JP2004123486A - Composting treatment apparatus for biosystem waste - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prevent malodorous gas in a treating vessel of a composting treatment apparatus for biosystem wastes from being emitted as it is to the atmosphere when a feeding port is opened in feeding objects to be treated. <P>SOLUTION: The composting treatment apparatus is provided with the treating vessel 1 which is provided with at its upper face the feeding port 16 for the biosystem wastes K openably and closably by a cover 17, agitating blades 4 which are rotationally disposed within the treating vessel 1, and a gas sucking and recovering device B for sucking and recovering the gas generated in the treating vessel 1 during composting treatment. The device B is provided with a suction pipe P<SB>1</SB>which is arranged inside the feeding port 16 and over the entire periphery of the port so as to face the opening of the feeding port 16 and is formed in a frame shape over the entire part. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an apparatus for composting biological waste with microorganisms. Here, the "biological waste" includes, for example, combustible garbage, kitchen garbage, human waste, and the like, which are classified as general waste. It refers to the residue of the organic material derived from it.
[0002]
[Prior art]
As a biological waste composting treatment device, a treatment tank provided with a biological waste input port on the upper surface, a stirring blade rotatably disposed in the treatment tank, and the above-described treatment during composting treatment 2. Description of the Related Art There is known a device provided with a gas suction / recovery device for suctioning and collecting gas generated in a tank and a deodorizing device for deodorizing the gas sucked and collected by the gas suction / recovery device (for example, , Patent Document 1). Here, `` composting '' means that the biological waste introduced into the treatment tank from the input port is agitated by stirring blades, and a biochemical reaction is advanced by the action of microorganisms, and the biological waste is converted to the biological waste. It refers to decomposing organic substances contained into carbon dioxide and water to produce agricultural products that are effective as fertilizers and land improvement materials.
[0003]
[Patent Document 1]
JP-A-7-39848 [0004]
By the way, in the process of composting, odorous (odorous) gas is generated as a by-product of microorganisms decomposing biological waste. This odorous gas is released into the atmosphere from the biological waste treatment apparatus together with other generated gas such as carbon dioxide and excess air, and has a significant effect on the environment, causing a great deal of discomfort to the local residents. As a typical example of the odorous gas, if biological waste is mainly garbage, ammonia gas generated according to the content of the protein component may be mentioned, but in fact, according to the type of biological waste. It is assumed that various odorous gases are generated. Therefore, a typical biological waste treatment device includes a device for sucking and collecting gas generated inside, and a deodorizing device for removing odor components in the gas collected by the gas suction and collecting device and then releasing the gas to the atmosphere. Are provided.
[0005]
However, while the charging port is closed by the lid, the odorous gas generated in the processing tank is sucked and collected by the gas suction and collection device, and is guided to the deodorization device. Will not be released. However, when the biological waste, which is the object to be treated, is injected into the treatment tank by opening the lid that closes the input port, the odorous gas is directly released into the atmosphere from the open input port. Will be done. Since the input of the object to be processed is performed at predetermined intervals in accordance with the progress of the composting process in the processing tank, the accumulated amount of the odorous gas released as it is into the atmosphere reaches a considerable amount. There was a need for measures to prevent this.
[0006]
[Problems to be solved by the invention]
It is an object of the present invention to provide an apparatus for composting biological waste having the above configuration, in which, when an input port is opened at the time of charging an object to be processed, the odorous gas in the processing tank is released to the atmosphere as it is. Is to prevent.
[0007]
[Means for Solving the Problems]
The invention according to claim 1 for solving the above-mentioned problem is provided with a processing tank provided with a biological waste input port on the upper surface thereof capable of being opened and closed by a lid, and rotatably disposed in the processing tank. A composting processing device comprising: a stirring blade; and a gas suction and recovery device for suctioning and recovering gas generated in the processing tank during the composting process. And a suction pipe disposed at least partially along the periphery in a state facing the opening.
[0008]
According to the first aspect of the invention, when the biological waste that is the object to be treated is not charged, the charging port is closed by the lid, and the odorous gas generated in the processing tank is discharged inside the charging port. In the state facing the opening, it was sucked and collected by a suction pipe arranged at least partially along the peripheral edge, and then guided to the deodorizing device, and only the odor component of the odorous gas was removed. Later, it is released into the atmosphere. Further, when the lid is opened and the input port is opened at the time of inputting the biological waste, the suction pipe is arranged on the inner peripheral edge so as to face the opening of the input port, and the suction force is reduced. The odorous gas which is to be exhausted to the atmosphere through the input port because it covers the entire area of the input port is sucked and collected by the suction pipe. This prevents the odorous gas from being released into the atmosphere as it is.
