the surface of the ozone decomposition catalyst 30, When moisture condenses, the ozone decomposition efficiency of the ozone decomposition catalyst 30 is lowered. In order to prevent this, a separate heater 50 is selectively operated in the patent literature in order to prevent water from condensing on the surface of the ozone decomposition catalyst 30. [

However, the following problems arise in the food garbage disposer according to the prior art.

In order to improve the ozone decomposition efficiency by the ozone decomposition catalyst 40, conventionally, as described above, there is a separate structure for preventing water from condensing on the surface of the ozone decomposition catalyst 40, That is, the heater 50 and the structure for controlling the heater 50 are additionally provided. Therefore, conventionally, there is a disadvantage that the number of constituent parts is increased in order to improve the ozone decomposition efficiency by the ozone decomposition catalyst 40.

Also, conventionally, when the heater 50 is not operated, when the internal temperature of the ozone decomposition chamber 30 is lowered, the evaporated moisture can condense on the surface of the ozone decomposition catalyst 40 again. Therefore, conventionally, there is a disadvantage that the ozone decomposition efficiency of the ozone decomposition catalyst 40 is substantially lowered.

Korean Patent Registration No. 10-0743544

The object of the present invention is to provide a food garbage disposer capable of decomposing ozone used for removing odors with a simpler structure.

Another object of the present invention is to provide a food garbage disposer configured to be able to decompose ozone used for smell removal more efficiently.

According to an aspect of an embodiment of the present invention, there is provided a food garbage disposer comprising: a casing defining an appearance; A treatment tank which is located inside the casing and through which food waste is fermented and decomposed by microorganisms; A deodorization chamber for receiving air containing odor generated in the process of fermentation and decomposition of food waste in the treatment tank and removing odor in the air by ozone; An ozone decomposition chamber for receiving air containing ozone generated in the process of removing odor in the deodorization chamber and decomposing ozone in the air into oxygen; Wherein at least one surface of the ozone decomposition chamber is provided with a plurality of ventilation holes for sucking air into the ozone decomposition chamber and extends from the inner periphery of the vent hole to the inside of the ozone decomposition chamber, The air introduced into the ozone decomposition chamber through the vent hole is guided to the ozone decomposition catalyst positioned adjacent to the ozone decomposition chamber and the ozone decomposition catalyst is prevented from being discharged to the outside of the ozone decomposition chamber through the vent hole And a plurality of guide bosses.

In an aspect of the embodiment of the present invention, each of the guide bosses may have a plurality of auxiliary ventilating holes.

One aspect of another embodiment of the present invention is a method of manufacturing a semiconductor device, comprising: a casing defining an appearance; A treatment tank which is located inside the casing and through which food waste is fermented and decomposed by microorganisms; A deodorization chamber for receiving air containing odor generated in the process of fermentation and decomposition of food waste in the treatment tank and removing odor in the air by ozone; An ozone decomposition chamber for receiving air containing ozone generated in the process of removing odor in the deodorization chamber and decomposing ozone in the air into oxygen; Wherein at least one surface of the ozone decomposition chamber is provided with a plurality of air vents for sucking air into the ozone decomposition chamber, and at a predetermined angle on one surface of the ozone decomposition chamber so as to be adjacent to the air vents And a plurality of guide ribs extending to the interior of the ozone decomposition chamber so as to prevent the ozone decomposition catalyst from being discharged to the outside of the ozone decomposition chamber through the vent hole.

In an aspect of the embodiment of the present invention, each of the guide ribs may have a plurality of auxiliary ventilation holes.

In the embodiment of the food garbage disposal apparatus according to the present invention, air can be sucked into the ozone decomposition chamber through the air vent to prevent moisture from condensing on the surface of the ozone decomposition catalyst. Therefore, according to the embodiment of the present invention, it is possible to expect that the ozone used for the removal of odors can be efficiently removed.

