JP2002320945A - Garbage processing mechanism installed vehicle - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an exhaust gas circulation processing method with a garbage decomposition processing capable of suppressing the generation of an odor or toxic substances, capable of promoting the propagation of a garbage decomposition processing bacterium and a garbage fermentative decomposition, and capable of reducing an initial cost and running cost of an entire garbage processing equipment. SOLUTION: The mechanism is so constituted that a garbage is injected into the garbage processing equipment where a decomposition processing is performed on the garbage with the garbage decomposition processing bacterium and by supplying a required oxygen or air thereto, an exhaust gas generated under this processing is introduced into an exhaust gas circulation line, where the gas is dehumidified and dust is removed therefrom, most of the exhaust gas after dehymidification and dust removal is returned to the garbage processing equipment, carbon dioxide in the rest of the exhaust gas is removed by a removal means and the exhaust gas after carbon dioxide removal is returned to the garbage processing equipment.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to garbage discarded from ordinary households and various restaurants, supermarkets,
The present invention relates to a vehicle equipped with a garbage disposal mechanism capable of moving and collecting and processing package foods (packed raw foods) whose expiration date has expired, such as convenience stores.

[0002]

[Prior Art] Supermarkets and convenience stores
From food stores such as stores and department stores, a large quantity of raw foods, packed foods (foods put in trays and packaged with resin sheets), etc., whose expiration date has expired or are unsold and damaged, are generated and discarded every day.

[0003] Also, in each household, raw foods and packed foods purchased in supermarkets and the like are stored in refrigerators without eating, and their expiration dates are expired or damaged, and are discarded together with general garbage. .

[0004] These garbage and packaged foods are collected on a regular or daily basis by collection vehicles of a contracted waste disposal company or by garbage collection vehicles of each ward or municipal government and incinerated at a predetermined incineration facility. Have been.

[0005]

However, there is a limit to the daily incineration and burial disposal of a large amount of garbage generated. In addition, recently, the generation of dioxins and the like due to the incineration of garbage has a serious adverse effect on environmental pollution.

[0006] The present invention has been developed in view of the above points, and its object is to remove garbage discarded from households, various restaurants and restaurants, supermarkets and convenience stores, and the like. The packed foods (packed raw foods) are collected while moving sequentially, and the garbage collected during the movement is decomposed by microorganisms and the exhaust gas is circulated for effective use in the decomposition processing, and various places as described above are used. It is an object of the present invention to provide a garbage disposal mechanism-equipped vehicle capable of efficiently processing garbage discharged from the garbage without affecting the environment economically.

[0007]

The present invention has the following configuration in order to effectively achieve the above object. That is, the vehicle equipped with the garbage disposal mechanism according to the first aspect of the present invention separates a packaged food or the like obtained by coating a food with a packaging material into a food and a packaging material and discharges the food and the packaging material by crushing or crushing. An automatic separation / pulverization device, a garbage disposal device for decomposing and processing foods that are crushed and crushed and discharged, and supplying air to exhaust gas discharged from the garbage disposal device and removing CO2 from the exhaust gas. An exhaust gas circulation processing mechanism for returning the processing exhaust gas to the garbage processing apparatus, and a vehicle equipped with the automatic separation / crushing apparatus, the garbage processing apparatus, and the exhaust gas circulation processing mechanism.

According to a second aspect of the present invention, there is provided a vehicle equipped with a garbage disposal mechanism according to the first aspect, wherein the food pulverized by the automatic separating / pulverizing apparatus is produced via a transfer device. It is configured to be put into a refuse treatment device.

According to a third aspect of the present invention, there is provided a vehicle equipped with a garbage disposal mechanism according to the first aspect, wherein the food pulverized by the automatic separating / pulverizing apparatus is transported by a conveying device and a fixed-rate supply device. Through the garbage disposal device.

According to a fourth aspect of the present invention, there is provided a vehicle equipped with a garbage disposal mechanism according to the first, second, or third aspect, wherein the exhaust gas circulation processing mechanism includes a dust remover, a dehumidifier, and a CO2 removal device. It is a configuration provided with.

