KR101507951B1 - Food waste disposal device - Google Patents

Abstract

An apparatus main body having an inlet port through which food waste containing dirty waste containing waste water discharged from the disposer installed in the drain port of the wash basin is introduced and a waste water discharge port through which waste water is discharged and the waste water is discharged; A filter unit disposed between the waste water treatment tank and the waste water discharge port in the apparatus body to filter out fine particles contained in the discharged waste water; A stirring unit for stirring microorganisms and parasites in which microorganisms are parasitic to flow, a valve unit for supplying the dirt introduced through the inlet to one of the soil treatment tank and the filter, And a control unit for controlling the valve unit on the basis of Food waste processing apparatus is posted.

Description

[0001] Food waste disposal device [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a food waste disposal apparatus, and more particularly, to a food waste disposal apparatus capable of decomposing and treating food waste using microorganisms.

Various treatment methods have been applied to treat food waste at home.

Currently, the household food processing apparatuses that are distributed on the market are classified into simple drying system, crushing system, crushing and drying system, microbial liquid phase decomposition system, crushing and microbial decomposition system.

Among them, microbial degradation and extinction are the most environmentally friendly and convenient products. In other words, it is known that microbes can be used to effectively treat food waste by decomposing food waste and discharging it as water and gas.

However, the decomposition and destruction method using microorganisms has the following problems.

That is, it takes a long time to decompose and disappear into microorganisms because the food is put in as it is. Therefore, there is an inconvenience that the fibrous food, the viscous material, and the bone type, which take a long time to decompose, are separated and discharged or crushed into small pieces.

In addition, since the decomposition time is long, the food can be continuously accumulated and become saturated, and in this case, odor can be generated and the indoor air can be contaminated. And there is an inconvenience that the food accumulated in the saturated state is separated from the food processing apparatus and discharged.

In addition, there is a discharge hole at the lower end of the disassembly tank, and not only the water generated upon decomposition but also the fine food waste not decomposed is also discharged together with the discharge hole, thereby blocking the sewer line and polluting the water quality.

In view of such a problem, a food processing apparatus has been proposed in which food is first pulverized using a disposer, and then decomposed and destroyed using microorganisms.

However, the method of crushing and treating food as microorganisms has the following problems.

 According to the prior art, since the disposer installed at the lower part of the tank moves to the decomposition tank in one step, the disassembly method is superior to the decomposition method that uses only microorganisms without decomposition. However, Is discharged together with water to deteriorate water quality.

In addition, since the digestion tank is composed of one unit, food waste is decomposed and extinguished only once, so that liquid food waste that has not been completely decomposed is discharged to pollute the water quality and clog the sewage pipe.

Further, there is a problem that the detergent of chemical substances, which is lethal to microorganisms, hot water and the like are directly introduced into the decomposition bath and microorganisms are sterilized, thereby rapidly degrading the decomposition power.

Korean Patent Publication No. 10-2002-0002186

DISCLOSURE OF THE INVENTION The present invention has been made in view of the above-mentioned problems, and it is an object of the present invention to provide a food garbage disposal apparatus capable of preventing the accumulation of foodstuffs, The purpose of the device is to provide.

The present invention also provides a food garbage disposing device capable of increasing the degradation efficiency by shortening the decomposition time by supplying air to improve the decomposition ability of microorganisms and by adjusting the temperature by using a heater to make the most suitable environment for microorganisms to act. There is a purpose.

In addition, by continuously supplying the microorganisms to the soil treatment tank, it is possible to maintain the decomposition power constantly by constantly supplying a certain amount of microorganisms daily, even if they are not used for a long time.

In order to attain the above object, the present invention provides a food garbage disposal apparatus comprising: an inlet for introducing food waste, which is decomposed and delivered from a disposer installed in a drain hole of a wash bowl, into which a waste containing sewage is introduced; An apparatus main body having an outlet for discharging sewage; A waste treatment tank installed in the apparatus main body and being divided so as to sequentially decompose the dirt introduced into the inlet using microorganisms; A filter unit disposed between the waste treatment tank and the dirt discharge port in the apparatus body to filter fine particles contained in discharged dirt; A stirring unit which is accommodated in the waste treatment tank and is capable of stirring microorganisms and parasites in which microorganisms are parasitic; A valve unit for supplying a dirt introduced through the inlet to one of the waste treatment tank and the squeezing unit; And a control unit for controlling the valve unit based on a driving signal of the disposer.