1 is a schematic view showing a first embodiment of a food waste disposal apparatus according to the present invention.
2 is a sectional view showing a part of an ozone decomposition chamber constituting the first embodiment of the present invention;
3 is a longitudinal sectional view showing a part of the ozone decomposition chamber constituting the second embodiment of the food waste disposal apparatus according to the present invention.
4 is a longitudinal sectional view showing a part of the ozone decomposition chamber constituting the third embodiment of the food waste disposal apparatus according to the present invention.
5 is a longitudinal sectional view showing a part of an ozone decomposition chamber constituting a fourth embodiment of the food waste disposal apparatus according to the present invention.
6 is a sectional view schematically showing a fifth embodiment of the food waste disposal apparatus according to the present invention.

Hereinafter, the structure of the first embodiment of the food waste disposal apparatus according to the present invention will be described in more detail with reference to the accompanying drawings.

FIG. 1 is a schematic view showing a first embodiment of a food waste disposal apparatus according to the present invention, and FIG. 2 is a sectional view showing a part of an ozone decomposition chamber constituting the first embodiment of the present invention.

1 and 2, the casing 110 defines the appearance of the food waste disposal apparatus according to the present embodiment. In the casing 110, an inlet 111 and an outlet 113 are formed. The inlet port 111 is a place where food waste to be treated is put in and the exhaust port 113 is a place where the odor-free air generated during the process of treating food waste is exhausted. The input port 111 can be selectively opened and closed by a door 115 which is rotatably installed in the casing 110. In the casing 110, various components constituting the food garbage disposer are installed.

More specifically, the processing vessel 120 is provided inside the casing 110. The treatment tank 120 is a place where substantially food waste treatment, that is, fermentation and decomposition of food waste by microorganisms is performed. For example, the upper surface of the treatment tank 120 may be exposed to the outside through the inlet 111.

Also, an agitator 121 is provided in the treatment tank 120. The stirrer 121 is driven by a driving motor 123 to mix food waste and microorganisms inside the treatment tank 120.

A deodorization chamber 130 is provided in the casing 110. The deodorization chamber 130 communicates with the treatment tank 120 by the first duct D1 and the ozone decomposition chamber 140 by the second duct D2. In the deodorization chamber 130, the odor in the air supplied from the treatment tank 120 is removed. For this, an ultraviolet lamp 131 and a breathable filler 133 are provided in the deodorization chamber 130. The ultraviolet lamp 131 synthesizes oxygen in the air into ozone to remove odor in the air transferred to the deodorization chamber 130. The surface of the air-permeable filler 133 may be coated with a photocatalyst or a photocatalyst composed of Cr ₂ O ₃ , Fe ₂ O ₃ , SiO ₂ , ZnO, AgO, or the like. Such a photocatalyst or a non-photocatalyst reacts with oxygen in the air to generate active oxygen for decomposing organic substances in the air that generate odors.

An ozone decomposition chamber 140 is provided in the casing 110. The ozone decomposition chamber 140 removes ozone remaining in the air generated in the process of removing odors from the deodorization chamber 130. The ozone decomposition chamber 140 is communicated with the deodorization chamber 130 by the second duct D2 and the exhaust port 113 by the third duct D3.

Inside the ozone decomposition chamber 140, an ozone decomposition catalyst 141 is provided. The ozone decomposition catalyst 141 serves to decompose ozone into oxygen. In this embodiment, the ozone decomposition catalyst 141 is formed in a ball shape having a substantially predetermined diameter.

Referring to FIG. 2, in the present embodiment, a plurality of ventilation holes 145 are formed on one surface of the ozone decomposition chamber 140. The vent hole 145 serves as an inlet through which air is sucked into the ozone decomposition chamber 140. For this purpose, the vent hole 145 may be formed in a circular shape having a diameter relatively smaller than the size of the ozone decomposition catalyst 141, that is, the diameter of the ozone decomposition catalyst 141. The air is sucked into the ozone decomposition chamber 140 by virtue of the ventilation hole 145 so that the relative humidity of the air flowing inside the ozone decomposition chamber 140 can be lowered.

