KR20120107582A - Apparatus for processing food waste - Google Patents

Abstract

PURPOSE: A food waste disposal device using microbial inoculated balls is provided to completely decompose food waste in a sink using microbial inoculated balls. CONSTITUTION: A food waste disposal device using microbial inoculated balls comprises a crusher, an injection pipe, and a decomposer. The crusher is connected to the outlet of a sink and firstly crushes food waste. The injection pipe injects the crushed food waste into the decomposer. The decomposer is connected to the end of the injection pipe and secondly decomposes the firstly crushed food waste using microorganisms. The decomposer comprises a main body(210), a screen net(220), multiple microbial inoculated balls(230). The screen net is located at the inner center of the main body and has multiple through holes(221) in which the decomposed food waste flows in. A crushing unit(214) of the main body is filled with the microbial inoculated balls.

Description

Food waste treatment device using microbial inoculation ball {APPARATUS FOR PROCESSING FOOD WASTE}

The present invention relates to a food waste processing apparatus using a microbial inoculation ball, and more particularly, the food wastes crushed to a predetermined size may be crushed again using a spherical ball mill inoculated with microorganisms and simultaneously decomposed by the microorganisms. It satisfies the Environmental Reform Act, which filters more than 80% of the waste and disposes it in a liquid state. In addition, it is possible to prevent secondary pollution with clogging due to the clogging of food waste and complete decomposition by microorganisms. It relates to a food waste processing apparatus using a microbial inoculation ball.

As it is well known that food waste direct landfilling is completely prohibited, various apparatuses for processing food waste have been proposed, and the present applicant is installed under the sink to grind various food wastes flowing from the sink and at the same time injecting microorganisms. It ensures that all food wastes are disassembled before they reach the sewage treatment plant as they pass through the sewer line, preventing overloading the sewage treatment plant and preventing water pollution caused by indiscriminate discharge of food waste to provide a pleasant environment. Food waste disposal equipment was developed and disclosed in Korean Utility Model Model No. 20-2010-0011327.

The food waste treatment apparatus is configured to crush the food waste, discharge microorganisms into the sewage pipe, and disassemble all the food waste while going to the sewage treatment plant, but when the food waste is discharged into the sewer, Due to the discharged together, the debris may not be completely decomposed while passing through the sewage pipe, which may cause secondary pollution of the water quality along with the blockage of the pipe.

In addition, the structure is complicated because it is necessary to separately provide a microbial input unit for injecting microorganisms into a spherical ball mill in order to secondaryly grind the first crushed food waste and decompose it by microorganisms and a stir for stirring the ball mill. There was an economic burden due to rising production costs.

Therefore, the present invention is to solve the above problems, by using a spherical ball mill inoculated with microorganisms crushed food waste to be crushed again by the microorganism at the same time, so as to filter out more than 80% of the solids It not only satisfies the environmental reforming method of disassembling and discharging it in the liquid state, but also completely disintegrates by microorganisms along with the crushing of food waste in the sink. The purpose is to provide a food waste disposal apparatus.

Food waste processing apparatus using a microbial inoculation ball according to the present invention for achieving the above object, and a grinder connected to the outlet of the sink to crush the food waste primarily, and the food waste crushed in the crusher second In the food waste processing apparatus consisting of a cracker for crushing and decomposing the same by microorganisms, the decomposer is provided with an inlet through which the crushed food waste is input and an outlet through which the decomposed food waste is discharged, and rotating the screen net. A driving motor for the built-in upper portion, the main body consisting of a grinding unit is filled with microbial inoculation ball; A hollow screen net coupled to the rotating shaft of the driving motor and positioned at an inner center of the main body, and having a plurality of through holes formed on an upper surface and an outer circumferential surface of the liquid waste to be crushed and decomposed by the microbial inoculation ball; And a plurality of microbial inoculation balls filled with the pulverization unit, in which microorganisms are inoculated to crush and decompose food waste.

