WO2024044802A1

WO2024044802A1 - Method and device for composting biowaste using a worm reactor

Info

Publication number: WO2024044802A1
Application number: PCT/AT2023/060286
Authority: WO
Inventors: David WITZENEDER
Original assignee: Wormsystems Gmbh
Priority date: 2022-09-01
Filing date: 2023-08-23
Publication date: 2024-03-07
Also published as: AT525665B1; AT525665A4

Abstract

The invention relates to a device for composting biowaste (1) using a worm reactor (2), wherein an insertion opening (6) is provided in order to fill the worm reactor (2). The aim of the invention is to allow a device for composting biowaste using a worm reactor to be provided with which a high-quality worm humus can be produced even with a plurality of different inexperienced users without negatively impacting the ecological balance in the worm reactor in the process. According to the invention, this is achieved in that the worm reactor (2) is paired with a sensor (7a, 7b, 7c) for detecting the actual value of the worm reactor contents (3), the insert opening (6) can be closed by a closure unit (9), and the closure unit (9) and the sensor (7a, 7b, 7c) are connected to a control unit (8) which actuates the closure unit (9) on the basis of the detected actual value and a specified target value range.

Description

METHOD AND DEVICE FOR COMPOSTING ORGANIC WASTE USING A WORM REACTOR

Technical area

The invention relates to a device for composting organic waste with a worm reactor, an insertion opening being provided for filling the worm reactor. The invention also relates to a method for composting organic waste with a worm reactor having an insertion opening, wherein organic waste is converted by worms in the worm reactor.

State of the art

Worm reactors are used to compost organic waste using earthworms, which convert the organic waste into worm humus. The worm reactor is a compact container in which there is substrate, for example soil or already converted humus, and in which a large number of worms live in order to convert the organic waste thrown in. This has the advantage that composting can also take place in closed living spaces, so that an ecological circular economy can be practiced, especially in urban residential areas with little open space.

From CN208577646U a device for composting organic waste with a worm reactor is known. The device has an insertion opening for filling the worm reactor. A liquid created during composting can be fed to a greening area arranged above the worm reactor. Basically, the problem underlying worm composting is that for effective worm composting, the worm reactor must be in an optimal ecological balance for the worms, otherwise the worm humus quality is inadequate or the worms can even die. Especially this Adding widely varying amounts of organic waste and problematic substances, such as meat, dairy products, etc., leads to a strain on the environment in the worm reactor and thus on the composting conditions. For this reason, in order to compost properly, a user of the worm box must, on the one hand, have a minimum level of experience and, on the other hand, have an overview of the worm reactor contents at all times, so that worm reactors have so far only become established in private use.

Presentation of the invention

The invention is therefore based on the object of proposing a device for composting organic waste with a worm reactor, with which high-quality worm humus can be produced even by a large number of different and inexperienced users, without negatively influencing the ecological balance in the worm reactor.

