JP4013575B2 - Garbage disposal equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a garbage disposal apparatus that uses microorganisms to ferment and decompose garbage.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a garbage processing apparatus that uses microorganisms to fermentatively decompose garbage is known from Japanese Utility Model Laid-Open No. 6-34784, Japanese Patent Laid-Open No. 8-173983, and the like. This garbage disposal device is filled with wood chips inhabited by microorganisms called biochips as a garbage treatment material in the fermentation decomposition chamber and fermented from the garbage input port provided in the garbage treatment device. Garbage is put into the decomposition chamber and supplied, and the garbage is fermented by the action of microorganisms inhabiting the garbage treatment material while stirring the garbage and the garbage treatment material. ing.
[0003]
The decomposition reaction of garbage by microorganisms is greatly influenced by factors such as temperature, oxygen content, and water content. If any one of the factors is out of the appropriate range, the decomposition reaction is difficult to proceed. For this purpose, a garbage treatment material agitating means, a garbage treatment material heating means, a ventilation means and the like are provided in the garbage treatment apparatus to keep the environment in the fermentation decomposition chamber within a range suitable for the decomposition reaction. .
[0004]
However, in a garbage disposal device mainly used at home, the user does not throw in while strictly grasping the amount and type of the garbage, so he / she throws in garbage exceeding the assumed rated amount. In many cases, a large amount of oil and other substances that take a long time to be processed is used, and the environment in the fermentation decomposition chamber is out of the range suitable for the decomposition reaction. The disassembly may stop. And in this case, the pH of the food waste treatment material is lowered, so that it becomes a so-called septic state, and the input food waste remains in the fermentation decomposition chamber, and the food waste treatment material is removed from the fermentation decomposition chamber. The problem arises that the entire amount must be taken out and replaced with a new garbage disposal material. In order to prevent such rancidity, it is effective to increase the use capacity of the garbage treatment material. However, in this case, the garbage treatment apparatus becomes large and an installation area may be required. There were problems such as high prices.
[0005]
Therefore, a garbage storage room 2 is provided in the garbage processing apparatus, and the garbage 1 is stored in the garbage storage room 2 by putting the garbage 1 into the garbage storage room 2, and then the garbage is supplied. In the fermentation decomposition chamber 4, the apparatus 6 supplies the garbage 1 with a predetermined amount or less per unit time to the fermentation decomposition chamber 4, and prevents the garbage exceeding the assumed rated amount from being supplied to the fermentation decomposition chamber 4. It is done to keep from becoming sour.
[0006]
FIG. 17 shows an example of such a garbage storage chamber 2. A supply port 23 is provided on the side surface of the lower end of the garbage storage chamber 2, and this supply port 23 is connected to the fermentation decomposition chamber 4. Has been. The garbage supply device 6 is formed by a screw 19 provided with a spiral spiral blade 18 on the outer periphery of the screw shaft 17, and is disposed in the lower end portion of the garbage storage chamber 2 with the tip portion inserted into the supply port 23. It is arranged in. The screw 19 is driven by rotating the screw shaft 17 with an electric motor 24 provided outside the garbage storage chamber 2.
[0007]
Then, by rotating the screw shaft 17 and driving the screw 19, the garbage 1 in the garbage storage chamber 2 is conveyed along the screw shaft 17 by the conveying action by the spiral blade 18, and is less than a predetermined amount per hour. The garbage 1 is supplied from the supply port 23 to the fermentation decomposition chamber 4.
[0008]
[Problems to be solved by the invention]
However, since the garbage 1 contains water and is difficult to flow and harden, the garbage 1 gathers on the upper side of the garbage supply device 6 to form a bridge in the garbage storage chamber 2 as shown in FIG. However, there is a problem that the garbage 1 cannot be transported by the garbage supply device 6 and the garbage 1 cannot be supplied to the fermentation decomposition chamber 4. Moreover, when the garbage 1 thrown into the garbage storage chamber 2 is large like a round vegetable, the garbage 1 cannot be passed through the supply port 23, and in this case, the garbage 1 is put into the fermentation decomposition chamber 4. There was a problem that it could not be supplied.
[0009]
This invention is made | formed in view of said point, and it aims at providing the garbage processing apparatus which can prevent that garbage cannot be supplied from a garbage storage chamber to a fermentation decomposition chamber. It is.
[0010]
[Means for Solving the Problems]
A garbage disposal apparatus according to claim 1 of the present invention accommodates a garbage storage chamber 2 for storing garbage 1 and a garbage treatment material 3 inhabiting microorganisms, and is supplied from the garbage storage chamber 2. In a garbage processing apparatus formed by mixing a garbage 1 with a garbage treatment material 3 and a fermentation decomposition chamber 4 for performing a fermentation decomposition process of the garbage 1, the garbage 1 having a predetermined amount or less per unit time. Is disposed in the lower part of the garbage storage chamber 2 and the garbage 1 in the garbage storage chamber 2 is disposed in the vicinity of the upper side of the garbage supply device 6. A plurality of garbage stirring devices 7 to be stirred are arranged in parallel.
[0011]
And claims 1 invention is In the garbage storage chamber 2, the substantially triangular prism-shaped crushing teeth 8 are arranged between the garbage supply device 6 and the plurality of garbage agitation devices 7.
[0012]
And claims 2 The invention of claim 1 In this embodiment, the garbage agitator 7 is formed of a rotating shaft 9 and a plurality of agitating blades 10 provided so as to protrude from the rotating shaft 9, and the agitating blades of the garbage agitator 7 arranged in parallel with the rotating shaft 9 arranged in parallel. Adjacent garbage agitation devices 7 are arranged so that 10 rotation ranges intersect each other.
[0013]
And claims 3 The invention of claim 2 , The distance between the stirring blades 10 adjacent to each other in the axial direction of the rotating shaft 9 of the garbage agitating device 7 is determined based on the outer diameter size of the garbage 1 that needs to be crushed among the garbage 1 put into the garbage storage chamber 2. Is also characterized by being set to a small size.
[0014]
And claims 4 The invention of claim 2 or 3 2, a cleaning plate 11 is provided in a spiral connection between the tips of the stirring blades 10 that are provided in a plurality of protrusions on the rotating shaft 9 of the garbage agitating device 7, and the cleaning plate 11 is disposed in the garbage storage chamber 2. The garbage stirrer 7 is arranged so as to be close to the surface.