In addition, a direction change valve connected to the end of the inlet formed in the downward direction and in close contact with the inside of the main body is further formed, wherein the first and second inlet ports are selectively connected to the inlet is formed, the first A discharge port communicating with any one of the inlets of the first and second inlets is formed at the center, and the direction of the first and second inlets is controlled by a fixed shaft coupled to the directional valve at an angle of 45 °. .

In addition, the microbial inoculation ball is characterized in that it is configured to selectively inoculate one or more Bacillus, cellulose monas, nitrobacter, aerobacter, menthol, ethanol.

In addition, the inner side of the crushing portion has a large circular cross section, characterized in that the both sides are configured to form a plane interference plane in the vertical direction.

As described above, the present invention, by using a spherical ball mill inoculated with microorganisms, is again broken down by the microorganisms, and then decomposed by the microorganisms, so that at least 80% of the solids are decomposed and discharged in a liquid state. Not only satisfies the environmental reform law, but also complete decomposition by microorganisms with the crushing of food waste in the sink is a very useful invention that can prevent secondary pollution along with pipe blockage phenomenon.

1 is a block diagram showing a food waste treatment apparatus according to the present invention.
Figure 2, Figure 3-Internal structure showing the decomposer of the food waste treatment apparatus according to the present invention.
4 is a reference diagram showing the internal structure of the directional valve according to the present invention.
5-VV line sectional drawing of FIG.
6, 7-reference state of operation of the present invention.

The above and other objects, features, and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings.

Food waste processing apparatus using a microbial inoculation ball according to the present invention, as shown in Figure 1, largely connected to the outlet of the sink (A) crusher 100 for crushing the food waste primarily, and the crusher Injection tube 110 for injecting the food waste crushed by the (100), and the decomposer is connected to the end of the injection tube 110 to crush the first crushed food waste secondary and decomposed by the microorganism ( 200).

The crusher 100 is connected to the outlet of the sink A, as shown in the drawing, is installed, and crush the food waste introduced with water through the outlet to a predetermined size that can be processed in the decomposer 200. do.

Here, the pulverized food waste is delivered to the decomposer 200 through the injection pipe 110, wherein the injection pipe 110 is used to prevent backflow of crushed food waste or harmful gases caused from the food waste. For this reason, it is preferable to configure a U-shaped trap.

The decomposer 200 is configured to secondaryly disintegrate the first crushed food waste by the microbial inoculation ball 230 and to decompose the same.

That is, the decomposer 200 is provided with an inlet 211 through which the crushed food waste is input and an outlet 212 through which the decomposed food waste is discharged, as shown in FIG. A drive motor 213 for rotating the main body 210 formed at an upper portion thereof, the main body 210 including a crushing unit 214 filled with the microbial inoculation ball 230; Is coupled to the rotating shaft 213a of the drive motor 213 is located in the inner center of the body 210, a plurality of through-holes 221 so that the liquid food waste crushed and decomposed by the microorganism seed ball 230 flows in Hollow screen net 220 formed on the outer circumferential surface thereof; It is configured to include; a plurality of microbial inoculation ball 230 is filled in the crushing unit 214, the microorganisms are inoculated to crush and decompose food waste.

The inlet 211 is formed in the downward direction, the end of the inlet formed in the downward direction is connected to the direction switching valve 240 in close contact with the inside of the main body 210.

Furthermore, as shown in FIG. 4, the direction switching valve 240 includes first and second inlets 241 and 242 selectively connected to the inlet 211, and any one of the first and second inlets. A discharge port 242a communicating with the inlet of the is formed in the center, the direction of the first and second inlet is controlled by a fixed shaft (243a) coupled to the directional valve 240 at an angle of 45 °.

That is, the fixed shaft 243a is adjusted at an angle of 45 ° by the motor 243 formed at an upper end thereof, so that the direction switching valve 240 is adjusted as shown in [FIG. 2] or [FIG. 3]. .

