JP3146663U - 厨 芥 Processing device - Google Patents

Abstract

A wrinkle processing apparatus for automatically and efficiently processing wrinkles is provided. A culling processing apparatus for use in a kind of multi-storey building, wherein each tier of the multi-storey building has one stage, or a chute having an inlet in each stage for throwing firewood. And a suction means for generating a negative pressure for sucking the soot by generating a negative pressure for suction in the chute, and collecting the soot that is connected to the end of the chute and transferred via the chute It is characterized by including the collection means used for doing.
[Selection] Figure 1

Description

The present invention relates to a trap processing apparatus, and is used for trap processing in a multi-storey building or a one-story building, and mainly provides suction means for generating negative pressure to collect traps in a chute. Concerning sucking.

For general waste, such as rice cake (residue) in everyday households, the general idea is that the waste is treated as trash, but these trash is often the biggest enemy of the environment, Normally, our garbage has been disposed of in a landfill method, but these garbage are the culprits that generate biogas, which not only causes air pollution, but also makes it explosive. In addition, dredging garbage will cause further water pollution. In relatively developed countries outside of Japan, ordinary households have a regular crusher. A crusher crushes the crush by a kind of crushing action, then adds water and puts it into a specific pipe. ) Centralized processing. Conversely, Taiwanese society is between tradition and progress, and in our living environment there are very few such advanced equipment, and ordinary households have treated straw as general garbage or pig feed. However, pig farmers have gradually lost their ordinary household rice cakes due to environmental conservation issues.

Organic fertilizers contain abundant amounts of organic substances, can provide the energy required for the growth of soil microbial communities, and can promote the activity of soil microbial communities, thereby maintaining the balance of the ecological environment. For example, good bacteria such as yeasts, actinomycetes, nitrogen-fixing bacteria, mycorrhizal fungi, phosphorus-lytic bacteria, nitrifying bacteria, etc. and degrading enzymes capable of degrading acidic substances in soil, chemical fertilizers, pesticides, such as carbon, nitrogen, phosphorus Highly efficient decomposition of the elements required for plant growth in the soil, such as potassium, sodium, magnesium and iron, manganese, zinc, copper, etc., promotes plant absorption and hardens the soil To prevent.

Organic matter generates organic acids, nucleic acids, vitamins, hormone antibiotics, amino acids, glucose, fructose, higher alcohols, maltose, lactic acid, glue fines, etc., which are advantageous for plant growth, due to the decomposition of microorganisms. Can withstand climate, improve quality and production. Organic fertilizers contain abundant microorganisms and secrete organic acids such as lactic acid and lemon acid into the soil and can be absorbed by plants, so that phosphoric acid can be substituted, and insoluble basic substances can be decomposed into plants. Can be absorbed. Most organic fertilizers can provide all the nutrient types required for plant growth, and problems such as nutrient imbalance and nutrient deficiencies that appear after long-term use of chemical fertilizers are unlikely to occur.

The principle of using microorganisms to convert straw into organic fertilizers consists of specific bacterial species (eg lactic acid bacteria, yeasts, photosynthetic bacteria, actinomycetes, etc.) and agitation of soy flour, straw or soil, etc. It has a function of helping decomposition and oxidation resistance, and after the cocoon and the medium are uniformly contacted, the specific microbial species in the medium is used to quickly decompose the cocoon into an organic fertilizer.

In the Oriental society, due to differences in food cooking methods and differences in food content, if the cocoons or oil components, or various residues, are not properly treated, they can easily become spoiled and dirty, and pollute the environment. The known current disposal method is to discard the soot without permission, and preferably package it alone before transporting it to a dedicated collection container. Needless to say, meeting the environmental requirements for cleanliness and hygiene due to the lack of centralized or automated processing.

In view of the above points, the present invention is used in a multi-storey building such as a building, a high-rise building, a condominium or a mansion, or a multi-storey building such as a street food, a restaurant or a supermarket food court. It is an object of the present invention to provide a kind of clean and effective soot processing apparatus for treating soot in a clean and clean manner.

In order to achieve the above-mentioned object, the dredge processing apparatus used in the multi-storey building provided by the present invention is:
A chute having a multi-stage type in each level of the multi-storey building, and having a slot in each stage for throwing firewood;
A suction means for generating a negative pressure for sucking the sputum by generating a negative pressure for suction in the chute; and
Collecting means connected to the end of the chute and used to collect the soot transferred via the chute.