According to a fifth aspect of the present invention, there is provided a vehicle having a garbage disposal mechanism according to the fourth aspect, wherein the CO2 removing device comprises a CO2 regular removing device and a CO2 removing device.
This is a configuration including an auxiliary removal device.

According to a sixth aspect of the present invention, there is provided a vehicle equipped with a garbage disposal mechanism according to the first, second, third, fourth or fifth aspect.
This is a configuration in which two measuring devices are provided.

[0013]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will be described below with reference to the drawings. FIGS. 1 to 15 are diagrams related to a vehicle equipped with a garbage disposal mechanism according to an example of the present invention. As shown in FIG. 1, reference numeral 1 denotes an automatic separation / crushing apparatus, which wraps various foods in a packaging material (made of styrene foam). This method separates a packed food or the like covered with a tray or a plastic wrap into a food and a packaging material, and crushes (or crushes) the separated food and the packaging material before discharging. Reference numeral 2 denotes a garbage disposal apparatus which decomposes foods that are pulverized and discharged by microorganisms. 3
Is an exhaust gas recirculation processing mechanism that supplies air to exhaust gas discharged from the garbage disposal device 2, removes and dehumidifies it, removes CO 2 in the exhaust gas, and treats the exhaust gas. It returns to the device 2. 4
Is a vehicle equipped with the automatic separation / crushing apparatus 1, the garbage processing apparatus 2, and the exhaust gas circulation processing mechanism 3. The vehicle equipped with the garbage disposal mechanism of the illustrated example is composed of the automatic separation / crushing device 1, garbage disposal device 2, exhaust gas circulation treatment mechanism 3, and vehicle 4.

More specifically, the automatic separation / crushing apparatus 1 mounted on a vehicle equipped with a garbage disposal mechanism of the present invention.
(See FIG. 6 to FIG. 15) includes an input port 5 for inputting a packaged food or the like obtained by coating a food with a packaging material, and separating the packed food input from the input port 5 into a food and a packaging material and pulverizing (or crushing). It comprises a separation / crushing section 6 for crushing) and a packaging material discharge port 7 for discharging the crushed packaging material.

The separating / crushing unit 6 includes a driving device 8 (see FIG. 9) and a rotating shaft 9 that is rotated by the driving device 8.
And a crushing blade 1 provided on the rotating shaft 9 for crushing food / packaging material.
0 (see FIGS. 7 and 8) and a rotating blade 11 for feeding the crushed packaging material to the packaging material discharge port 7.

Reference numeral 12 denotes a case for installing a drum and the like to be described later, which is a square box having an open upper part. On one side of the upper part of the case 12, the above-mentioned inlet 5 for feeding the packed food is provided. The loading port 5 is provided with an auxiliary slide section 14 for loading a packaged food, which is inclined from the outside so as to communicate with a half-drum-shaped main body 13 described later (see FIG. 7).

The upper opening 15 of the case 12 (see FIG. 6)
Can be opened and closed by a case lid 16. Inside the case 12, a half drum-shaped main body 13 (see FIGS. 7 and 8) having a number of small holes (not shown) is provided with a rectangular open side facing upward. The half drum-shaped main body 13 has a shape obtained by halving a perfect circular drum. Further, the large number of small holes (not shown) are used to discharge the garbage (food) that has been pulverized onto a transfer device 43 (see FIG. 1) provided below the half-drum-shaped main body 13. Has a function as an outlet.

Bearings (not shown) are provided on both sides of the case 12.
The rotating shaft 9 is rotatably supported by the two bearings. Therefore, the rotating shaft 9 is provided so as to penetrate the upper center of the half drum-shaped main body 13 in both side directions. The rotating shaft 9 has a crushing blade 10 and a rotating blade 11
And so on.