Therefore, as shown in FIG. 6, when the first inlet 241 of the direction switching valve 240 is connected to the end of the inlet 211, the food waste crushed by the grinder 100 is crushed ( 214, and when the inlet 211 is connected to the second inlet 242, as shown in Figure 7, the direction switching valve 241 is switched to an angle of 45 °, the second inlet The washing water is directly introduced through the through hole 221 formed on the upper surface of the screen net 220 through the outlet 242a communicated with the 242.

Furthermore, the food waste and water introduced through the first inlet 241 are secondarily crushed by the microbial inoculation ball 230 filled in the crushing unit 214 and by the microorganisms inhabiting the microbial inoculation ball 230. It is decomposed and discharged into the liquid phase through the outlet 212.

In addition, the driving motor 213 is for driving the screen network 220 located at the center of the main body 110, wherein the driving motor 213 is equipped with a timer (not shown) per base according to the amount of food waste input. The drive motor 213 may be configured to control the driving motor 213 to crush the food waste based on the set value.

Furthermore, the drive motor 213 is driven according to the set time of the timer, so that the food waste introduced into the crushing unit 214 is driven more or less than the time that can be crushed, thereby preventing unnecessary power consumption. The food waste may be prevented from being slowly decomposed by the microorganism inoculation ball 230 than when the food waste is not properly crushed in the crushing unit 214.

In addition, the crushing unit 214 is a space inside the main body 210 in which the microbial inoculation ball 230 is filled, and food waste introduced through the inlet 211 is pulverized by the microbial inoculation ball 230 and at the same time microorganisms. It is decomposed by the microorganisms inhabiting the inoculation ball 230.

Here, as shown in the drawing, a cylindrical protrusion jaw 214a is formed at an upper portion of the bottom surface of the grinding part 214, wherein the protrusion jaw 214a is water or water injected into the grinding part 214 together with food waste. In the process of crushing in the crushing unit 130, all the water is prevented from being discharged through the screen net 230.

Furthermore, the projection jaw 214a is a screen net 220 and the screen rotated by the drive motor 213 by maintaining a certain amount of water at the lower end of the crushing unit 214, as shown in FIG. It prevents the noise that may be caused by the microbial inoculation ball 230 is rotated by interfering with the network 220, and to maintain the appropriate humidity for the decomposition of the food waste by microorganisms with the crushing of food waste, In addition, when the solid food waste finely pulverized by the microorganism inoculation ball 230 is not completely decomposed, it is used as a space for subsequent decomposition into a liquid phase.

Of course, since the food waste always provides adequate moisture, it is natural that the stirring of the microorganism inoculation ball 230 is smoothly performed during the rotation of the screen net 220.

Water accumulated in the protruding jaw 214a, that is, the liquid food waste crushed and decomposed by the microbial inoculation ball 230 is overflowed to pass through the through hole 221 of the screen net 220 to the outlet 212. Inflow and outflow.

And the inner side of the crushing unit 214 [as shown in Figure 5, the cross section has a large circular shape, preferably configured to form a planar interference surface 215 in the vertical direction on both sides.

That is, by forming a pair of interference surface 215 inside the crushing unit 214, the rotation of the microbial inoculation ball 230 rotated with the screen net 220 rotates to the interference surface 215 Because it is made irregularly by the microbial inoculation ball 230 will be able to maximize the decomposition by the microorganism with the secondary crushing of food waste.

And the screen net 220 is a configuration that is rotated by being connected directly to the rotary shaft 213a of the drive motor 213, as shown in Figure 2, a plurality of through holes on the outer peripheral surface of the screen net 220 ( 221 is formed.

Here, by the rotation of the screen net 220, the microbial inoculation ball 230 filled in the crushing unit 214 is also rotated together, secondary grinding of food waste by the rotation of the microbial inoculation ball 230. The food waste is completely decomposed and liquefied by the microorganisms inoculated with the microorganism inoculation ball 230 together.