In the soot treating apparatus according to the present invention, the suction means for generating the negative pressure is an air blower.

The apparatus further includes an exhaust fan and an exhaust pipe, the exhaust fan is used to generate an exhaust negative pressure in the chute, and the exhaust pipe is installed so as to be interconnected with the chute, It is used to discharge air in the chute through the exhaust negative pressure generated by the exhaust fan.

The chute body in the device is made of corrosion-resistant stainless steel or plastic tube.

In a preferred specific embodiment, each inlet in the apparatus is provided with a sealable lid.

In a preferred specific embodiment, the collecting means is a sealed reservoir and is provided with an airtight lid.

In this apparatus, the dwelling unit further includes a bag storage container for first collecting the baskets in the bag storage container and then putting them into the chute inlet. In a preferred specific embodiment, the bag storage container is a bag, which can be a bag-shaped or bottle-shaped container. In a more preferred specific embodiment, the straw storage container is made of a natural corn raw material or a biodegradable plastic material. In a preferred specific embodiment, biodegradable bacteria can be sprayed on the inner layer of the bag storage container in order to accelerate the decomposition of the bag.

Bag:
The bag used in the present invention includes a biodegradable bag, but is not limited thereto. Biodegradable soot bags mainly collect food waste and other biodegradable waste.
Commercially available BioBag is 100% biodegradable and the raw material consists of a biodegradable material such as starch. An important contribution to using BioBag is in reducing greenhouse gases and acid rain generation.

In the apparatus of the present invention, the collected soot is converted into organic fertilizer by adding a biotreatment agent to the collecting means.

The apparatus includes a starter that is disposed near each inlet of the chute and generates a start signal, and a processor that starts the operation of the suction unit that generates the negative pressure when the start signal is received. The apparatus further includes a device. In a preferred specific embodiment, the controller further comprises an altitude sensor located at a predetermined altitude within the collecting means and generating a notification signal to the processor when the stored soot reaches the predetermined altitude. Furthermore, in a preferred specific embodiment, the control device further comprises a weight sensor arranged at the bottom in the collecting means and generating another notification signal to the processor when the stored soot reaches a predetermined weight. .

A kind of vacuum suction / discharge soot processing device provided separately by the present invention is
A chute that includes at least one inlet for pouring firewood and is used to transfer firewood;
A suction means for generating a negative pressure for sucking the bag by generating a negative pressure for suction in the chute;
An exhaust fan for generating a negative pressure for exhaust in the chute and an exhaust pipe installed to be connected to the chute;
A collecting means connected to the end of the chute and collecting the soot transferred via the chute by suction negative pressure; and
A control device comprising an activation means and a processor arranged near at least one inlet of the chute. By constantly operating the exhaust fan through the control of the processor, the air in the chute can be discharged, and the suction means for generating the negative pressure throws the soot at at least one inlet of the chute. By actuating the actuating means after pressing or sensing it, the sputum is sucked.

厨 芥 Treatment method:
The following are known methods of prior art soot processing methods.
In the organic waste processing apparatus and method disclosed in Patent Document 1, aerobic microorganisms are propagated by adjusting the carbon-nitrogen ratio and providing sufficient oxygen through mixing of straw, soil and conditioning material. After the high temperature fermentation, the organic waste is ripened to form compost, and the odor generated by the high temperature fermentation decomposition is separately deodorized by the deodorizing unit, and the final compost is granulated and packaged.

In the koji treatment method disclosed in Patent Document 2, the koji is first coarsely pulverized, and fermented bacteria cultured with molasses are added in the coarse pulverization process, and then the koji is finely crushed and fermented with timely molasses. The fungus is added to give the potato a paste that is rich in fermenting bacteria, allowing liquid fermentation to take place, then mixing it with wood chips, and based on this, the moisture content is less than about 60% It can become an organic fertilizer by going through a solid fermentation process for 5 to 10 days.

In the rapid fermentation method disclosed in Patent Document 3, after collecting food waste, straw, organic sludge and animal and vegetable residues of organic waste, first, it is put into a temporary storage tank, and automatically taken out during operation to be a pretreatment tank. The cross-sectional area of the organic waste food residue is increased by grinding and grinding, and at the same time, excess water in the organic waste food residue is dehydrated, and salt, oil, seasonings, etc. Is removed, and then transferred to the mixing tank, adjusted to PH value and humidity and added to the microorganism, and then transferred to the fermenter, so that good fermentation conditions are reached, and at the same time sufficient air and temperature required for fermentation In a good environmental condition, the microorganisms grow rapidly and stably, and the organic matter is fermented to produce organic fertilizers or soil conditioners.