[0015]
And claims 5 The invention of claim 2 or 3 , A cleaning plate 12 is provided at each end of the stirring blade 10 projecting from the rotating shaft 9 of the garbage agitator 7 so that the cleaning plate 12 is close to the surface of the garbage storage chamber 2. A garbage stirring device 7 is arranged.
[0016]
And claims 6 The invention of claim 1 to claim 1 5 1, an inclined surface 13 that inclines downward toward the outside is formed in the upper part of the garbage storage chamber 2, and a garbage input port 5 is provided on the inclined surface 13. The rotation direction of the garbage agitator 7 disposed near the garbage inlet 5 is moved to the lower part of the garbage storage room 2 from the garbage inlet 5 into the garbage storage room 2. It is characterized in that it is set in the direction to be made.
[0017]
And claims 7 The invention of claim 1 to claim 1 6 In any of the above, the rotation direction of the plurality of garbage agitating devices 7 is set to a direction in which the garbage 1 in the garbage storage chamber 2 is moved to the garbage supply device 6 side. It is.
[0018]
And claims 8 The invention of claim 1 to claim 1 7 In any of the above, a lid 14 having a sealed structure is provided in the garbage input port 5.
[0019]
And claims 9 The invention of claim 1 to claim 1 8 In any of the above, an exhaust means 15 for providing a negative pressure in the garbage storage chamber 2 is provided.
[0020]
And claims 10 The invention of claim 9 1 is characterized in that an exhaust means 15 is connected to the garbage storage chamber 2 and an intake port 16 is provided in the garbage storage chamber 2.
[0021]
And claims 11 The invention of claim 1 to claim 1 10 In any of the above, the garbage supply device 6 is formed by a screw 19 provided with a spiral blade 18 on the outer periphery of the screw shaft 17, and the dimension of one pitch of the spiral blade 18 is smaller than the diameter of the spiral blade 18. It is characterized by this.
[0022]
And claims 12 The invention of claim 1 to claim 1 11 In any of the above, the surface in the garbage storage chamber 2 is polished or coated to form a smooth surface.
[0023]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below.
[0024]
FIG. 13 shows a schematic configuration of an example of a garbage processing apparatus according to the present invention, in which a garbage storage chamber 2 that stores garbage 1 and a fermentation material that accommodates a garbage processing material 3 inhabiting microorganisms. A decomposition chamber 4 is provided to form a garbage disposal device. The lower end portion of the garbage storage chamber 2 and the lower end portion of the fermentation decomposition chamber 4 are communicated with each other through a supply port 23. A garbage input port 5 is provided in the upper portion of the garbage storage chamber 2, and a garbage supply device 6 is disposed in the lower end portion of the garbage storage chamber 2. A garbage stirring device 7 is provided in the garbage storage chamber 2 above the garbage supply device 6. The garbage supply device 6 is driven by an electric motor 26, and the garbage agitation device 7 is driven by an electric motor 27.
[0025]
A stirring device 28 is provided in the fermentation decomposition chamber 4. This stirring device 28 is formed by projecting a plurality of stirring blades 30 in the vertical direction on the outer periphery of a rotating shaft 29 arranged in the horizontal direction, and by rotating the rotating shaft 29 with an electric motor 31, The stirrer 28 is driven. The operation of the electric motor 31 of the agitation device 28, the electric motor 26 of the garbage supply device 6 and the electric motor 27 of the garbage agitation device 7 are controlled by a control panel 32, respectively.
[0026]
When the garbage 1 is supplied from the garbage storage chamber 2 to the fermentation decomposition chamber 4 through the supply port 23 by the garbage supply device 6, the garbage 1 is mixed with the garbage treatment material 3 by the agitator 28. Garbage 1 is fermented and decomposed by microorganisms inhabiting the garbage treatment material 3. Here, generally the reaction which garbage 1 decomposes | disassembles is represented by the following reaction formula.
・ Carbohydrate decomposition
C _m (H ₂ O) _n + MO ₂ → mCO ₂ + NH ₂ O (Formula 1)
・ Degradation of protein and lipid
C _x H _y N _z O _p + AO ₂ → C _u H _v N _w O _q + BCO ₂ + DH ₂ O + eNH _Three ... (Formula 2)
As can be seen from Equations 1 and 2, oxygen is required to decompose the garbage 1, and carbon dioxide, ammonia, water, and the like are generated as the garbage 1 is decomposed.
[0027]
On the other hand, if oxygen necessary for the decomposition reaction is not sufficiently supplied to the microorganism, an organic acid is generated by the following reaction, and the pH of the garbage treatment material 3 is lowered.
[0028]
C ₆ H ₁₂ O ₆ → 3CH _Three COOH (Formula 3)
This is because the reaction of Formula 1 by an aerobic bacterium that normally acts on the garbage 1 tends to the reaction of Formula 3 by an anaerobic bacterium. And even if some organic acid is produced in the decomposition process of normal garbage 1, it is oxidized to carbon dioxide as shown in Formula 1 or is neutralized with an alkali component contained in the garbage treatment material 3, It does not lead to a significant decrease in pH. However, a larger amount of garbage 1 is thrown into the fermentation decomposition chamber 4 or a large amount of garbage 1 is thrown when the decomposition reaction in the fermentation decomposition chamber 4 is active and a large amount of carbon dioxide is generated. Then, the organic acid generation reaction like Formula 3 becomes dominant, and the pH of the garbage treatment material 3 is lowered to 7 to 6 or less.
[0029]
Here, FIG. 14 is a graph showing the relationship between the pH of the food waste treatment material 3 and the decomposition rate of the food waste 1, and when the pH of the food waste treatment material 3 is reduced to 7 to 6 or less, the food waste 1 is decomposed. It indicates that the reaction stops (this is generally referred to as rancidity). FIG. 15 is a graph showing the relationship between the elapsed time since the garbage was put into the fermentation decomposition chamber 4, the temperature of the garbage treatment material 3, and the carbon dioxide gas concentration in the fermentation decomposition chamber 4. It shows that the carbon dioxide concentration increases immediately after the addition and reaches a peak in about 5 hours. An increase in the concentration of carbon dioxide means that oxygen is consumed, which means that there is a shortage of oxygen. FIG. 16 shows the relationship between the elapsed time since the garbage 1 was put into the fermentation decomposition chamber 4 and the pH of the garbage treatment material 3 in the fermentation decomposition chamber 4. The broken line in FIG. As can be seen, the pH tends to decrease most around 5 hours after the introduction of garbage 1, and the production of organic acids of formula 3 by anaerobic bacteria is increasing due to the lack of oxygen accompanying the generation of carbon dioxide. Show.