Here, the waste treatment tank may include: a primary treatment tank that receives and primarily dissolves the dirt introduced from the inlet; A second treating unit provided in the apparatus main body so as to be separated by the first treating tank and the first treating tank, and secondly treating the soil overflowed in the first treating tank through a moving passage formed on the first treating tank, And a sewage transport passage is formed in the second barrier membrane that isolates the squeeze portion from the secondary treatment vessel so that the sewage overflowing in the secondary treatment vessel moves to the squeeze portion.

The agitation unit may further include: a first agitator rotatably installed in the primary treatment tank; A second agitator rotatably installed in the secondary treatment tank; A stirring drive motor installed inside the apparatus main body; And a power transmission unit for transmitting the power of the stirring drive motor to each of the rotation shafts of the first and second stirrers.

The valve unit may further include a dust transfer path separated by a first branch pipe connected to the waste treatment tank at an inlet pipe connected to the inlet port and a second branch pipe connected to the filter unit; A valve body installed between the first and second branch pipes, the valve body being opened in accordance with the rotational position, and the other being closed; And a valve motor for driving the valve body in a forward or reverse direction in response to a drive signal of the control unit to rotate the valve body.

In addition, the filter may be formed in the apparatus main body so as to be separated from the waste treatment tank, and formed between the sewage discharge port and the inlet port; And a squeezing net installed in the squeeze chamber.

The apparatus may further include a microorganism supply unit provided in the apparatus main body for supplying microorganisms to the waste treatment tank.

The microbial supply unit may include a microorganism storage tank installed at the top of the waste treatment tank and containing microorganisms; A microbial supply pump for pumping the microorganisms in the microorganism storage tank and supplying the microorganisms to the soil treatment tank; And a level sensor for sensing the amount of microorganisms in the microorganism storage tank.

A heater installed inside the waste treatment tank; And a water temperature sensor disposed inside the waste treatment tank, wherein the controller controls the temperature of the waste treatment tank by driving the heater based on the temperature sensed by the water temperature sensor .

The apparatus may further include an air supply unit for supplying air into the waste treatment tank, wherein the air supply unit includes: an air pump installed in the apparatus main body; An air injection member installed in a lower portion of the waste treatment tank; And an air supply pipe connecting the air pump and the air injection member.

According to the food garbage disposal apparatus of the present invention, food waste disassembled in the disposer can be disassembled first and secondarily using microorganisms and completely treated to discharge only water. Therefore, the garbage can be prevented from being clogged with sewage.

That is, the valve unit is appropriately controlled so that the pulverized food waste is introduced into the waste treatment tank to be decomposed, and the washing water containing hot water or detergent is injected into the filter so as to filter the dirt and discharge the waste water to the sewer. Degradation of the decomposition force can be prevented.

In addition, by supplying air to the waste treatment tank, the activity of the microorganisms can be made active, and furthermore, by optimizing the environmental conditions for microbial activity by using the heater, it is possible to enhance the efficiency of the decomposition treatment of the dirt.

1 is a view showing a state where a food waste disposal apparatus according to an embodiment of the present invention is connected to a disposer.
FIGS. 2 to 9 are views showing the food garbage disposal apparatus shown in FIG. 1. FIG.
FIG. 10 is a schematic block diagram showing a food garbage disposal apparatus according to an embodiment of the present invention.

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

1 to 10, a food garbage disposing apparatus 100 according to an embodiment of the present invention includes a food waste disassembled from a disposer 20 connected to a drain 11 of a sink 10, It is for decomposing and treating using microorganisms. The food processor 100 includes an apparatus body 110, a waste treatment tank 120, a squeeze unit 130, a stirring unit 140, a valve unit 150, a microorganism supply unit 160, A supply unit 170 and a control unit 180. Fig.

The apparatus main body 110 includes an inlet 111 through which dust and dirt including waste food and waste discharged from the disposer 20 installed in the drain 11 of the sink 10 flows, And a waste water discharge port 112 through which the remaining waste water is discharged.

In the interior of the apparatus body 110, a waste treatment tank 120 and a squeeze part 130 are separately provided by a second blocking film 117.