Patent Document 4 relates to a liquid processor for straw and includes a bio-treatment method using high-tech good bacteria for straw. After making straw and garbage into liquid organic fertilizer, it is led to the outside through a liquid organic fertilizer take-out pipe and collected. Water can be used to recycle trees, and the objectives of environmental conservation and garbage reduction can be achieved.

Patent Document 5 relates to a high-speed fermentation composting method, crushing organic waste, adjusting to an appropriate carbon nitrogen ratio and water content, and then placing it in a fermenter, and high temperature (60-100 ° C) conditions in the reaction vessel To eliminate harmful microorganisms in the raw material, increase the activity of thermophilic bacteria at the same time, allow for quick fermentation, and ferment the combination of AT enzyme composed of thermophilic bacteria and activated carbon It is characterized by being added to the machine and converting organic waste to organic fertilizer within 8-24 hours.

In the apparatus of the present invention, the collected soot is converted into organic fertilizer by adding a biotreatment agent to the collecting means.

Biotreating agent The biotreating agent used in the present invention is mainly biodegradable bacteria, and these bacteria include the following different microorganisms, but are not limited thereto.
1. Organic fertilizer-nitrogen-fixing bacteria: Fertilizer is produced by fixing natural nitrogen molecules as a nitrogen source.
2. Organic fertilizer-nitrifying bacteria: Toxic ammonia gas is converted to ammonia nitrate and supplied to plants for absorption.
3. Organic fertilizer-Phosphorus lytic bacteria: Dissolve insoluble phosphate in soil and convert it into phosphorus, iron and calcium fertilizer.
4. Organic fertilizer-Yeast: Manufactures vitamins, growth hormones, decomposes organic substances and enhances disease resistance.
5. Organic fertilizer-Lactic acid bacteria: Produces organic acid and enhances disease resistance of plants.
6. Organic fertilizers-photosynthetic bacteria: production of glucose, increased sugar content, enhanced coloration, removal of hydrogen sulfide / ammonia gas (detoxification, fertilizer production).
7. Organic fertilizers-Actinomycetes: long-term production of a certain amount of antibiotics to microorganisms to control disease.
8. Organic fertilizer-Plant growth-promoting fungus species: Produces a certain amount of plant growth hormone in the long term and promotes root, stem and leaf growth.

In a preferred specific embodiment, the biodegrading bacterium is selected from thermophilic bacteria, and the thermophilic bacteria are Bacillus stearothermophilus, Bacillus thermodenitificans, Bacillus thermodophilus, Um thermobillum (Bifidobacterium thermophilum), Brochothrix thermosphacta, Methanosarcina thermophila, Pseudonocardia thalophila varisto Vinegar subsp. Thermophilus (Streptococcus salivarius subsp. Thermophilus), Streptococcus thermophilus (Streptococcus thermophilus), Streptomyces thermo-tolerance (Streptomyces thermotolerans), Streptomyces Thermo radius Tati dregs (Streptomyces thermodiastaticus), Streptomyces thermophilus vulgaris (Streptomyces thermovulgaris), Streptomyces thermoviolaceus, Thermoactinomyces candidas (Thermoactinomy) es candidus), Thermo actinomycin Police polaritons sp. (Thermoactinopolyspora sp.), Thermomonosporas mesoviformis, Thermomonospora mesophila, Thermomospora mesophila (T. Select from Thermoactinomyces thalpophilus, Thermoactinomyces glaucus or Thermoactinomyces dichotomicus.

Republic of China Patent Publication No. 20053195 Republic of China Patent Publication No. 200712033 Republic of China Patent Publication No. 200406367 Taiwan Patent No. 00570044 Taiwan Patent No. 00502009

The soot processing apparatus of the present invention intensively transports soot to be discarded by a large number of users with a chute, and sucks the soot in the chute into a collection container using suction means that generates negative pressure. Since it also includes bio-processing, it can achieve efficiency, automation, and clean-up dredging, is easy to operate, and is suitable for environmental conservation requirements.

Specific examples of embodiments of the present invention are included in the detailed description and drawings described below, but the present invention is not limited to the embodiments disclosed below, and is based on what is disclosed by those skilled in the art. Of course, many modifications can be made without departing from the spirit of the present invention.