[0030]
In FIG. 16, the broken line indicates the relationship between the elapsed time from the charging and the pH of the garbage treatment material 3 when the garbage 1 generated in one day is collectively charged into the fermentation decomposition chamber 4. The solid line shows the relationship between the elapsed time from the input and the pH of the garbage treatment material 3 when the garbage 1 generated in a day is divided into the fermentation decomposition chamber 4 divided into six times a day. In some cases, it can be seen that the decrease in pH tends to be small. That is, when the amount of input of garbage 1 per unit time is large as in the case where the garbage 1 is input into the fermentation decomposition chamber 4 in a lump, there is a risk that the pH will drop greatly and acidity will occur. If the input amount of the garbage 1 per unit time is small as in the case where the waste 1 is divided and input to the fermentation decomposition chamber 4, the pH will be lowered and the occurrence of rancidity can be prevented. In addition to intermittently dividing the garbage 1 into the fermentation decomposing chamber 4 in a plurality of times as described above, the same effect can be obtained by continuously supplying a fixed amount. Can do. For example, when the treatment amount of garbage 1 is 30 kg / day, by setting the input amount of garbage 1 so that it does not exceed 1.25 kg / hour and further does not exceed 21 g / min, It is possible to prevent the occurrence of rancidity by suppressing the decrease in the temperature.
[0031]
Therefore, in the present invention, the garbage 1 generated in the kitchen or kitchen is put into the garbage storage room 2, the garbage 1 is stored in the garbage storage room 2, and then the garbage storage room 6 with the garbage supply device 6. By supplying a constant amount from 2 to the fermentation decomposition chamber 4 intermittently, a predetermined amount or less of garbage 1 per unit time is supplied to the fermentation decomposition chamber 4 to reliably prevent the occurrence of acid spoilage. It is what I did.
[0032]
FIG. 1 shows an example of an embodiment of the garbage storage chamber 2, and FIG. 13 described above shows a garbage processing apparatus having a structure in which the garbage storage chamber 2 and the fermentation decomposition chamber 4 are integrated. In the embodiment of FIG. 1, the garbage storage chamber 2 is provided in a garbage storage 33 independent of the fermentation decomposition chamber 4.
[0033]
The garbage storage chamber 2 has a pair of opposite side walls formed as wall surfaces 2a and 2a perpendicular to the horizontal plane as shown in FIG. 1 (b), while the width direction as shown in FIG. 1 (a). By forming the other pair of side walls opposite to each other as inclined wall surfaces 2b and 2b that are inclined obliquely upward toward the outside, the upper surface is formed into a hopper shape with a wide lower portion and a lower lower portion. Is provided with a garbage input 5. Further, a supply tube 34 is provided at the lower end of one vertical wall surface 2a of the garbage storage chamber 2 to form a supply port 23, and the tip of the supply tube 34 is connected to the fermentation decomposition chamber 4 to supply The fermentation decomposition chamber 4 and the garbage storage chamber 2 are communicated with each other through the mouth 23.
[0034]
A supply groove 35 having a semicircular cross section is recessed in parallel with the inclined wall surface 2b at the center in the width direction of the bottom surface of the garbage storage chamber 2, and the supply groove 35 communicates with the supply cylinder 34. As shown in FIG. 2, the garbage supply device 6 is formed as a spiral screw 19 provided with a spiral spiral blade 18 along the axial direction on the outer periphery of the screw shaft 17. The lower half is housed horizontally in the garbage storage chamber 2 (illustration of the garbage supply device 6 is omitted in FIG. 1B).
[0035]
In the garbage storage chamber 2, a garbage agitator 7 is provided above the garbage supply device 6. The garbage agitating device 7 is formed by projecting a plurality of stirring blades 10 on the outer periphery of the rotating shaft 9, and the rotating shaft 9 is arranged in parallel with the screw shaft 17 of the garbage supplying device 6. . The stirring blade 10 is formed as a linear rod-like body and protrudes perpendicularly to the rotation shaft 9. The agitating blades 10 are provided at a plurality of locations at equal intervals along the axial direction of the rotating shaft 9, and the agitating blades 10 are provided so as to be distributed at equal angles when viewed from the axial direction. In the embodiment of FIG. 1, the stirring blades 10 are distributed at an angle of 120 °.
[0036]
Garbage agitator formed in this way 7 Are provided in the garbage storage chamber 2, and in the embodiment shown in FIG. 1, two garbage agitating devices 7 are provided. Each garbage stirring device 7 has a rotating shaft 9 arranged in parallel at the same height position, and the garbage supplying device 6 is positioned below the center between the rotating shafts 9 of both the garbage stirring devices 7. Each garbage stirring device 7 is arranged. The garbage agitating device 7 is driven by rotating the rotary shaft 9 with an electric motor 27 provided outside the garbage storage chamber 2, and the garbage supply device 6 described above generates a screw shaft 17 as a raw material. It is driven by being rotated by an electric motor 26 provided outside the garbage storage chamber 2. The garbage supply device 6 and the garbage agitation device 7 are individually driven by separate electric motors 26 and 27 as shown in FIG. 2, and the garbage supply device 6 as one electric motor 32 as shown in FIG. Alternatively, the garbage stirring device 7 may be driven.
[0037]
By disposing one garbage supply device 6 and two garbage agitation devices 7 and 7 in the garbage storage chamber 2 as described above, between the garbage supply device 6 and the garbage agitation devices 7 and 7. A space portion having a triangular cross section is formed, and crushing teeth 8 formed in a triangular prism shape having a triangular cross section suitable for the space portion are arranged in the space portion. The crushing teeth 8 are arranged in parallel with the garbage supply device 6 and the garbage stirring device 7 so that the ridge formed at an acute angle faces upward, and both ends in the longitudinal direction are vertical wall surfaces of the garbage storage chamber 2. By being supported by 2a, the garbage storage chamber 2 is fixedly disposed. Further, each surface of the triangular prism-shaped crushing teeth 8 facing the garbage supply device 6 and the garbage stirring device 7 has a rotation trajectory of the tip of the spiral blade 18 of the garbage supply device 6 and a stirring blade of the garbage stirring device 7. It is formed in a concave curved surface having a curvature along the rotation trajectory of the tip of 10, and the crushing teeth 8 are made to be disposed in the garbage supply device 6 and the garbage agitator without interfering with the rotation of the garbage supply device 6 and the garbage agitator 7. It can be arranged close to the device 7.