The separation / crushing unit 6 (see FIGS. 7 and 8)
Is constituted by a rotating shaft 9, a crushing blade 10, and a rotating blade 11. That is, the input port 5 in a range of about 1/3 of the total length (length in both sides) of the half drum-shaped main body 13
In the position on the side, two sets of crushing blades 10 are provided at predetermined intervals in the longitudinal direction of the rotating shaft 9.
The two crushing blades 10 of each set (see FIG. 12) are
, And the crushing blades 10 are provided slightly offset in the longitudinal direction of the rotating shaft 9 (see FIG. 13).

Each crushing blade 10 (see FIGS. 10 to 12)
Is a fan-shaped whole, and has a blade portion 17 and a support plate portion 1 for fixing the blade portion 17 with a plurality of bolts and nuts 18.
9 and an angle member 20 for fixing the support plate 19 to the rotating shaft 9.

The outer peripheral portion 16 of the blade portion 17 is formed in a saw blade shape as shown in the figure, and each of the corner portions 21 having the saw blade shape is sharpened. Further, each corner 21 is slightly bent so as to face the rotating blade 11 when the crushing blade 10 is provided on the rotating shaft 9. The base portion 22 (see FIG. 10) of the support plate portion 19 is cut out in an L-shape to form an angle member 20.
It is stuck to.

When each of the crushing blades 10 is attached to the rotary shaft 9, the angle member 20 is engaged with a rectangular cylindrical member 23 (see FIGS. 7 and 8) fixed to the rotary shaft 9, and the rectangular cylindrical member 23 is bolted. Is fixed to the angle member 20.

The shape and size of the crushing blade 10 may be any shape and size as long as the packed food to be put into can be separated into a packaging material and garbage (food) and crushed (or / crushed).
The design can be freely changed to the size. If this requirement is satisfied, the number of crushing blades provided on the rotating shaft is one, two,
The number of the crushing blades with respect to the rotation axis can be freely changed to an arrangement other than the arrangement in the illustrated example.

Further, the rotary shaft 9 is provided with a rotary blade 11 (FIG. 7) in a range of about 2/3 of the entire length (length in both sides) of the half-drum-shaped main body 13 other than the range in which the crushing blade 10 is provided. , FIG. 8, FIG. 12, and FIG. 13). This rotating blade 11
Are two rectangular plate blades 25 and four resistance plates 26
a and 26b (see FIGS. 12 and 13). One plate blade 25 is disposed along the rotation axis 9 in the longitudinal direction, and is fixed to the rectangular cylinder 23 provided on the rotation blade 11. Similarly, the other plate blade 25 is on the opposite side to the plate blade 25. (At an interval of 180 ° with respect to the outer periphery of the rotating shaft 9). The arrangement relationship between both plate blades 25 and the above-described crushing blades 10 in each set is as shown in FIGS. Of course,
This arrangement relationship may be changed as appropriate.

A rubber plate 29 is formed along a longitudinal end 28 of each plate blade 25 (see FIG. 12) by bolts and nuts 27.
Has been stuck. The end of the rubber plate 29 has a slight gap with the inner peripheral surface of the half drum-shaped main body 13.

Each plate blade 25 (see FIGS. 12 and 13)
On both sides, near the position where the crushing blade 10 is provided,
Two sets of four arc-shaped or semi-circular resistance plates 26a, 26b
Are secured by bolts and nuts 30 (see FIG. 8). One set of two resistance plates 26a includes two plate blades 25,
25 are fixed to the same position on both surfaces (see FIG. 12).
Similarly, another pair of two resistance plates 26b are connected to each plate blade 25.
It is stuck to.

Each resistance plate 26a near the crushing blade 10 (FIG. 1)
3) is slightly inclined toward the packaging material discharge port 4 (see FIG. 1). Another set of each resistance plate 26b provided at a distance of about 10 to 15 cm from the resistance plate 26a is formed at an angle more than that of the resistance plate 26a and the packaging material discharge port 4 (FIG. 1).
See) side. This is because the packaging material pulverized by the pulverizing blades 10 stays longer between the resistance plate 26a and the resistance plate 26b as compared with the related art, and the packaging material discharge port 4 is slightly faster from around the resistance plate 26b. In order to be able to send to. Therefore, each resistance plate 26
a, the interval and the inclination angle of the resistance plate 26b are not limited to the illustrated example, and may be arbitrarily changed. Of course, it is preferable that the interval and the inclination angle between each of the resistance plates 26a and 26b can be appropriately adjusted.