Hereinafter, an apparatus and a method for treating a wrinkle according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a sketch showing a firewood processing apparatus used in a multi-storey building according to one embodiment of the present invention. A so-called multi-storey building refers to a housing complex such as a building, a high-rise building, a condominium, or a mansion.

Referring to FIG. 1, the present invention provides a cocoon treatment apparatus 100 for use in a multi-storey building,
Its main body can be made of corrosion-resistant stainless steel or plastic pipe, its diameter is determined based on the environment, for example, 100-300mm, each level of the multi-storey building has one multi-stage type, Each stage is provided with an inlet 103, and each inlet is provided with a chute 102 having a sealing lid 104 to prevent leakage of odor, and a suction blower, for example, with a suction blower. Is generated, that is, an atmospheric pressure lower than the atmospheric pressure is generated in the chute, for example, a negative pressure is generated by maintaining the inside of the chute at 0.1 to 0.8 atmospheric pressure to suck the soot. The resulting suction means 101 and the chute connected to the end of the chute and collected through the chute by suction negative pressure can be collected to form a sealed storage cylinder, equipped with an airtight lid 106, and bioprocessed. Including collecting means 105 for the garbage collected by the addition of agents can be changed to an organic fertilizer.

In the present invention, the exhaust fan 107 and the exhaust pipe 108 can be further provided. The exhaust fan has a function of discharging odor in the chute, but does not affect the operation of the negative pressure suction means. A means for generating a negative pressure for exhaust can be used. This can generate a negative pressure significantly lower than the negative pressure generated by the suction means for generating the negative pressure in the chute. For example, by maintaining an atmospheric pressure of 0.8 to 0.99 in the chute, a negative pressure is formed and provided for exhausting air. The exhaust pipe is installed so as to be connected to the chute and exhausts the odor in the chute through the exhaust pipe through the exhaust negative pressure generated in the exhaust fan.

As will be appreciated by those skilled in the art, both the suction means for generating the negative pressure and the exhaust fan are provided with a ventilation duct interconnected with the chute, and in front of them to prevent ventilation and trapping. Provide a filter.

The bag processing apparatus according to the present invention further includes a bag storage container 109 for housing units in each floor to first collect the bag into the bag storage container and then put it into the chute slot. The bag storage container is a bag or a bag-like or bottle-like container. The straw storage container can be made of a natural corn raw material or a biodegradable plastic material, and biodegradable bacteria can be sprayed on the inner layer of the straw storage container in order to accelerate the decomposition of the straw. By using a bag, the bag can be transferred more smoothly and hygienically.

In the present invention, an activation unit 110 that is arranged near each input port of the chute and generates an activation signal, and a processor 111 that activates the operation of the suction unit that generates the negative pressure after receiving the activation signal of the activation unit. Further includes a control device (not shown in the figure). In addition, the control device further includes an altitude sensor 112 disposed at a predetermined altitude in the sealed storage cylinder and generating a notification signal to the processor when the stored soot reaches the predetermined altitude. The control device is disposed at the bottom of the sealed storage cylinder, and a weight sensor 113 is provided to notify a building manager and / or a building dwelling unit by generating a notification signal when the stored bag reaches a predetermined weight. In addition. As will be appreciated by those skilled in the art, the control device is an electronic module that controls the device, the design of which can vary depending on demand, for example, it controls the continuous operation of the exhaust fan. Thus, the air in the chute can be kept fresh, and when the dwelling unit in the first floor touches the activation means, the suction means that generates the negative pressure can be operated to suck the soot. In addition, when the operation of the apparatus is started, it is possible to design so that the suction means that generates the negative pressure can be maintained without the need for starting the starting means.

In addition, as those skilled in the art know, after putting the kite into the chute slot, it moves forward by gravitational acceleration. Even if it occurs, the soot that is transported in it can be sucked and smoothly advanced into the collecting means.

FIG. 2 is a sketch drawing showing a cocoon treatment apparatus used in a one-story building according to one embodiment of the present invention. A so-called one-storied building refers to a building such as a street stall, a supermarket food court, a restaurant (including two or more floors), and a shopping mall.