[0038]
Thus, when the garbage 1 stored in the garbage storage chamber 2 formed as described above is supplied to the fermentation decomposition chamber 4, when the screw 19 of the garbage supply device 6 is driven to rotate, The garbage 1 in the lower part of the garbage storage chamber 2 can be transported toward the tip of the screw 9 by the propulsion force by the rotation, and even if a large amount of garbage 1 is put into the garbage storage chamber 2, it takes time. A predetermined amount or less of garbage 1 can be supplied to the fermentation decomposition chamber 4 through the supply port 23. Further, when the garbage 1 is conveyed by the screw 19 as described above, the garbage 1 can be crushed by a shearing action by the spiral blade 18 and easily decomposed in the fermentation decomposition chamber 4.
[0039]
At this time, the garbage agitator 7 is also driven to rotate at the same time, and the garbage 1 in the garbage storage chamber 2 is agitated by the stirring blades 10 of the garbage agitator 7. Therefore, it is possible to prevent the garbage 1 from collecting and solidifying by this stirring, and preventing the garbage 1 from collecting and forming a bridge above the garbage supply device 6 as shown in FIG. It is possible to move the garbage 1 to the lower part of the garbage storage chamber 2 by the garbage agitator 7 and supply the garbage 1 to the fermentation decomposition chamber 4 by the garbage supply device 6 without any trouble. It can be done. Further, by stirring the garbage 1 in the garbage storage chamber 2 with the garbage agitating device 7, different types of garbage 1 can be mixed, and oil or the like that is difficult to be decomposed is used. It can prevent supplying to the fermentation separation chamber 4 in the gathered state.
[0040]
Further, since the garbage storage chamber 2 is formed in a hopper shape having a wide upper portion and a narrow lower width, the garbage 1 in the garbage storage chamber 2 slides down the inclined wall surface 2b and stores the garbage. It moves to the center part of the lower part of the chamber 2, and it can prevent that a bridge is formed above the garbage supply apparatus 6. FIG. The inclination angle of the inclined wall surface 2b with respect to the horizontal plane is most preferably about 60 °, but can be arbitrarily set between less than 90 ° and 45 ° or more. Thus, by forming the garbage storage chamber 2 into a hopper shape having inclined wall surfaces 2b on both sides, the garbage 1 thrown in from the garbage inlet 5 slides down the inclined wall surface 2b, and the garbage 1 is uncooked. It is possible to prevent the garbage storage chamber 2 from directly falling and colliding with the bottom surface of the garbage storage chamber 2, and to prevent the garbage storage chamber 2 from being damaged. The garbage 1 sliding on the inclined wall surface 2 b slides on the concave curved surface 2 c between the inclined wall surface 2 b and the bottom surface 2 d and reaches the bottom surface 2 d in the vicinity of the garbage supply device 6. Although the bottom surface 2d is formed horizontally, the garbage 1 may be slid to slide toward the garbage supply device 6 side. Even if the bottom surface 2d is horizontal in this manner, there is no problem because the garbage 1 is pushed toward the garbage supply device 6 by the garbage agitating device 7.
[0041]
Here, since the plurality of garbage agitating devices 7 are provided in the garbage storage chamber 2, when the garbage 1 is agitated by each garbage agitating device 7, the garbage 1 is disposed between the garbage agitating devices 7. Under the shearing action, the garbage 1 in the garbage storage chamber 2 can be crushed. Therefore, even when round vegetables such as Chinese cabbage and cabbage are directly put into the garbage storage chamber 2 from the garbage input 5 as the garbage 1, the large garbage 1 is crushed by the shearing action between the garbage agitators 7. Therefore, it is possible to prevent the large garbage 1 from passing through the supply port 23 and not being able to supply the garbage 1 to the fermentation decomposition chamber 4, and the garbage 1 with the garbage supply device 6. Can be stably supplied to the fermentation decomposition chamber 4. In order to obtain a high shearing action for pulverizing the garbage 1 as described above, it is preferable to form the stirring blade 10 of the garbage agitator 7 as a rod-like body, and large cabbage, Chinese cabbage, etc. can be easily crushed. Is.
[0042]
Further, when the garbage 1 is moved to the lower garbage supply device 6 side while being stirred by the garbage agitator 7, the garbage 1 is pressed against the crushing teeth 8, and the garbage agitator. The garbage 1 is crushed by a shearing action between the garbage supply device 6 and the crushed teeth 8, and between the garbage supply device 6 and the crushed teeth 8. The garbage 1 can be crushed more reliably, and the garbage 1 can be supplied more stably by the garbage supply device 6.
[0043]
In the embodiment of FIG. 1, the garbage agitator 7 is formed so that the rotation locus L of the tip of the stirring blade 10 of the adjacent garbage agitator 7 is separated, but as shown in FIG. You may make it form the garbage stirring apparatus 7 so that the rotation locus | trajectory L of the front-end | tip of the stirring blade 10 of the adjacent garbage stirring apparatus 7 may overlap. That is, in each adjacent garbage stirrer 7, by forming the length of each stirring blade 10 longer than half of the distance between the rotating shafts 9, 9, and shorter than the distance between the rotating shafts 9, 9, The rotation trajectories L at the tips of the stirring blades 10 of the adjacent garbage stirring apparatuses 7 are overlapped. In this way, when the rotation ranges of the stirring blades 10 of the adjacent garbage agitating devices 7 are crossed with each other, the large garbage 1 is sandwiched between the stirring blades 10 of the adjacent garbage agitating devices 7, and the large raw garbage The garbage 1 can be crushed strongly by a strong shearing action. At this time, the adjacent garbage agitating devices 7 so that the corresponding agitating blades 10 are always directed in the same direction as shown in FIG. 3B so that the agitating blades 10 of the adjacent garbage agitating devices 7 do not collide with each other. Are preferably rotated in synchronization with each other, or the position of the stirring blade 10 is shifted in the axial direction of the rotating shaft 9 in the adjacent garbage stirring device 7.