The waste treatment tank 120 is provided with a primary treatment tank 121 and a secondary treatment tank 123 which are separated from each other by a first blocking film. The wastewater flowing through the inlet 111 is firstly decomposed by microorganisms in the first treatment tank 121 and the wastewater which is decomposed and overflowed in the first treatment tank 121 is discharged to the upper part of the primary blocking membrane 116 And is moved through the formed wastewater passage 116a. The dirt contained in the wastewater transferred to the secondary treatment tank 123 is decomposed by the secondary microorganisms. The wastewater which has been secondarily decomposed in the second treatment tank 123 flows over the wastewater transport passage 117a formed in the upper portion of the second blocking film 117 and is discharged to the discharge port 112 after being moved to the filter 130. [ In the interior of the first and second treatment tanks 121 and 123, microorganisms are attached and parasitic microorganism pools 200 are installed. The microorganism housing 200 has a spherical structure and may include porous toluumarin to form colonies of degrading microorganisms (aerobic bacteria and anaerobic bacteria). Since tolumarine is a well-known mineral, a detailed description will be omitted.

The squeezing part 130 is formed in the apparatus main body 110 so as to be separated from the sewage treatment tank 120 and is connected to the sewage discharge port 112. The squeezing chamber 131 is provided in the squeezing chamber 131, (133). The wastewater overflowed in the secondary treatment tank 123 is finally moved to the squeeze portion 130 so that fine sludge remaining in the squeezing net 133 is mostly filtered and removed and the sludge is discharged through the outlet 112 can do.

The stirring unit 140 is for stirring the soil and the microorganism collection 200 in the soil treatment tank 120. The agitating unit 140 includes a first agitator 141 rotatably installed in the primary treatment tank 121, a second agitator 142 rotatably installed in the secondary treatment tank 123, A stirring drive motor 143 installed inside the apparatus main body 110 and a power transmission mechanism for transmitting the power of the stirring drive motor 143 to the rotating shafts of the first and second stirrers 141 and 142 (144). A separate installation space 110a for storing the stirring unit 140 is formed in the apparatus main body 110 so as to be separated from the waste treatment tank 120 and is driven and controlled in accordance with the control signal of the control unit 180. [ Each of the first and second stirrers 141 and 142 is provided with a plurality of stirring vanes 141b and 142b on the rotating shafts 141a and 142a. The power transmitting portion 144 includes a driven pulley 144a provided on the rotating shafts 141a and 142a, a driving pulley 144b provided on the driving shaft of the stirring motor 143, and a driving pulley 144b and a driven pulley 144a And a power transmission belt 144c for transmitting the power while traveling. Further, a guide flipper 144d for guiding the movement of the power transmission belt 144c and providing a tension can be further provided. According to the agitating unit 140 having such a configuration, the first and second agitators 141 and 142 are simultaneously rotated to stir the dirt in the first and second treatment tanks 121 and 123 and the microorganism collection 200, It is possible to effectively perform the decomposition action.

The valve unit 150 is adapted to supply the dirt introduced through the inlet 111 to one of the primary treatment tank 121 and the squeeze unit 130. The valve unit 150 includes a dirt transfer path 151, a valve body 153, and a valve motor 155.

The dirt transport path 151 includes a first branch pipe 151b connected to the first treatment tank 121 from an inlet pipe 151a connected to the inlet port 111 and a second branch pipe 151b branched from the inlet pipe 151a, And connected to the second branch pipe 151c connected to the filter 130. The valve body 153 is installed between the first and second branch pipes 151b and 151c, and one of them is opened and the other is closed according to the rotational position. The valve body 153 is operated by a valve motor 155 driven in a forward or reverse direction in accordance with a driving signal of the controller 180.

The microorganism supply unit 160 is provided inside the apparatus main body 110 to supply microorganisms to the waste treatment tank 120. The microbial supply unit 160 includes a microorganism storage tank 161 disposed above the waste treatment tank 120 and containing microorganisms and a microorganism storage tank 161 for supplying microorganisms of the microorganism storage tank 161 to the waste treatment tank 120 A microbial supply pipe 162 and a microbial supply pump 163 disposed in the microbial supply pipe 162 for pumping microbes in the microbial feed pipe 162 and supplying the microbes into the waste treatment tank 120, And a level sensor 164 for sensing the amount of microorganisms. A flow meter 165 is installed in the microorganism supply pipe 162 to sense the supply amount of the microorganisms. The microbial supply pump 163 is controlled and driven by the control unit 180 so that a certain amount of microorganisms are replenished daily so that the microbial count is not reduced in the waste treatment tank 120.

The air supply unit 170 supplies air to the inside of the waste treatment tank 120 to reproduce the microorganisms and to make the decomposition activity vigorous. The air supply unit 170 includes an air pump 171 installed in the apparatus main body 110, an air injection member 172 and an air pump 171 installed in the lower part of the waste treatment tank 120, And an air supply pipe 173 for connecting the injection member 172.