Referring to FIG. 2, the present invention provides a straw processing apparatus 200 for use in a one-story building.
Its main body can be made of corrosion-resistant stainless steel or plastic tube, its diameter can be determined based on the usage environment, for example, 100-300mm, it has one or more multi-stage type, and throws firewood The inlet 203 can be designed at each stage or at intervals of several stages, and each inlet is a chute 202 having a sealing lid 204 to prevent odor leakage and an intake blower, for example, a suction negative pressure in the chute. Is generated, that is, an atmospheric pressure lower than the atmospheric pressure is generated in the chute, for example, a negative pressure is generated by sucking soot by forming a negative pressure by maintaining the chute at 0.1 to 0.8 atmospheric pressure. Is connected to the end of the suction means 201 and the chute, and the soot transferred through the chute by negative pressure is collected, can be a sealed storage cylinder, is equipped with an airtight cover 206, independently It was designed as inlet, as well as collecting means 205 that can change the garbage collected by the addition of bio-treatment agent in an organic fertilizer.

In the present invention, an exhaust fan 207 and an exhaust pipe 208 can be further provided. As described above, the exhaust fan has a function of discharging odors in the chute, but does not affect the operation of the negative pressure suction means, and therefore can be used as a means for generating a negative pressure for exhaust in the chute. . For example, by maintaining an atmospheric pressure of 0.8 to 0.99 atmospheric pressure in the chute, a negative pressure is formed and provided for exhaust. The exhaust pipe is installed so as to be connected to the chute and exhausts the odor in the chute through the exhaust pipe through the exhaust negative pressure generated in the exhaust fan. The ventilator generally operates continuously for 24 hours.

The bag processing apparatus of the present invention further includes a bag storage container 209 for users at each stage to first collect the bag into the bag storage container and then put it into the charging port of the chute. The bag storage container is a bag or a bag-like or bottle-like container. The cocoon storage container is made of a natural corn raw material or a biodegradable plastic material, and biodegradable bacteria can be sprayed on the inner layer of the cocoon storage container in order to accelerate decomposition of the cocoon.

In the present invention, an activation means 210 that is arranged near each input port of the chute and generates an activation signal, and a processor 211 that activates the operation of the suction means that generates the negative pressure after receiving the activation signal of the activation means. Further includes a control device (not shown in the figure). In addition, the control device further includes an altitude sensor 212 which is arranged at a predetermined altitude in the sealed storage cylinder and generates a notification signal to notify the user when the stored soot reaches the predetermined altitude. The control device further includes a weight sensor 213 which is disposed at the bottom of the sealed storage cylinder and generates a separate notification signal to notify the user when the stored soot reaches a predetermined weight.

In this embodiment of the present invention, the exhaust fan, the exhaust pipe and the control device can be used in combination at the same time. In other words, the control device can maintain the freshness of the air in the chute by controlling the continuous operation of the exhaust fan, and after the user touches the starting means, operates the suction means that generates the negative pressure. By generating negative pressure for suction and sucking soot to the collecting means, convenience is given to the use of a one-story building (for example, a restaurant, a night market, a supermarket food court, etc.).

It is a sketch which shows the scissor processing apparatus used for the multi-storey building of one embodiment of this invention. It is a sketch which shows the scissor processing apparatus used in the one-story building of one embodiment of this invention.

Explanation of symbols

100, 200 Saddle treatment device 101, 201 Suction means 102, 202 chute 103, 203 inlet 104, 204 inlet lid 105, 205 collecting means (storage cylinder) for generating negative pressure
106, 206 Cover 107 of storage cylinder 107, 207 Exhaust machine 108, 208 Exhaust pipe 109, 209 厨 芥 Storage container 110, 210 Start-up means 111, 211 Processor 112, 212 Altitude sensor 113, 213 Weight sensor

Claims (29)