[0044]
Further, when the garbage stirring device 7 is formed by protruding the stirring blade 10 on the outer periphery of the rotating shaft 9 as described above, the interval (mounting pitch P) between the stirring blades 10 adjacent to each other in the axial direction of the rotating shaft 9 is set. It is preferable that the size is set to be smaller than the outer diameter size of the smallest garbage 1 having a size that needs to be crushed in the garbage 1 put into the garbage storage chamber 2. As shown in FIG. 4A, when the mounting pitch P of the stirring blades 10 is large, the distance between the tips of the adjacent stirring blades 10 becomes large, and the garbage 1 such as round vegetables that need to be crushed becomes the stirring blades. However, as shown in FIG. 4B, when the mounting pitch P of the stirring blades 10 is small, the distance between the tips of the adjacent stirring blades 10 becomes small, and crushing occurs. The garbage 1 such as necessary round vegetables can be reliably caught by the stirring blade 10 and can be reliably crushed by pressing the garbage 1 against the screw 19 or the crushing teeth 8. If the diameter of the garbage 1 is larger than the difference between the radius of the supply port 23 and the radius of the screw shaft 17 of the screw 19, the supply port 23 cannot be passed through. is there. Therefore, the minimum diameter of the garbage 1 that needs to be crushed is the difference between the radius of the supply port 23 and the radius of the screw shaft 17, and the mounting pitch P of the stirring blade 10 is set to a smaller dimension. It is what is done.
[0045]
Further, when the garbage supply device 6 is formed as the screw 19 provided with the spiral spiral blade 18 along the axial direction on the outer periphery of the screw shaft 17 as described above, as shown in FIG. The pitch P is preferably formed so as to be smaller than the diameter D of the spiral blade 18 (diameter of the screw 19). When the spiral blade 18 is formed so that the pitch P is smaller than the diameter D in this way, the inclination angle θ of the spiral blade 18 is reduced and becomes nearly perpendicular to the screw shaft 17. The load can be reduced by reducing the speed, and the garbage 1 such as powder can be prevented from clogging the garbage supply device 6. In general, the pitch P of the spiral blades 18 is preferably set to be less than 1 times and 0.75 times or more the diameter D of the spiral blades 18, and conveys the garbage 1 having high wearability and poor fluidity such as powder. In that case, it is better to select 0.75 times.
[0046]
FIG. 6 shows another embodiment of the present invention. When the garbage stirring device 7 is formed by projecting a plurality of stirring blades 10 along the axial direction on the outer periphery of the rotating shaft 9, FIG. As shown in (a), a spiral cleaning plate 11 is arranged so as to surround the rotating shaft 9, and the cleaning plate 11 is connected between the tips of the stirring blades 10. The cleaning plate 11 can be formed of a metal material or the like. And the garbage stirring apparatus 7 is arrange | positioned so that this cleaning plate 11 may adjoin to the inner wall face of the garbage storage chamber 2 via a micro gap like FIG.6 (b). Although the cleaning plate 11 may be brought into contact with the inner wall surface of the garbage storage chamber 2, it is preferable that the cleaning plate 11 is brought close to the garbage storage chamber 2 through a minute gap in order to prevent wear of the garbage storage chamber 2.
[0047]
When the garbage stirring device 7 provided with the cleaning plate 11 is rotationally driven as described above, the cleaning plate 11 comes into sliding contact with the inner wall surface of the garbage storage chamber 2 along with the rotation driving, and the garbage storage chamber 2 It is possible to scrape and remove the garbage 1 adhered to the surface of the kitchen, and to prevent the garbage 1 from adhering to the surface of the garbage storage chamber 2, and to the surface of the garbage storage chamber 2. It is possible to prevent the fixed garbage 1 from rotting and producing a odor.
[0048]
In the embodiment of FIG. 7, a flat cleaning plate 12 is attached to each tip of a plurality of stirring blades 10 protruding from the rotating shaft 9 of the garbage stirring device 7. Even in this case, when the garbage agitator 7 is rotationally driven, the cleaning plate 11 comes into sliding contact with the inner wall surface of the garbage storage chamber 2 and the garbage 1 adhered to the surface of the garbage storage chamber 2 is removed. It can be removed by rubbing and can prevent the garbage 1 from adhering to the surface of the garbage storage chamber 2. And in this thing, since the cleaning plate 12 is independent by each stirring blade 10, maintenance, such as cleaning of the cleaning plate 12, becomes easier than the thing of FIG.
[0049]
Further, by polishing or coating the inner surface of the garbage storage chamber 2 to form a smooth surface, it is possible to further prevent the garbage 1 from adhering to and sticking to the surface of the garbage storage chamber 2. It is possible to obtain a high effect of preventing the garbage 1 attached to the surface of the garbage storage chamber 2 from producing a odor. Here, the polishing of the surface of the garbage storage chamber 2 can be performed by, for example, electrolytic polishing, and the coating can be performed by a resin coating that forms a resin film such as Teflon (R) resin (tetrafluoroethylene resin). it can.
[0050]
FIG. 8 shows another embodiment of the present invention, in which an inclined surface 13 is formed which is inclined downward and obliquely downward from the side end portion of the upper surface of the garbage storage chamber 2 to the upper portion of the inclined wall surface 2b. The inclined surface 13 is provided with a garbage input port 5. Further, among the plurality of garbage agitating devices 7, the garbage agitating device 7 disposed on the side closer to the garbage input port 5 is rotated in the direction of rotation by the stirring blade 10 from the garbage input port 5 to the inclined wall surface below it. 2b is set so as to rotate downward, so that the garbage 1 thrown into the garbage storage chamber 2 from the garbage input port 5 is rotated with the rotation of the garbage agitator 7. The stirring blade 10 is pushed (drawn) into the lower part of the garbage storage chamber 2 to be moved as indicated by an arrow. The direction of rotation of the garbage agitation device 7 disposed at a position far from the garbage input port 5 may be either direction, but is set in the same direction as the rotation direction of the above-described garbage agitation device 7 close to the garbage input port 5. It is preferable to do this.