A support plate 31 (see FIG. 7) is provided at an end of each of the plate blades 25 on the side of the crushing blade 10 so as to protrude horizontally in the direction of the crushing blade 10.
2, the rubber plate 33 is fixed.

The rotating shaft 9 is rotated by a driving device 8 (see FIG. 9) provided below the auxiliary slide unit 11.
The driving device 8 includes a motor 34 with a speed reducer, a small gear (not shown) fitted to a drive shaft (not shown), a large gear 35 fitted to the rotating shaft 9, and a small gear and a large gear 35. Belt 36. At the time of driving, the rotating shaft 9 rotates clockwise when viewing the inside of the half drum-shaped main body 13 from the charging port side. The drive device 8 for rotating the rotating shaft 9 is not limited to the illustrated example, and may be freely designed and changed to any known drive device.

A half-drum-shaped lid 37 having a packaging material discharge port 4 on the opposite side of the input port 5 is provided on the open upper portion of the half-drum-shaped main body 13 (see FIGS. 6 and 7). It is provided so that it can be opened and closed.

That is, the half drum-shaped lid 37 (FIGS.
8) are crescent-shaped guide members 38a, 38 on the inner surface.
In order to provide b, it is formed to have a semi-elliptical shape when viewed from the end face side. The three guide members 38 a are provided at predetermined intervals on the inner surface of the half drum-shaped lid 37 so as to be located above the crushing blade 10, and the inner surface of the half drum-shaped lid 37 is provided. It is provided so as to hang down. A plurality of the other guide members 38b (see FIG. 8) are provided on the inner surface of the half-drum lid 37 at predetermined intervals at a position closer to the packaging material discharge port 4 than the resistance plate 26b. is there. Each guide member 38b is slightly inclined toward the packaging material discharge port 4 side.

At the front outside the half drum-shaped lid 37,
A grip portion 39 is provided to easily open and close the half drum-shaped main body 13.

Further, a discharge guide cylinder 40 communicating with the inside of the half drum-shaped main body 13 is provided at the above-mentioned packaging material discharge port 7 provided at the front part of the half drum-shaped lid 37 on the side opposite to the input port 2. It is provided so as to protrude forward from the half drum-shaped lid 37.

Outside the half drum-shaped lid 37, a case lid 16 is provided on the case 10 so as to be openable and closable so as to cover the half drum-shaped lid 37. The case lid 16 is configured such that a discharge guide cylinder 40 which is a packaging material discharge port 7 provided in the half drum-shaped lid 37 when the case lid 16 is closed can protrude forward of the case 12. The notch opening 41 slightly wider than the cross-sectional area of the discharge guide cylinder 40 (FIG. 14)
Is provided on the upper front side.

Below the half-drum-shaped main body 13,
A bucket conveyor 43a, which is an example of a transport device 43 that transports the crushed garbage to the quantitative supply device 42 (see FIG. 1).
Is arranged at one end 43b. Note that the transport device 43 is
Not limited to the bucket conveyor 43a, a belt conveyor, a screw conveyor, and other various transport devices may be used freely.

The quantitative feeder 42 (see FIGS. 1 and 5) temporarily stores the crushed garbage conveyed by the bucket conveyor 43a and stirs the garbage with the stirrer 44, and quantitatively sets the garbage disposal apparatus below. 2. Needless to say, in the present invention, the garbage may be directly supplied to the garbage disposal device 2 from the transport device 43 without providing the quantitative supply device 42.