[0009]
The invention according to claim 2 is characterized in that, in the invention according to claim 1, the suction pipe is arranged along the entire peripheral edge of the opening, and is formed in a frame shape corresponding to the entire opening. I have.
[0010]
According to the second aspect of the present invention, since the suction pipe is disposed along the entire peripheral edge of the opening, the suction force is applied almost uniformly to the entire area of the opening of the inlet. For this reason, it is possible to more effectively prevent the internal odorous gas from being released into the atmosphere when the inlet is opened.
[0011]
According to a third aspect of the present invention, in the first or second aspect of the invention, the plurality of suction holes provided in the suction pipe are formed so as to intersect at about 30 ° with the opening surface of the inlet. It is characterized by having.
[0012]
According to the invention of claim 3, in addition to the above-mentioned effects of the invention of claim 1 or 2, the fact that the angle of formation of the suction hole of the suction pipe with respect to the opening surface of the injection port is approximately 30 ° means that This means that the suction force is applied most effectively also to the central part. As a result, the above-described effects of the first or second aspect of the invention are most effectively achieved.
[0013]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the present invention will be described in more detail with reference to embodiments. FIG. 1 is a front sectional view of a composting apparatus A according to the present invention, FIG. 2 is a sectional view taken along line XX of FIG. 1, and FIG. is a plan view showing the arrangement, FIG. 4 is an enlarged view of a portion of the inlet 16. Figure 2, Figure 5 is an enlarged perspective view of the suction pipe P _1. As shown in FIG. 3, on the back side of the composting processing apparatus A, a deodorizing apparatus C for deodorizing odorous gas generated in the processing apparatus A and collected by suction is provided. The odorous gas generated in the processing device A is guided to the deodorizing device C via the gas suction and recovery device B.
[0014]
First, in the composting processing apparatus A, a hollow structure rotating shaft 2 is horizontally disposed at the center of the processing tank 1, and both ends thereof are a pair of bearings 3 disposed outside the processing tank 1. It is rotatably supported. A spiral stirring blade 4 is integrally attached to the rotating shaft 2, and a support ring 6 is integrally attached to both ends of the rotating shaft 2 via a plurality of arms 5. An air supply pipe 7 is supported by the pair of support rings 6 in parallel with the rotation shaft 2, and portions of the pair of support rings 6 which are 180 ° out of phase with the air supply pipe 7 are connected by connecting rods 8. Thus, the connection rigidity of the pair of support rings 6 is increased. A large number of air ejection holes 7a (see FIG. 2) are provided at predetermined intervals along the axial direction inside the air supply pipe 7 (the side facing the rotation shaft 2 in the arrangement state). Further, the rotary shaft 2 having a hollow structure and the air supply pipe 7 are connected via two connection air supply pipes 9 having a hollow structure arranged in a direction perpendicular to the axis of the rotary shaft 2. On the other hand, a blower 11 is connected to one end of the rotary shaft 2, and the air sent from the blower 11 is sent to the air supply pipe 7 via the rotary shaft 2 having a hollow structure and two connection air supply pipes 9. The air is sent to the rotary shaft 2 from a number of air outlets 7a provided therein.
[0015]
The driven sprocket 12 attached to the other end of the rotating shaft 2 and the driving sprocket 14 attached to the driving shaft 13a of the driving motor 13 are connected via a chain 15, and the rotating shaft 2 The motor 13 is configured to rotate at a low speed in a predetermined direction by the driving force. For this reason, the biological waste (substance to be treated) K, which has been introduced into the treatment tank 1 from the later-described inlet 16, is processed while being slowly rotated by the action of the stirring blades 4. Note that the stirring blade 4 is helical, and the biological waste K is slightly transferred to one side of the rotating shaft 2 by its rotation. Therefore, the stirring blade 4 is rotated reversely at predetermined time intervals.
[0016]
Further, the odorous gas generated in the treatment tank 1 during the composting treatment of the biological waste K is sucked and collected by the gas suction and recovery device B, and guided to the deodorization device C. The gas suction recovery device B includes a rectangular frame-shaped suction pipe P ₁ which is disposed on the periphery of the treatment tank 1 input port 16, a connecting pipe P ₂ for connecting the deodorizing device C and the suction pipe P ₁ It consists of. An inclined surface portion 1a is provided on the front side of the treatment tank 1, and a rectangular input port 16 is provided on the inclined surface portion 1a facing obliquely upward. Except at the time of insertion, the oblique upper end is closed by a lid 17 hinged to the upper end. Inside the insertion slot 16, the suction pipe P ₁ along its circumferential edge is fixedly disposed, the suction pipe P ₁ is a connecting pipe P ₂ disposed along the inner surface of the upper plate portion of the treatment tank 1 The suction fan 18 is connected to the suction fan 18.