[0051]
In the thing of this FIG. 8, the storage capacity | capacitance of the garbage 1 is provided rather than the case where the garbage input port 5 is provided in the upper surface of the garbage storage chamber 2 by providing the garbage input port 5 in the inclined surface 13, and making it incline. Therefore, it is possible to reduce the height of the garbage input port 5 without reducing the waste, and it is possible to improve the workability of inputting the garbage 1 from the garbage input port 5 into the garbage storage chamber 2. Is. Even if the height of the garbage input port 5 is lowered in this manner, the garbage 1 near the garbage input port 5 is moved to the garbage storage chamber 2 by the stirring blade 10 as the garbage agitator 7 is driven to rotate. Since it is pushed into the lower part, it is possible to always keep a space for newly throwing the garbage 1 in the vicinity of the garbage throwing port 5, and improving the workability of throwing the garbage 1 into the garbage throwing port 5. It can be improved.
[0052]
FIG. 9 shows another embodiment of the present invention, in which a stirring blade 10 projecting from the garbage agitator 7 in the rotational direction of a pair of adjacent garbage agitators 7 and 7 is provided. They are set in opposite directions so as to rotate downward toward the other garbage agitator 7 side. When the garbage agitators 7 and 7 are rotationally driven in this rotational direction, the garbage 1 in the garbage storage chamber 2 is pushed downward as indicated by the arrow by the stirring blades 10 of the garbage agitators 7 and 7. Then, the garbage 1 moves so as to fall toward the garbage supply device 6 positioned below the garbage agitator 7, 7. Since the garbage 1 can be pushed into the screw 19 of the garbage supply device 6 in this way, the crushing of the garbage 1 by the screw 19 can be promoted, and the conveyance of the garbage 1 by the screw 19 can be promoted. It is something that can be done.
[0053]
In each of the above embodiments, the garbage input port 5 is provided with a lid 14 having a sealed structure so as to be detachable, and the inside of the garbage storage chamber 2 is sealed. In this way, by installing the lid 14 on the garbage input port 5 and sealing the inside of the garbage storage chamber 2, the odor in the garbage storage chamber 2 leaks from the garbage input port 5, and a garbage disposal device is installed. It is possible to prevent deterioration of the environment of the place.
[0054]
FIG. 10 shows an example of the structure of the lid 14 having a hermetically sealed structure. The lid 14 is formed by integrally bonding an inner lid 37 to the inner surface of the lid main body 36, and the outer peripheral edge of the lid main body 36 is entirely attached. A flange piece 38 is bent to the inner surface side over the circumference. Further, a rail-like fitting channel 39 is attached to the inner surface of the inner lid 37, and this fitting channel 39 is formed in a frame shape along the opening shape of the garbage input port 5. On the other hand, an opening flange piece 40 projects outward from the opening edge of the garbage input port 5 over the entire circumference, and is formed of silicon rubber or the like at the tip of the opening flange piece 40 over the entire length. A packing 41 is provided. Further, a door stop rubber 42 is provided on the outer surface of the garbage storage chamber 2 so as to surround the garbage input port 5.
[0055]
In this case, when the lid 14 is covered with the garbage input port 5 and closed, the fitting channel 39 is fitted and closely attached to the packing 41, and the flange piece 38 is closely attached to the door rubber 42 and the packing 41 and The door-to-door rubber 42 can be double-sealed, and the odor in the garbage storage chamber 2 can be reliably prevented from leaking from the garbage input port 5.
[0056]
A cylinder-type gas damper 43 is provided between the outer surface of the garbage storage chamber 2 and the inner surface of the lid 14 so as to alleviate a sudden impact when the lid 14 is opened and closed. Further, a lid detection sensor 44 formed of a reflective photoelectric sensor or a metal detection sensor is attached to the outer surface of the garbage storage chamber 2 in the vicinity of the garbage input port 5, and the lid 14 is attached to the garbage input port 5. Whether or not it is covered is automatically detected by the lid detection sensor 44. The garbage supply device 6 and the garbage agitation device 7 are controlled so as not to operate unless the lid detection sensor 44 detects that the lid 14 is covered with the garbage inlet 5. The processing device can be operated safely.
[0057]
FIG. 11 shows another embodiment of the present invention. An exhaust port 46 is provided on the side surface of the garbage storage chamber 2, an exhaust pipe 47 is connected to the exhaust port 46, and exhaust such as a blower is connected to the exhaust pipe 47. Means 15 are provided. The tip of the exhaust pipe 47 is connected to a deodorizing device (not shown). In this case, when the exhaust means 15 is operated and the air in the garbage storage chamber 2 is exhausted from the exhaust port 46 through the exhaust pipe 47, the inside of the garbage storage chamber 2 formed in a sealed structure becomes negative pressure. Become. Thus, by making the inside of the garbage storage chamber 2 into a negative pressure, it is possible to prevent air containing bad odor in the garbage storage chamber 2 from leaking through the gaps such as the garbage input port 5, and the garbage processing apparatus. It is possible to prevent deterioration of the environment of the place where is installed. Since the air in the garbage storage chamber 2 exhausted from the exhaust port 46 through the exhaust pipe 47 is deodorized through the deodorizer, the bad odor does not become a problem.
[0058]
In the embodiment of FIG. 12, in addition to that of FIG. 11, an intake port 16 is provided on the side surface of the garbage storage chamber 2. The intake port 16 is preferably provided diagonally opposite the exhaust port 46, and an insect filter is preferably provided at the intake port 16 to prevent insects such as flies from entering. As described above, when the exhaust means 15 is operated to make the inside of the garbage storage chamber 2 have a negative pressure, if the negative pressure becomes excessively large, it becomes difficult to open the lid 14 from the garbage input port 5, Although the load of the means 15 is increased and the life is shortened or the running cost is increased, the negative pressure in the garbage storage chamber 2 is increased by providing the intake 16 in the garbage storage chamber 2 in this way. It can be prevented from becoming too much, and it is easy to open the lid 14 from the garbage input port 5, and the load on the exhaust means 15 can be reduced to enable longer life and lower running cost. It can be done. Therefore, it is necessary to set the size of the intake port 16 to such an extent that the negative pressure in the garbage storage chamber 2 can be maintained.