A cocoon treatment device used for a kind of multi-storey building,
Each level of the multi-storey building has a multi-stage type, each stage for throwing firewood, or a chute that has inlets at intervals of several stages,
A suction means for generating a negative pressure for sucking the sputum by generating a negative pressure for suction in the chute; and
A soot processing apparatus comprising: a collecting means connected to the end of the chute and used for collecting soot transferred through the chute. 2. The soot processing apparatus according to claim 1, wherein the suction means for generating the negative pressure is an intake air blower. 2. The soot treatment device according to claim 1, wherein the exhaust is configured to generate a negative pressure for exhaust in the chute and is connected to the chute so as to be connected to the chute, and the chute is generated by the negative pressure generated by the exhaust A soot treatment device further comprising an exhaust pipe for discharging the air inside. The soot processing apparatus according to claim 1, wherein each of the inlets is provided with a sealing lid. 2. The soot processing apparatus according to claim 1, wherein the collecting means is a sealed storage cylinder and includes an airtight lid. 2. The scissor treatment apparatus according to claim 1, further comprising a scissor storage container for the dwelling units of each level to collect the spears first and then put them into the chute inlet. The bag processing apparatus according to claim 6, wherein the bag storage container is a bag. 7. The bag processing apparatus according to claim 6, wherein the bag storage container is a bag-shaped or bottle-shaped container. 2. The soot processing apparatus according to claim 1, wherein the main body of the chute is made of corrosion-resistant stainless steel or a plastic tube. The cocoon processing apparatus according to claim 6, wherein the cocoon storage container is made of a natural corn raw material or a biodegradable plastic material. The cocoon treatment apparatus according to claim 6, wherein the decomposition of the cocoon can be accelerated by spraying biodegradable bacteria on the inner layer of the cocoon storage container. 2. The cocoon treatment apparatus according to claim 1, wherein the biotreatment agent is added to the collecting means, and the collected cocoon can be converted into organic fertilizer by designing as an independent input port. 2. The dredge processing apparatus according to claim 1, wherein an operation of a starting means for generating a starting signal, and a suction means for generating the negative pressure when receiving the starting signal, are arranged near each input port of the chute. A soot processing device, further comprising a control device having a processor to be activated. 14. The dredge processing apparatus according to claim 13, wherein the control device further includes an altitude sensor disposed at a predetermined altitude in the collecting means and generating a notification signal to the processor when the stored dredge reaches the predetermined altitude. A wrinkle treatment device characterized by the above. 14. The soot processing apparatus according to claim 13, wherein the control device further includes a weight sensor disposed at the bottom of the collecting means and generating another notification signal to the processor when the stored soot reaches a predetermined weight. A wrinkle treatment device characterized by the above. It is a kind of vacuum suction / discharge dredge processing device,
A chute that includes at least one inlet for pouring firewood and is used to transfer firewood;
A suction means for generating a negative pressure for sucking soot by generating a negative pressure for suction in the chute;
An exhaust fan for generating an exhaust negative pressure in the chute, and an exhaust pipe installed to be connected to the chute,
A collecting means connected to the end of the chute and collecting the soot transferred via the chute by suction negative pressure; and
A control device comprising activation means and a processor arranged near at least one inlet of the chute,
Through the control of the processor, by constantly operating the exhaust fan, the air in the chute can be discharged, and when the suction means for generating the negative pressure throws the soot at at least one inlet of the chute, A wrinkle treatment device that sucks wrinkles by actuating the actuating means after being pressed or sensed. 17. The apparatus according to claim 16, wherein the suction means for generating the negative pressure is an intake air blower. 17. The apparatus according to claim 16, wherein the collecting means is a sealed storage cylinder and comprises an airtight lid. 17. A device according to claim 16, characterized in that a sealing lid is provided on at least one inlet of the chute. 17. The apparatus according to claim 16, further comprising a bag storage container for the user to first collect the bag and then put it into the slot of the chute. The apparatus according to claim 16, wherein the chute is made of corrosion-resistant stainless steel or plastic pipe. 21. The apparatus according to claim 20, wherein the straw storage container is made of a natural corn raw material or a biodegradable plastic material. 21. The apparatus according to claim 20, wherein the cocoon can be decomposed by spraying biodegradable bacteria on the inner layer of the cocoon storage container. 17. The apparatus according to claim 16, wherein the chute is a multistage type and has an inlet for each stage or several stages. 17. The apparatus according to claim 16, wherein the collected straw is converted into organic fertilizer by providing another inlet for adding a biotreatment agent to the collecting means. 21. The device according to claim 20, wherein the bag storage container is a bag. 21. The apparatus according to claim 20, wherein the basket storage container is a bowl-shaped or bottle-shaped container. 19. The apparatus according to claim 18, wherein the control device further includes an altitude sensor disposed at a predetermined altitude in the sealed storage cylinder and generating a notification signal to the processor when the stored soot reaches the predetermined altitude. A device characterized by. 19. The apparatus of claim 18, wherein the control device further includes a weight sensor disposed at the bottom of the hermetically sealed storage cylinder and causing the processor to generate another notification signal when the stored soot reaches a predetermined weight. A device characterized by.

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