[0017]
Moreover, the overall shape of the suction pipe P ₁ is not configure a square frame shape corresponding to the shape of the inlet 16, in a portion positioned inside (the rotary shaft 2 opposite to the side) in the placement state, the circumferential direction A number of suction holes 19 are provided at predetermined intervals along. That is, the suction pipe P _1, as shown in FIG. 5, the pipe alone 21 of the four equal-length that both end portions are cut at an angle of 45 ° with respect to the axis is arranged in a rectangular frame shape, The connection portion is formed by being integrally connected by welding or the like. Further, as shown in FIG. 4, the angle (theta) with respect to the opening plane of the inlet 16 of a plurality of suction holes 19 provided in the suction pipe P ₁ is preferably a substantially 30 ° about. Here, by selecting the formation angle (θ) of the suction hole 19 with respect to the opening surface of the charging port 16 as described above, the suction airflow also flows to the center of the suction hole 19 as shown in FIG. effectively acts, when opening the lid 17, odorous gas in the processing tank 1, is effectively sucked and recovered in the suction pipe P _1, is emitted as it is from the inlet 16 into the atmosphere Can be prevented.
[0018]
Further, the suction pipe P ₁ is because it extends the suction force of the suction fan 18 through the connecting pipe P ₂ is the portion of the inlet 16, is constantly suction airflow is generated. Therefore, almost odorous gas generated when processing biological waste K in the processing tank 1 in a sealed state, as well as guided to be sucked deodorizing device C to the suction pipe P _1, inlet open the lid 17 When the biological waste K is introduced into the treatment tank 1 from the opening 16, the odorous gas that is going to flow out into the atmosphere from the opening 16 in the open state is caused by the suction airflow that extends over the entire area of the opening 16. is sucked into the suction pipe P _1, odorous gas is prevented from being released into the atmosphere.
[0019]
A sensor having sensors 22 and 23 for detecting the temperature and moisture in the processing tank 1 at the time of processing is provided in a portion of the one side plate 1b constituting the processing tank 1 below the rotation shaft 2. A tube G is attached, and its processing state can be monitored remotely. Further, a portion of the peripheral wall portion 1d of the processing tank 1 near the other side plate portion 1c and below the rotating shaft 2 is provided with the composted agricultural product (composted product) in the processing tank. 1 is provided with a discharge port 24 for discharging from inside. 1 to 3, reference numeral 25 denotes a base plate on which various devices such as the processing tank 1 are mounted.
[0020]
Then, in order to compost the biological waste K, the biological waste K, which has been subjected to a predetermined adjustment so as to be suitable for composting in accordance with its characteristics, is introduced into the processing tank 1 through the inlet 16. Charge and uniformly mix according to predetermined stirring conditions. Air containing oxygen necessary for composting is supplied to the inside of the processing tank 1 through the blower 11, the hollow rotary shaft 2, the hollow connection air supply pipe 9 and the air supply pipe 7, and the compost is formed. The reaction is started. The air supply pipe 7 is set so as to be disposed at the bottom of the processing tank 1 except during stirring, and reliably supplies a predetermined flow of air into the biological waste K to supply oxygen. By doing so, active microbial activity is maintained.
[0021]
In this way, the composting of the biological waste K starts and progresses smoothly, and inside the treatment tank 1, the biological waste K is decomposed by the activity of microorganisms, so that water, carbon dioxide, Alternatively, an odorous gas or the like is generated in addition thereto, and the temperature inside the processing tank 1 rises from 50 ° C. to about 60 ° C. Then, a large amount of water contained in the biological waste K itself is vaporized to generate steam. As a result of these composting treatments, generated odorous gas, steam vaporized as the temperature rises, surplus air sent into the treatment tank 1, and other biological waste K are pulverized. Te in a state in which dust such that a dust-like is mixed, after being sucked and recovered in the suction pipe P ₁ attached to the periphery of the inlet 16, through the connecting pipe P _2, the suction of the suction fan 18 It is sucked by the force to the side of the deodorizer C.
[0022]
The deodorizing device C includes a condensing device 31 for removing water vapor contained in the odorous gas generated in the processing tank 1 by condensation, and an alkaline gas contained in the odorous gas from which the water vapor is removed by the condensing device 31. A neutralization treatment device 32 for neutralizing the gas with a sulfuric acid solution, and an acid solution removal device for dissolving and removing the sulfuric acid solution slightly contained in the odorous gas in the spray water during the treatment by the neutralization treatment device 32 33, and an adsorption treatment device 34 for adsorbing and removing the residual odor contained in the odorous gas on the activated carbon, and the devices 31, 32, 33, and 34 described above are connected in the above order. . Then, the gas finally treated by the adsorption treatment device 34 contains almost no odor, and is released to the atmosphere as it is.