In addition, heaters 181 and 182 may be further installed in the first and second treatment tanks 121 and 123, respectively. The heaters 181 and 182 allow the temperature inside the first and second treatment tanks 121 and 123 to be a proper temperature for the microbes to reproduce and act.

The control unit 180 controls the valve unit 150 based on the driving signal of the disposer 20 so that the washing water is discharged to the squeezing unit 130 when the disposer 20 is not operated And wash water and dirt (including food waste decomposed from the disposer) are introduced into the first treatment tank 121 when the disposer 20 operates.

Accordingly, it is possible to prevent the sterilization and removal of the microorganisms, which dissolve and extinguish the food, by introducing the hot water and the detergent into the first and second treatment tanks 121 and 123, and can directly discharge the water to the filter 130.

When the disposer 20 is driven to crush foodstuffs, the direction of the valve body 153 is changed so that the disassembled dirt, that is, the food waste, is introduced into the primary treatment tank 121, .

The control unit 180 may control the stirring unit 140, the air supply unit 170, and the microorganism supply unit 160, respectively. The control unit 180 may be provided on the control panel 190 installed in the apparatus main body 110. The control panel 190 may include a power button, a plurality of setting buttons, an operation lamp, and a display member.

The first and second water temperature sensors 183 and 184 are respectively installed in the first treatment tank 121 and the second treatment tank 123 to measure the temperature of the water including the food waste, Information transmitted to the controller 180 is transmitted to the controller 180. [ The control unit 180 determines whether the temperatures of the first treatment tank 121 and the second treatment tank 123 are at a temperature optimum for the microorganisms to act on the basis of the temperatures measured by the first and second water temperature sensors 183 and 184 And selectively drives and controls the heaters 181 and 182 so as to maintain the temperature.

In addition, the food waste disposal apparatus 100 according to the embodiment of the present invention may further include an output unit 210. The output unit 210 may include an LCD panel and a speaker (not shown) provided in the control panel 190. The control unit 210 outputs the operation state information of the food waste disposal apparatus 100 through the output unit 210 so that the operation state information can be checked for use.

The control unit 180 also receives an alarm signal or the like through the output unit 210 when it is necessary to replenish the microorganisms based on information of the microbial supply unit 160 sensing the microbial storage amount The microbes can be supplemented by the user at a necessary time, thereby facilitating maintenance.

The food garbage disposing apparatus 100 according to the embodiment of the present invention having the above-described structure has a three-stage process tank for decomposing food materials into microorganisms and destroying them. That is, the food waste is firstly decomposed by the microorganisms in the first treatment tank 121, and the dirt that has flowed into the second treatment tank 123 overflows in the first treatment tank 121 without being micro- And is decomposed and processed in the tank 123 in the second order. At this time, only the water and fine food waste decomposed by the microorganism in the first treatment tank 121 flows over the first treatment tank 121 and flows into the second treatment tank 123. Similarly, the food waste is decomposed in the secondary treatment tank 123, and the decomposed water overflows into the squeeze portion 130. At this time, only the water which is decomposed in the food waste to 98% or more flows in the water flowing into the squeeze part 130 from the second treatment tank 123.

The squeezing mesh 133 of the squeeze part 130 can filter the foreign matter completely from the sump without passing through the fine sludge or the sludge treatment tank 120 to prevent the foreign matter from being discharged to the sewer.

Therefore, when the food waste is discharged, it is supplied to the waste treatment tank 120, and decomposed and treated in three stages using microorganisms, so that only water can be discharged to the sewer. The washing water containing the hot water or the detergent is prevented from being introduced into the waste treatment tank 120, so that the microorganisms are sterilized to prevent degradation of the decomposition power, thereby enabling the food waste treatment apparatus 100 to perform a normal function.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It is therefore to be understood that the embodiments described above are to be considered in all respects only as illustrative and not restrictive. The scope of the present invention is defined by the appended claims rather than by the foregoing description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be interpreted as being included in the scope of the present invention .

100 .. Food waste treatment device 110 .. Device body
120 .. Sewage treatment tank 130 .. Crease
140 .. Stirring unit 150 .. Valve unit
160 .. Microorganism supply unit 170 .. Air supply unit
180. Control unit 181, 182. Heater
183,184 .. First and second water temperature sensor 200 .. Microorganism house
210.