In the garbage disposal apparatus 2 (see FIG. 1), a stirring blade 47 on one side is provided in a right-handed spiral form from one end of a rotating shaft 46 rotated by a driving device 45 to a substantially central position. The other stirring blade 48 is provided in a left-handed spiral form from the other end to a substantially central position, and further provided with a temperature control device (not shown) and a water supply device (not shown) capable of controlling the internal temperature of the inside 2a of the device. It is a thing. Since the fat-rich crushed garbage is likely to solidify during the stirring, a protruding body (not shown) for crushing the lump is placed between the tip portions of the stirring blades 47 and 48 so that the crushed garbage in the apparatus is placed in the apparatus. 2a.

A predetermined amount of cedar chips (sawdust shavings) is put into the inside of the apparatus 2a, and the inside of the apparatus 2a is adjusted to the optimum humidity and temperature for the inhabitation of microorganisms that decompose garbage. Pulverized garbage is supplied from the fixed amount supply device 42. Then, the mixture is stirred by the stirring blades 47 and 48. The crushed garbage introduced by this process is mixed with the chips by the left and right stirring blades 4.
It is moved upward from below in the apparatus 2a by 7, 48, and is brought to the center from both left and right sides. Then, the crushed garbage and chips brought to the center fall forward. The crushed garbage is aerobicly decomposed by a microorganism into a gas (exhaust gas) such as carbon dioxide and water by stirring the garbage in the apparatus 2a for a predetermined time.

The above-mentioned exhaust gas is processed by an exhaust gas circulation processing mechanism 3. That is, the exhaust gas circulation processing mechanism 3 (see FIG. 1) removes and exhausts the exhaust gas discharged from the garbage processing apparatus 2 and returns the exhaust gas to the garbage processing apparatus 2 again. A dust remover 51, a dehumidifier 52, and a dehumidifier 5
Exhaust gas circulation line 5 on the inlet side of dust remover 51 again from 2
0, an air supply line 54 connected via a valve 53;
An exhaust line 56 through which the exhaust gas discharged from the dehumidifier 52 can be discharged into the atmosphere via a valve 55, and an exhaust gas circulating line 50 between the dehumidifier 52 and the garbage disposal device 2 branch off and return to the exhaust gas circulating line 50. The first branch line 57 and the second branch line 58, the CO2 ordinary removal device 59 provided in the first branch line 57, the suction fan 60, the valves 61a, 61b, 61c, and the second branch line 58 CO2 capture removal device 62, suction fan 63, automatic flow control valve 64 and valves 65a, 65
b, 65c, and a CO2 measuring device 66 that detects the CO2 concentration in the exhaust gas before returning to the garbage disposal device 2 and controls the automatic flow control valve 64.
The configuration of the exhaust gas circulation processing mechanism 3 according to another embodiment of the present invention (not shown) includes the second branch line 58 and / or C
A configuration without the O2 measuring device 66 may be employed.

Exhaust gas such as CO 2 generated when the crushed garbage is decomposed by the garbage disposal device 2 is sucked by the suction fan 60 (and the suction fan 63) by the exhaust gas circulation processing mechanism 3, Circulation line 5
0, and returns to the garbage processing apparatus 2 again through the first branch line 57 (and the second branch line 58). During this time, the exhaust gas is dedusted by the deduster 51 and dehumidified by the dehumidifier 52.
CO2 is removed by the O2 ordinary removal device 59. Further, in the dehumidifier 52 and the air supply line 54, fresh air (outside air) is supplied to the exhaust gas and mixed. The exhaust gas mixed with the air that has passed through the dehumidifier 52 is sent to the exhaust gas circulation line 50 by a required amount, and is discharged into the atmosphere from a discharge line 56 via a valve 55 by an unnecessary amount.

When the CO2 concentration in the mixed exhaust gas returned to the garbage disposal device 2 is higher than a predetermined value by the measurement of the CO2 measuring device 66, the suction fan 63 is activated and the automatic flow control valve 64 is activated. To control the suction flow rate and remove the mixed exhaust gas in the exhaust gas
It is guided to an O2 supplementation removal device 62 to remove CO2,
The mixed exhaust gas from which 2 has been removed is returned to the gas circulation line 50 again.