On the other hand, inside the casing 110, first and second blowing fans F1 and F2 are provided. The first blowing fan F1 may be positioned, for example, between the processing bath 120 and the deodorization chamber 130. [ The second blowing fan F2 may be located at one side of the third duct D3 adjacent to the air outlet 113. [ The first and second blowing fans F1 and F2 are configured to allow the air in the processing bath 120 to pass through the deodorization chamber 130 and the ozone decomposition chamber 140 To the outside of the casing (110). Of course, the flow of air may be performed by any one of the first and second blowing fans F1 and F2.

In this embodiment configured as described above, when the first and second blowing fans F1 and F2 are driven, air containing odors in the processing bath 120 passes through the deodorization chamber 130 While the odor contained in the air is removed by ozone. The ozone contained in the odor-free air passing through the deodorization chamber 130 is decomposed while passing through the ozone decomposition chamber 140, and the ozone-decomposed air is discharged to the outside of the casing 110 . In this embodiment, air having relatively low relative humidity is supplied to the inside of the ozone decomposition chamber 140 by the vent hole 145, so that moisture in the air inside the ozone decomposition chamber 140 flows into the ozone decomposition chamber 140, The phenomenon of condensation on the surface of the decomposition catalyst 30 can be prevented. Therefore, according to the present embodiment, ozone decomposition by the ozone decomposition catalyst 30 can be performed more efficiently.

Hereinafter, a second embodiment of the food waste disposal apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

3 is a longitudinal sectional view showing a part of the ozone decomposition chamber constituting the second embodiment of the food waste disposal apparatus according to the present invention. The constituent elements of this embodiment which are the same as the constituent elements of the first embodiment of the present invention described above are given the same reference numerals as in Figs. 1 and 2, and a detailed description thereof will be omitted.

Referring to FIG. 3, the ozone decomposition chamber 140 is provided with a mesh member 151 for shielding the vent hole 145 in the present embodiment. The mesh member 151 serves to prevent the ozone decomposition catalyst 141 located inside the ozone decomposition chamber 140 from being discharged substantially through the vent hole 145. Therefore, even though the vent hole 145 is relatively larger than the ozone decomposition catalyst 141, the ozone decomposition catalyst 141 may be connected to the ozone decomposition catalyst 141 through the vent hole 145 by the mesh member 151 141 can be prevented from being discharged. However, the holes formed in the mesh member 151 may be formed to have a relatively smaller size than the ozone decomposition catalyst 141.

Hereinafter, a third embodiment of the food waste disposal apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

4 is a vertical sectional view showing a part of the ozone decomposition chamber constituting the third embodiment of the food waste disposal apparatus according to the present invention. The constituent elements of this embodiment which are the same as the constituent elements of the first embodiment of the present invention described above are given the same reference numerals as in Figs. 1 and 2, and a detailed description thereof will be omitted.

Referring to FIG. 4, a guide boss 153 is provided on one side of the ozone decomposition chamber 140, which extends from the inner periphery of the vent hole 145 to the inside of the ozone decomposition chamber 140. The guide boss 153 serves to guide air sucked into the ozone decomposition chamber 140 through the vent hole 145. For example, the guide boss 153 may be formed in a substantially cylindrical shape and extend from the inner periphery of the vent hole 145 to the interior of the ozone decomposition chamber 140. A plurality of auxiliary ventilation holes 154 are formed in the guide bosses 153. The auxiliary vent hole 154 is formed by cutting a part of the outer peripheral surface of the guide boss 153. The air sucked into the ozone decomposition chamber 140 through the vent hole 145 flows into the ozone decomposition chamber 140 through the auxiliary vent hole 154 after flowing through the guide boss 153, As shown in FIG. The guide boss 153 may also prevent the ozone decomposition catalyst 141 from being discharged to the outside of the ozone decomposition chamber 140 through the vent hole 145.

Hereinafter, a fourth embodiment of the food waste disposal apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

5 is a longitudinal sectional view showing a part of the ozone decomposition chamber constituting the fourth embodiment of the food waste disposal apparatus according to the present invention. The constituent elements of this embodiment which are the same as the constituent elements of the first embodiment of the present invention described above are given the same reference numerals as in Figs. 1 and 2, and a detailed description thereof will be omitted.