Claims (10)

An apparatus main body having an inlet through which food waste including dredged food and dirty water that is decomposed and delivered from the disposer installed in the drainage basin is introduced and a sewage discharge outlet through which the sewage remaining after treating the dirt is discharged;
A waste treatment tank installed in the apparatus main body and being divided so as to sequentially decompose the dirt introduced into the inlet using microorganisms;
A filter unit disposed between the waste treatment tank and the dirt discharge port in the apparatus body to filter fine particles contained in discharged dirt;
A stirring unit which is accommodated in the waste treatment tank and is capable of stirring microorganisms and parasites in which microorganisms are parasitic;
A valve unit for supplying a dirt introduced through the inlet to one of the waste treatment tank and the squeezing unit;
A control unit for controlling the valve unit based on a driving signal of the disposer; And
And a microorganism supply unit installed inside the apparatus main body for supplying microorganisms to the waste treatment tank. The apparatus according to claim 1, wherein the waste treatment tank comprises:
A primary treatment tank for receiving and primarily dissolving the dirt introduced from the inlet;
A second treating unit provided in the apparatus main body so as to be separated by the first treating tank and the first treating tank, and secondly treating the soil overflowed in the first treating tank through a moving passage formed on the first treating tank, And a second treatment tank,
Wherein a waste water transfer passage is formed in the second cut-off film for isolating the second treatment tank from the second waste treatment tank so that wastewater overflowed in the second treatment tank moves to the flush. The stirring device according to claim 2,
A first agitator rotatably installed in the primary treatment tank;
A second agitator rotatably installed in the secondary treatment tank;
A stirring drive motor installed inside the apparatus main body;
And a power transmission unit for transmitting the power of the stirring drive motor to each of the rotation shafts of the first and second agitators. The valve unit according to claim 1,
A dirt transfer path separated by a first branch line connected to the dirt treatment tank and a second branch line connected to the dirt treatment tank in an inflow pipe connected to the inflow port;
A valve body installed between the first and second branch pipes, the valve body being opened in accordance with the rotational position, and the other being closed;
And a valve motor for driving the valve body in a forward or reverse direction in accordance with a driving signal of the control unit to rotate the valve body. [2] The apparatus according to claim 1,
A filter chamber formed in the apparatus main body so as to be separated from the sewage treatment tank and formed between the sewage discharge port and the inlet port;
And a filter net installed in the filter chamber. delete The microorganism supplying apparatus according to claim 1,
A microorganism storage tank installed on the top of the waste treatment tank and containing microorganisms;
A microbial supply pump for pumping the microorganisms in the microorganism storage tank and supplying the microorganisms to the soil treatment tank; And
And a level sensor for sensing the amount of microorganisms in the microorganism storage tank. An apparatus main body having an inlet through which food waste including dredged food and dirty water that is decomposed and delivered from the disposer installed in the drainage basin is introduced and a sewage discharge outlet through which the sewage remaining after treating the dirt is discharged;
A waste treatment tank installed in the apparatus main body and being divided so as to sequentially decompose the dirt introduced into the inlet using microorganisms;
A filter unit disposed between the waste treatment tank and the dirt discharge port in the apparatus body to filter fine particles contained in discharged dirt;
A stirring unit which is accommodated in the waste treatment tank and is capable of stirring microorganisms and parasites in which microorganisms are parasitic;
A valve unit for supplying a dirt introduced through the inlet to one of the waste treatment tank and the squeezing unit;
A control unit for controlling the valve unit based on a driving signal of the disposer;
A heater installed inside the waste treatment tank; And
And a water temperature sensor installed inside the waste treatment tank,
Wherein the controller controls the temperature of the waste treatment tank by driving and controlling the heater based on the temperature sensed by the water temperature sensor. An apparatus main body having an inlet through which food waste including dredged food and dirty water that is decomposed and delivered from the disposer installed in the drainage basin is introduced and a sewage discharge outlet through which the sewage remaining after treating the dirt is discharged;
A waste treatment tank installed in the apparatus main body and being divided so as to sequentially decompose the dirt introduced into the inlet using microorganisms;
A filter unit disposed between the waste treatment tank and the dirt discharge port in the apparatus body to filter fine particles contained in discharged dirt;
A stirring unit which is accommodated in the waste treatment tank and is capable of stirring microorganisms and parasites in which microorganisms are parasitic;
A valve unit for supplying a dirt introduced through the inlet to one of the waste treatment tank and the squeezing unit;
A control unit for controlling the valve unit based on a driving signal of the disposer; And
Further comprising an air supply unit for supplying air into the waste treatment tank. 10. The air conditioning system according to claim 9,
An air pump installed in the apparatus body;
An air injection member installed in a lower portion of the waste treatment tank; And
And an air supply pipe connecting the air pump and the air injection member.

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