[0059]
【The invention's effect】
As described above, the garbage processing apparatus according to claim 1 of the present invention contains a garbage storage room for storing garbage and a garbage processing material inhabiting microorganisms, and is supplied from the garbage storage room. In a garbage processing apparatus formed with a fermentation decomposition chamber that stirs food waste with a food processing material and performs fermentation decomposition processing of the food waste, a predetermined amount or less of food waste per unit time to the fermentation decomposition chamber The garbage supply device to be conveyed is disposed in the lower part of the garbage storage chamber, and a plurality of garbage agitating devices for agitating the garbage in the garbage storage chamber are arranged in parallel near the upper side of the garbage supply device. Therefore, it is possible to prevent a large amount of garbage from being supplied to the fermentation decomposition chamber at a time, to prevent acidification and to decompose the garbage under suitable conditions, and to the garbage storage chamber. By stirring the raw garbage with the garbage agitator Te, the garbage storage compartment can prevent bridging of food waste is formed, in which garbage from the garbage storage compartment can be prevented that can not be supplied to the fermentation decomposition chamber. In addition, by arranging a plurality of garbage agitators in the vicinity of the upper side of the garbage supply device, the garbage can be crushed by applying a shearing action to the garbage between the garbage agitators. Large garbage such as vegetables can be crushed even if it is put into the garbage storage room, and it can be prevented that it becomes impossible to supply garbage to the fermentation decomposition room. The supply device can stably supply garbage to the fermentation decomposition chamber.
[0060]
Ma The In the garbage storage chamber, between the garbage supply device and the plurality of garbage agitating devices, the crushing teeth having a substantially triangular prism shape are arranged and provided, so between the garbage agitating device and the crushing teeth, The garbage can be crushed by giving a shearing action between the garbage supply device and the crushed teeth, and large garbage can be crushed more reliably by the crushed teeth.
[0061]
And claims 2 The invention of claim 1 In the present invention, the garbage agitator is formed of a rotating shaft and a plurality of agitating blades protruding from the rotating shaft, and the rotation ranges of the agitating blades of the garbage agitator arranged in parallel with the rotating shafts arranged in parallel are mutually Adjacent garbage agitation devices are arranged so as to intersect, so large garbage between the stirring blades of the garbage agitation devices installed side by side Across It can be crushed strongly by a strong shearing action.
[0062]
And claims 3 The invention of claim 2 , The interval between the stirring blades adjacent in the axial direction of the rotating shaft of the garbage agitator is set to a size smaller than the outer diameter dimension of the garbage that needs to be crushed among the garbage thrown into the garbage storage chamber. Therefore, the distance between the tips of adjacent stirring blades is reduced, and garbage such as round vegetables that need to be crushed can be reliably caught and crushed by the stirring blades.
[0063]
And claims 4 The invention of claim 2 or 3 , A cleaning plate is spirally connected between the tips of the agitating blades projecting from the rotating shaft of the garbage agitator, and the cleaning plate is placed close to the surface of the garbage storage chamber. Since the garbage agitation device is arranged, when the garbage agitation device is driven to rotate, the cleaning plate comes into sliding contact with the inner wall of the garbage storage chamber and scrapes away the garbage stuck to the surface of the garbage storage chamber. It is possible to prevent the garbage from sticking to the surface of the garbage storage room, and to prevent the garbage stuck to the surface of the garbage storage room from producing a odor. is there.
[0064]
And claims 5 The invention of claim 2 or 3 , A cleaning plate is provided at each tip of the stirring blades projecting from the rotating shaft of the garbage agitator, and the garbage agitator is arranged so that the cleaning plate is close to the surface of the garbage storage chamber. When the garbage agitator is driven to rotate, the cleaning plate comes into sliding contact with the inner wall surface of the garbage storage room, and the garbage stuck to the surface of the garbage storage room can be scraped off and removed. The garbage can be prevented from adhering to the surface of the storage room, and the garbage adhering to the surface of the garbage storage room can be prevented from producing a odor. Moreover, the cleaning plate is independent for each stirring blade, and maintenance such as cleaning of the cleaning plate is facilitated.
[0065]
And claims 6 The invention of claim 1 to claim 1 5 In either of the above, a sloping surface inclined downward toward the outside is formed in the upper part of the garbage storage chamber, and a garbage charging port is provided on the inclined surface, and the garbage mixing device is close to the garbage charging port among the plurality of garbage mixing devices. The rotation direction of the garbage agitator placed at the position is set to the direction in which the garbage input from the garbage input into the garbage storage chamber is moved to the lower part of the garbage storage chamber. It is possible to improve the workability of throwing garbage into the garbage storage room by reducing the height, and the garbage in the vicinity of the garbage throwing port is produced as the garbage agitator rotates. It is possible to move to the lower part of the garbage storage room and always keep a space for new garbage input near the garbage input port. In this respect as well, it is possible to improve the workability of garbage input. It can be done.
[0066]
And claims 7 The invention of claim 1 to claim 1 6 In any of the above, the rotation direction of the plurality of garbage agitating devices is set to the direction in which the garbage in the garbage storage chamber is moved to the garbage supplying device, so that the garbage is supplied by the garbage agitating device. The apparatus can be pushed into the apparatus, can crush the garbage by the garbage supply apparatus, and can promote the conveyance of the garbage by the garbage supply apparatus.
[0067]
And claims 8 The invention of claim 1 to claim 1 7 In either case, a closed lid is provided at the garbage input, so that odors in the garbage storage chamber can be prevented from leaking from the garbage input, and the environment where the garbage treatment device is installed can be prevented. It can prevent deterioration.
[0068]
And claims 9 The invention of claim 1 to claim 1 8 In any one of the above, since the exhaust means for making the garbage storage chamber a negative pressure is provided, it is possible to prevent the air containing the bad odor in the garbage storage chamber from leaking by making the garbage storage chamber a negative pressure, It is possible to prevent the environment of the place where the garbage disposal apparatus is installed from being deteriorated.
[0069]
And claims 10 The invention of claim 9 In addition, since the exhaust means is connected to the garbage storage chamber and the intake port is provided in the garbage storage chamber, it is possible to prevent the negative pressure in the garbage storage chamber from being excessively increased by the introduction of external air from the intake port. In addition, the lid can be easily opened from the garbage input port, and the load on the exhaust means can be reduced to extend the service life and reduce the running cost.
[0070]
And claims 11 The invention of claim 1 to claim 1 10 In any of the above, the garbage supply device is formed by a screw provided with spiral blades on the outer periphery of the screw shaft, and the pitch pitch of the spiral blades is formed smaller than the diameter of the spiral blades. It is possible to reduce the load, reduce the load by reducing the speed of conveying the garbage, and prevent the garbage from being clogged in the garbage supply device.