Furthermore, as described above, the through-hole 221 is secondary to crushing food waste by the microbial inoculation ball 230 filled in the crushing unit 214 and at the same time to the microorganisms inhabiting the microbial inoculation ball 230. By completely dissolving the food waste into the liquid phase by the discharge to this, the through hole 221 is preferably formed in a predetermined size.

And the microbial inoculation ball 230 is formed to have a porous surface for the incubation of microorganisms, in which the microbial inoculation ball 230 is excellent for fibrous decomposition and natural digestive enzymes and degradation strains Bacillus, cellulose, knight Lobacter, aerobacter, menthol, ethanol is preferably configured to selectively inoculate one or more.

Referring to the operating state of the food waste treatment apparatus of the present invention having the above configuration is as follows.

As shown in FIG. 4, the food waste firstly crushed to a predetermined size through the grinder 100 is introduced into the grinder 214 of the cracker 200 through the inlet 211, and the grinder ( Food waste introduced into 214 induces the rotation of the microbial inoculation ball 230 filled in the crushing unit 214 by the rotation of the screen net 220, the irregular rotation of the microbial inoculation ball 230, that is, stirring By crushing the food waste more finely by the second and at the same time to decompose the food waste in a completely liquid state by the microorganism, the decomposed liquid food waste is discharged through the outlet 212 formed in the lower portion of the main body 210 .

As described above, the present invention has been described by means of a limited embodiment, but the present invention is not limited thereto, and the technical spirit of the present invention and a patent will be described below by those skilled in the art to which the present invention pertains. Various modifications and variations will be possible within the scope of the claims.

Description of the Related Art [0002]
100: grinder 110: injection tube
200: decomposer 210: main body
211: inlet 211a: barrier film
212: outlet 213: drive motor
213a: rotating shaft 214: grinding part
214a: protrusion 215: interference surface
220: screen network 221: through hole
230: microorganism inoculation ball 240: direction change valve
241: first inlet 242: oil inlet
242a: outlet 243: motor
243a: fixed shaft A: sink

Claims (4)

In the food waste processing apparatus consisting of a crusher connected to the outlet of the sink to crush the food waste primarily, and a decomposer to crush the food waste crushed in the crusher secondly and decomposes by microorganisms,
The decomposer is provided with an inlet through which the crushed food waste is input and an outlet through which the decomposed food waste is discharged, and a driving motor for rotating the screen net is built in the upper part, and a crushing unit filled with a microbial inoculation ball. main body; A hollow screen net coupled to the rotating shaft of the driving motor and positioned at an inner center of the main body, and having a plurality of through holes formed on an upper surface and an outer circumferential surface thereof so that liquid food waste crushed and decomposed by the microbial inoculation ball is introduced; Food waste processing apparatus using a microbial inoculation ball, characterized in that it comprises a; a plurality of microbial inoculation ball is filled in the crushing unit, inoculated with microorganisms in order to crush and decompose food waste.
The method of claim 1,
Further comprising a direction switching valve is connected to the end of the inlet formed in the downward direction and in close contact with the inside of the main body, wherein the first and second inlets are selectively connected to the inlet is formed, the first, The outlet in communication with any one of the inlet is formed in the center of the inlet 2, the direction of the first and second inlet is controlled by a fixed shaft axially coupled to the direction switching valve at an angle of 45 ° microorganism inoculation Food waste disposal device using a ball.
The method of claim 1,
The microbial inoculation ball, Bacillus, cellulose monas, nitrobacter, aerobacter, menthol, ethanol food waste treatment apparatus using a microbial inoculation ball, characterized in that configured to selectively inoculate one or more.
The method of claim 1,
The inside of the crushing unit has a large circular cross-section, the food waste processing apparatus using a microbial inoculation ball, characterized in that the both sides are formed so that the plane of interference plane in the vertical direction.

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