Referring to FIG. 5, in this embodiment, a guide rib 155 is provided on one surface of the ozone decomposition chamber 140 and positioned adjacent to the vent hole 145. The guide ribs 155 may be formed by, for example, cutting a part of one surface of the ozone decomposition chamber 140. The guide ribs 155 extend obliquely at a predetermined angle with respect to one surface of the ozone decomposition chamber 140 so that the ozone decomposition catalyst 141 located inside the ozone decomposition chamber 140 And is discharged to the outside of the ozone decomposition chamber 140 through the vent hole 145. A plurality of auxiliary ventilation holes 156 are formed in the guide ribs 155. The auxiliary vent hole 156 is formed by cutting a part of the guide rib 155 so that the air sucked through the vent hole 145 is sucked into the ozone decomposition chamber 140 Place.

Hereinafter, a fifth embodiment of the food waste disposal apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

6 is a sectional view schematically showing a fifth embodiment of the food waste disposal apparatus according to the present invention. The constituent elements of this embodiment which are the same as the constituent elements of the first embodiment of the present invention described above are given the same reference numerals as in Figs. 1 and 2, and a detailed description thereof will be omitted.

Referring to FIG. 6, in this embodiment, a heater 143 is installed inside the ozone decomposition chamber 140. The heater 143 is for removing moisture in the air transferred to the interior of the ozone decomposition chamber 140. That is, in this embodiment, the evaporation of moisture by the heater 143 can be performed simultaneously with the suction of air into the ozone decomposition chamber 140 through the vent hole 145.

The scope of the present invention should be construed based on the scope of the appended utility model registration claim, as well as being capable of being modified differently to those of ordinary skill in the art within the scope of the basic technical idea of the present invention will be.

110: casing 120: treating tank
130: deodorization chamber 140: ozone decomposition chamber
145: vent hole 151: mesh member
153: guide boss 154: auxiliary cylinder
155: guide rib 156: auxiliary cylinder

Claims (4)

A casing defining an appearance;
A treatment tank which is located inside the casing and through which food waste is fermented and decomposed by microorganisms;
A deodorization chamber for receiving air containing odor generated in the process of fermentation and decomposition of food waste in the treatment tank and removing odor in the air by ozone; And
An ozone decomposition chamber for receiving air containing ozone generated in the process of removing odor in the deodorization chamber and decomposing ozone in the air into oxygen; Lt; / RTI >
Wherein at least one surface of the ozone decomposition chamber is provided with a plurality of air vents for sucking air into the ozone decomposition chamber,
The air introduced into the ozone decomposition chamber from the inner periphery of the vent hole to be sucked into the ozone decomposition chamber through the vent hole is guided to the ozone decomposition catalyst located adjacent to the ozone decomposition chamber, Further comprising a plurality of guide bosses for preventing the ozone decomposition catalyst from being discharged to the outside of the ozone decomposition chamber.
The method according to claim 1,
Wherein the guide bosses each have a plurality of auxiliary vents.
A casing defining an appearance;
A treatment tank which is located inside the casing and through which food waste is fermented and decomposed by microorganisms;
A deodorization chamber for receiving air containing odor generated in the process of fermentation and decomposition of food waste in the treatment tank and removing odor in the air by ozone; And
An ozone decomposition chamber for receiving air containing ozone generated in the process of removing odor in the deodorization chamber and decomposing ozone in the air into oxygen; Lt; / RTI >
Wherein at least one surface of the ozone decomposition chamber is provided with a plurality of air vents for sucking air into the ozone decomposition chamber,
The ozone decomposition chamber is extended to the inside of the ozone decomposition chamber so as to be inclined at a predetermined angle from one surface of the ozone decomposition chamber so as to be adjacent to the vent hole so as to prevent the ozone decomposition catalyst from being discharged to the outside of the ozone decomposition chamber through the vent hole Further comprising a plurality of guide ribs.
The method of claim 3,
Wherein the guide ribs each have a plurality of auxiliary ventilating holes.

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