[0071]
And claims 12 The invention of claim 1 to claim 1 11 In any of the above, since the surface of the garbage storage chamber is polished or coated to form a smooth surface, the garbage can be prevented from adhering to the surface of the garbage storage chamber. It is possible to prevent food waste from adhering to and producing a odor.
[Brief description of the drawings]
FIG. 1 shows an example of an embodiment of the present invention, in which (a) is a front sectional view and (b) is a side sectional view.
FIG. 2 is a side sectional view of the above.
3A and 3B show an example of another embodiment of the present invention, in which FIG. 3A is a front sectional view, and FIG. 3B is a plan view of a garbage agitator.
FIGS. 4A and 4B show an example of another embodiment of the present invention, and FIGS. 4A and 4B are plan views of a garbage agitation apparatus, respectively.
FIG. 5 is a front view of a screw showing an example of another embodiment of the present invention.
6A and 6B show an example of another embodiment of the present invention, in which FIG. 6A is a perspective view of a garbage agitation apparatus, and FIG. 6B is a partial cross-sectional view.
7A and 7B show an example of another embodiment of the present invention, in which FIG. 7A is a front view of a garbage agitation apparatus, and FIG. 7B is a partial cross-sectional view.
8A and 8B show an example of another embodiment of the present invention, in which FIG. 8A is a front sectional view and FIG. 8B is a side sectional view.
FIG. 9 is a front sectional view showing an example of another embodiment of the present invention.
FIG. 10 is a cross-sectional view of a lid portion showing an example of another embodiment of the present invention.
FIG. 11 is a front sectional view showing an example of another embodiment of the present invention.
FIG. 12 is a partially cutaway perspective view showing an example of another embodiment of the present invention.
FIG. 13 is a schematic cross-sectional view showing a configuration of a garbage disposal apparatus in an example of an embodiment of the present invention.
FIG. 14 is a graph showing a relationship between pH and decomposition rate when garbage is decomposed with a garbage treatment material.
FIG. 15 is a graph showing the relationship between the elapsed time from the input of garbage and the carbon dioxide concentration when the garbage is decomposed with the garbage treatment material.
FIG. 16 is a graph showing the relationship between the elapsed time from the input of garbage and the pH of the garbage treatment material when the garbage is decomposed with the garbage treatment material.
FIGS. 17A and 17B show a conventional garbage storage chamber, in which FIG. 17A is a front sectional view and FIG. 17B is a side sectional view.
18A and 18B show a state of garbage in a conventional garbage storage chamber, in which FIG. 18A is a front sectional view, and FIG. 18B is a side sectional view.
[Explanation of symbols]
1 Garbage
2 Garbage storage room
3 Garbage disposal materials
4 Fermentation decomposition chamber
5 Garbage input
6 Garbage supply equipment
7 Garbage agitator
8 Broken teeth
9 Rotating shaft
10 Stirring blade
11 Cleaning plate
12 Cleaning plate
13 Inclined surface
14 Lid
15 Exhaust means
16 Inlet
17 Screw shaft
18 Spiral feather
19 Screw

Claims (12)

The garbage storage room that stores garbage and the garbage processing material inhabited by microorganisms are housed, and the garbage supplied from the garbage storage room is agitated with the garbage processing material to ferment and decompose the garbage. In a garbage processing apparatus formed with a fermentation decomposition chamber to be performed, a garbage supply device that conveys a predetermined amount or less of garbage per unit time to the fermentation decomposition chamber is disposed in the lower part of the garbage storage chamber. In addition, a plurality of garbage agitators for agitating the garbage in the garbage storage chamber are provided in the vicinity of the upper side of the garbage supply apparatus, and the garbage agitator is disposed between the garbage feeder and the plurality of garbage agitators. A garbage disposal apparatus, comprising substantially triangular prism-shaped crushing teeth arranged in a garbage storage chamber . The garbage agitator is formed of a rotating shaft and a plurality of agitating blades protruding from the rotating shaft, and the rotation ranges of the agitating blades of the garbage agitator arranged in parallel with the rotating shafts arranged in parallel intersect each other. Thus, the garbage processing apparatus of Claim 1 which arrange | positions the adjacent garbage stirring apparatus. The interval between the stirring blades adjacent to the axial direction of the rotating shaft of the garbage agitator is set to a size smaller than the outer diameter of the garbage that needs to be crushed among the garbage thrown into the garbage storage chamber. The garbage processing apparatus of Claim 2 characterized by the above-mentioned. A cleaning plate is provided in a spiral connection between the tips of the agitating blades projecting from the rotating shaft of the garbage agitator. The garbage agitator is placed so that the cleaning plate is close to the surface of the garbage storage chamber. The garbage processing apparatus according to claim 2 or 3 , wherein the apparatus is arranged . The cleaning plate to each tip of the stirring blade to be more protruded to the rotation axis of the food waste stirrer provided, the cleaning plate is formed by placing the food waste stirrer so as to approach the garbage storage compartment surface The garbage processing apparatus of Claim 3 or 4 characterized by these. An inclined surface that slopes downward toward the outside is formed in the upper part of the garbage storage chamber, and a garbage input port is provided on the inclined surface, and is disposed at a position close to the garbage input port among the plurality of garbage agitation devices. claims 1 to 5, characterized in that the direction of rotation of the food waste stirrer, and set the garbage thrown from garbage inlet to the raw waste storage compartment in a direction to move the bottom of the garbage storage room The garbage processing apparatus in any one of. The rotation direction of the plurality of garbage agitating devices is set to a direction in which the garbage in the garbage storage chamber is moved to the garbage supply device side, according to any one of claims 1 to 6. Garbage disposal equipment. The garbage processing apparatus according to any one of claims 1 to 7, wherein a lid having a sealed structure is provided at the garbage input port . The garbage processing apparatus according to any one of claims 1 to 8, further comprising exhaust means for setting a negative pressure in the garbage storage chamber . 10. The garbage processing apparatus according to claim 9 , wherein an exhaust means is connected to the garbage storage chamber and an intake port is provided in the garbage storage chamber . 11. The garbage supply device is formed by a screw having spiral blades provided on an outer periphery of a screw shaft, and the size of one pitch of the spiral blades is formed smaller than the diameter of the spiral blades . The garbage processing apparatus in any one . The garbage processing apparatus according to any one of claims 1 to 11, wherein a surface of the garbage storage chamber is polished or coated to form a smooth surface .

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