The mixed exhaust gas returned to the gas circulation line 50 in this way is sent to the garbage disposal device 2 and used for garbage disposal by microorganisms. Therefore, the amount of exhaust gas discharged into the atmosphere is extremely small, and environmental pollution due to the exhaust gas can be prevented as much as possible.

The automatic separation / crushing apparatus 1 (see FIGS. 1 to 4), the garbage processing apparatus 2 and the exhaust gas circulation processing mechanism 3
Is mounted on the carrier 67 of the vehicle 4 and assembled, and is entirely covered with the carrier cover 68. Of course, the end of the discharge line 56 is guided outside the carrier cover 68. The crushed and crushed packaging material discharged from the packaging material discharge port 7 is collected by a collection container (not shown) provided on the carrier 67.

The vehicle equipped with the garbage disposal mechanism of the present invention may have a configuration that does not include an expensive CO2 measuring device. In this case, the component data of the generated exhaust gas such as CO2 according to the type of raw garbage (fish, vegetables, etc.) is collected in advance, for example, when the raw garbage to be collected and input is a fish, or when the raw garbage is a vegetable. By inputting the respective data to a control device or the like and processing the garbage, the same effect as provided with the CO2 measuring device can be obtained without having the CO2 measuring device.

[0045]

As described above, in the vehicle equipped with the garbage disposal mechanism according to the present invention, the packed food is automatically separated into the packaging material and the food while being collected and moved, and the packed food is collected together with the other collected waste raw food. The separated food is crushed, and the crushed food is decomposed by a microorganism. Therefore, it is possible to efficiently collect and process garbage and packed foods discarded from a plurality of places such as homes, various restaurants, restaurants, supermarkets and convenience stores. Further, since all of the exhaust gas is recycled without being discharged into the atmosphere, the amount of exhaust gas discharged into the atmosphere is small, and there is no concern about environmental pollution. In addition, since there is no need to install garbage disposal equipment for each home or supermarket, it is possible to dispose of the packaged food and garbage very economically and efficiently.

Also, the food (garbage) pulverized by the automatic separating / pulverizing device is fed into the garbage disposal device via the transfer device, so that the crushed food (garbage) can be treated at a time. It can be prevented from being thrown into the device. In addition, by providing a transport device, it is possible to avoid installing an automatic separation / crushing device on the garbage disposal device, and it is possible to keep the overall height of the vehicle from becoming too high and to drive the vehicle safely. be able to.

Further, by providing the fixed amount supply device together with the transport device, the food (garbage) pulverized by the automatic separating / pulverizing device can be surely supplied quantitatively to the garbage disposal device. The garbage decomposition treatment by the microorganisms can be performed smoothly.

Further, since the exhaust gas circulation treatment mechanism is provided with a dust remover, a dehumidifier and a CO2 removing device, dust, excess moisture and CO2 in the exhaust gas are removed to recover the original exhaust gas in the garbage treatment device. Can be recycled in good condition for the microorganisms.

Further, since the CO2 removing device is composed of the CO2 ordinary removing device and the CO2 auxiliary removing device, the CO2 in the exhaust gas is usually removed by the CO2 ordinary removing device. CO2 can also be removed by a CO2 auxiliary removal device. Therefore, even if the amount of CO2 discharged from the garbage disposal apparatus is larger than usual, it is possible to quickly respond, and the C
The exhaust gas can be returned to the garbage disposal device by removing O2, and the exhaust gas can be used without hindering the operation of microorganisms in the garbage disposal device.

Further, since the exhaust gas circulation treatment mechanism is provided with a CO2 measuring device, the CO2 measuring device measures the CO2 concentration in the exhaust gas and controls the CO2 removing device accurately based on the measured value. can do.

[0051]

[Brief description of the drawings]

FIG. 1 is an explanatory diagram of a vehicle equipped with a garbage disposal mechanism according to an example of the present invention.