[0023]
In addition, as described above, when the lid 17 is opened and the inlet 16 is opened, in order to prevent the odorous gas from being released into the atmosphere from this opening, inside the inlet 16, the suction pipe P ₁ which is disposed on the peripheral portion so as to face to the opening, because it is arranged as described above with respect to the input port 16, the suction pipe P ₁ is biological waste in the processing bath 1 There is no obstacle in putting K.
[0024]
In the above embodiment, the suction pipe P ₁ is be disposed along the entire periphery of the opening of the inlet 16, the shape is formed in a rectangular frame shape corresponding to the shape of the inlet 16, introduced The suction airflow spreads almost uniformly over the entire area of the opening of the mouth 16. Therefore, when the lid 17 is opened and the charging port 16 is opened, there is an advantage that the odorous gas in the processing tank 1 can be most effectively prevented from being released into the atmosphere. However, in the present invention, when the suction pipe is disposed only at a part of the periphery of the opening of the charging port 16 and the charging port 16 is opened, the odorous gas in the processing tank 1 is released to the atmosphere. Can be prevented. Specifically, when the shape of the input port 16 is rectangular, two suction pipes are arranged in parallel on the peripheral edge of each of the opposed long sides, and the two suction pipes are The configuration is such that the two are merged on the upstream side of the suction fan 18 to be one. This configuration is characterized in that interference of a plurality of airflows in different directions is eliminated, and the suction airflow reaches the opening of the inlet 16 almost uniformly. Furthermore, it is also possible to arrange a single suction pipe along the periphery of only one long side of the rectangular inlet 16 so as to apply a suction airflow to the opening of the inlet 16.
[0025]
When the suction pipe is arranged along the entire periphery of the opening of the inlet, the entire shape of the suction pipe is naturally determined according to the shape of the inlet. In this case, the shape of the suction pipe is correspondingly circular.
[0026]
Further, in the above embodiment, since the air supply pipe 7 is integrally attached to the rotating shaft 2 in parallel with the rotating shaft 2 and integrally rotates, the biological waste K stored in the processing tank 1 is rotated in the circumferential direction. Has the advantage that air can be sent from all directions, and air can be sent almost uniformly to all parts of the biological waste K. However, a configuration in which an air feed pipe is fixedly arranged at the bottom of the treatment tank 1 The present invention can be implemented also for the processing device of (1).
[0027]
【The invention's effect】
The composting treatment device according to the present invention has a suction pipe arranged at least partially along the opening periphery in a state facing the opening inside the input port provided in the processing tank, When the biological waste which is the object to be treated is not charged, the inlet is closed by the lid, and the odorous gas generated in the treatment tank is sucked and collected by the suction pipe, and the biological waste is collected. When the lid is opened and the inlet is opened at the time of charging, the odorous gas which is going to be discharged into the atmosphere through the inlet is sucked and collected by the suction pipe. This prevents the odorous gas from being released into the atmosphere as it is.
[Brief description of the drawings]
FIG. 1 is a front sectional view of a composting apparatus A according to the present invention.
FIG. 2 is a sectional view taken along line XX of FIG.
FIG. 3 is a plan view showing an arrangement of a composting processing device A and a deodorizing device C.
FIG. 4 is an enlarged view of a portion of an inlet 16 of FIG.
5 is an enlarged perspective view of the suction pipe P _1.
[Explanation of symbols]
A: Composting treatment device B: Gas suction and recovery device C: Deodorization device K: Biological waste (substance to be treated)
P ₁ : suction pipe P ₂ : connecting pipe 1: processing tank 4: stirring blade 16: inlet 17: lid 19: suction hole 21: pipe alone

Claims (3)

A processing tank provided with an opening for opening and closing a biological waste on the upper surface so as to be opened and closed by a lid, a stirring blade rotatably disposed in the processing tank, and generated in the processing tank during composting processing. A composting treatment device having a gas suction and recovery device for sucking and recovering gas,
The biogas waste compost, wherein the gas suction / recovery device is provided with a suction pipe disposed at least partially along the opening periphery in a state facing the opening inside the input port. Processing equipment. 2. The biological waste composting apparatus according to claim 1, wherein the suction pipe is arranged along the entire peripheral edge of the opening, and has an overall shape formed in a frame shape corresponding to the opening. 3. . The biological waste according to claim 1, wherein the plurality of suction holes provided in the suction pipe are formed so as to intersect at about 30 ° with the opening surface of the input port. Composting processing equipment.

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