FIG. 2 is a side view of a vehicle equipped with a garbage disposal mechanism according to an example of the present invention.

FIG. 3 is an explanatory view of a partial cross section in a state where a carrier cover 68 is removed.

FIG. 4 is a plan view of FIG. 2;

FIG. 5 is an explanatory diagram of the fixed amount supply device and the garbage disposal device 2.

FIG. 6 is a perspective view of the automatic separating / crushing apparatus in a state where a case lid is opened.

FIG. 7 is an explanatory view showing a location of a crushing blade in the automatic separation / crushing apparatus.

FIG. 8 is an explanatory diagram showing locations of crushing blades and rotating blades in the automatic separation / crushing apparatus.

FIG. 9 is an explanatory view showing a portion of a driving device of the automatic separating / crushing device.

FIG. 10 is a front view of the crushing blade.

FIG. 11 is a side view of the crushing blade.

FIG. 12 is an explanatory diagram showing an attachment relationship between a crushing blade and a rotating blade with respect to a rotating shaft.

FIG. 13 is a simplified view of the mounting relationship between the crushing blade and the rotating blade with respect to the rotating shaft as viewed from the front.

FIG. 14 is a front view of the automatic separation / crushing apparatus.

FIG. 15 is a side view of the automatic separation / crushing apparatus.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Automatic separation / crushing apparatus 2 Garbage disposal apparatus 3 Exhaust gas circulation processing mechanism 4 Vehicle 42 Quantitative supply apparatus 43 Transport apparatus 51 Dust remover 52 Dehumidifier 59 CO2 regular removal apparatus 62 CO2 auxiliary removal apparatus 66 CO2 measurement apparatus

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) B02C 21/02 B60P 3/00 Q 23/08 B09B 3/00 D B09B 5/00 ZAB 5/00 ZABP B60P 3/00 B01D 53/34 135Z F-term (reference) 4D002 AA09 AC10 GA02 GA03 GB02 GB20 4D004 AA03 AA04 AA07 AA09 AC05 CA04 CA07 CA15 CA19 CB08 CB13 CB21 CB28 CB42 CB44 CB45 CB46 CB50 CC15 DA11 DA02D10 DA11 DA02 DA07 DD04 DD12 EE11 EE27 EE44 GA17 GB05 4G068 AA02 AB21 AC01 AD01

Claims (6)

[Claims] 1. An automatic separating / crushing device for separating a packaged food or the like obtained by coating a food with a packaging material into a food and a packaging material, and crushing or crushing and discharging the food and the packaging material, and crushing and crushing and discharging. A garbage disposal device that decomposes food to be processed by microorganisms, and an exhaust gas that supplies air to exhaust gas discharged from the garbage disposal device, removes CO2 in the exhaust gas, and returns the treated exhaust gas to the garbage disposal device. A vehicle equipped with a garbage disposal mechanism, comprising: a circulation treatment mechanism; and a vehicle equipped with the automatic separation / crushing device, the garbage disposal device, and the exhaust gas circulation treatment mechanism. 2. The food pulverized by the automatic separation / pulverization device,
The garbage disposal mechanism-equipped vehicle according to claim 1, wherein the vehicle is equipped with a garbage disposal mechanism via a transfer device. 3. The food pulverized by the automatic separating / pulverizing device,
2. The garbage disposal mechanism-equipped vehicle according to claim 1, wherein the garbage disposal mechanism is configured to be fed into the garbage disposal device via a transport device and a fixed amount supply device. 4. The vehicle equipped with a garbage processing mechanism according to claim 1, wherein the exhaust gas circulation processing mechanism is provided with a dust remover, a dehumidifier and a CO2 removing device. 5. The vehicle equipped with a garbage disposal mechanism according to claim 4, wherein the CO2 removing device comprises a regular CO2 removing device and a CO2 auxiliary removing device. 6. A vehicle equipped with a garbage disposal mechanism according to claim 1, wherein the exhaust gas circulation treatment mechanism is provided with a CO2 measuring device.