The invention solves the problem in that the worm reactor is assigned a sensor for detecting an actual value of the worm reactor contents, that the insertion opening can be closed with a closure unit and that the closure unit and the sensor with a closure unit depending on the detected actual value and a control unit actuating a predetermined setpoint range. As a result of the measures according to the invention, the worm reactor contents are constantly monitored, so that the conditions and the environment in the worm reactor can be deduced from the recorded actual value. To record the actual value, for example, a weight sensor, a volume sensor, a camera for monitoring any foreign bodies, a moisture sensor, a gas sensor and/or a temperature sensor can be used. Accordingly, it is not necessary for a user to have an overview of the current worm reactor contents. As long as the actual value is within a predetermined target value range, it can be assumed that the necessary ecological balance can be achieved with the existing worm reactor contents, so that the user can fill the worm reactor without hesitation. However, it is done by filling the worm reactor the recorded actual value is changed so that it is no longer within the target value range and there is therefore a risk of a shift in the balance or a deterioration in the environment, the closure unit is actuated by the control unit depending on the recorded actual value and the specified target value range, so that the worm reactor cannot be filled any further. If the desired environment returns after a while, for example by processing or removing part of the worm reactor contents, the insertion opening can be opened again by the control unit. In this way, even inexperienced users can use the worm reactor without hesitation because the monitoring of the environment is automated. In addition, no overview of the current worm reactor contents is necessary, so that the device can also be used by several users. In particular, this makes it possible to use the device in public areas. Different values can be used as actual values to be compared, which enable a conclusion to be drawn about the balance or environment of the worm reactor contents. For example, the amount of worm reactor contents can be used as the actual value. If the amount of worm reactor content exceeds the upper limit of the setpoint range, it must be assumed that the worms, especially the earthworms, are overloaded. In order to avoid underfeeding, the amount of worm reactor contents can also be compared with a predetermined minimum amount, with the control unit issuing an alarm signal if the amount falls below this minimum amount. The control unit can transmit such an alarm signal to users or to the operator of the device, for example via an app. However, a recorded number of foreign bodies or problem substances and/or the temperature and/or the humidity in the worm reactor can also be used as actual values. A flap with an actuator that covers the opening of the worm reactor can be provided as a closure unit. For protection, the worm reactor can be arranged in a body surrounding the worm reactor. The body can have the opening including the closure unit. The worm reactor can be filled with substrate, for example humus or soil, with organic waste and with worms as worm reactor contents. In order to accelerate worm composting and at the same time make it more economical, it is proposed that the worm reactor has a liquid drain on the bottom, under which a receiving basin is arranged, which is fluidly connected to a spray device that can be controlled by the control unit for wetting the worm reactor contents. It has been shown that when the organic waste is converted, the worms secrete a secretion whose microorganisms particularly promote the conversion of problematic substances. Due to gravity, this secretion collects together with other liquids at the bottom of the worm reactor. Through the liquid drain, for example simple passage openings at the bottom of the worm reactor, the liquid can be collected and fed back into the worm reactor. At the same time, water to be supplied to moisten the worm reactor contents can be saved. The spray device for wetting can also be fed with fresh water or rainwater. The receiving basin can have an overflow for draining excess liquid. The control unit can be connected to a moisture sensor in the worm reactor so that the control unit only activates the spray device when the environment in the worm reactor is too dry.

An extremely precise control of the optimal environment in the worm reactor results when the sensor for detecting the actual value of the worm reactor contents is a load cell against which the worm reactor is supported. By gravimetrically determining the contents of the worm reactor, a clearly defined target value range can be specified if the conversion rate of the worms is known. At the same time, other factors such as excessive moisture or heavy foreign bodies can also be concluded based on the mass.

In order, on the one hand, to promote the longevity of the load cell and, on the other hand, to create conditions that allow an exact gravimetric determination of the worm reactor contents, it is proposed that the load cell be arranged in a liquid-free area. For this purpose, the weighing cell, for example comprising a strain gauge or piezo elements, can be arranged in or on a suspension for the worm reactor. In this way it will at the same time advantageously promotes the outflow of liquid collected in the worm reactor through any liquid drain and creates space for a possible receiving basin for recycling the collected liquid.

Especially if there are a large number of users, improper handling can result in the device being overloaded. So that the device can be used safely in public areas without being exposed to the risk of disturbing the environment, the control unit can be connected to an identification unit to operate the locking unit depending on a user ID. In this way, on the one hand, only a specific group of people can use the device and, on the other hand, when using appropriate sensors, such as a camera aimed at the worm reactor contents, it is possible to assign the thrown-in organic waste to the respective user, so that improper disposal can be traced. In addition, a recognized user can be assigned a profile via an app, for example, which shows key figures such as the amount of organic waste disposed of, CO2 savings, etc. This information can be used as a basis for calculating a reward system for users. A sensor for an RFID chip, an access code input unit, a Bluetooth interface for registration, an Internet interface for connecting to an app located on a mobile device or the like can be used as the identification unit. The control unit is set up in such a way that it only releases the locking unit for opening if the conditions regarding the actual value and the setpoint range are met.

So that the device can be used in a resource-saving manner even in hot climatic environments, it is proposed that a green area with a rainwater drain connected to the receiving basin is provided above the worm reactor. The green area acts as a natural shade provider and regulates the Temperature in the worm reactor. At the same time, the rainwater collected in the greening area can be fed to the receiving basin via a rainwater drain. The mixing ratio between rainwater, other water sources and the worm secretion can be adjusted using valves connected to the control unit.

In order, on the one hand, to prevent unwanted settlement of insects in the worm reactor contents and, on the other hand, to be able to control the environment in the worm reactor contents even more precisely, a ventilation unit can be provided for regulating the worm reactor climate, preferably depending on a predeterminable temperature and/or humidity value. This can be connected via the control unit to a temperature sensor and/or to a humidity sensor, so that an on or off signal is generated depending on their measurement signals. Switching off the ventilation unit is possible. For example, the ventilation unit can be switched on when a predetermined temperature and/or humidity value is exceeded and switched off when the value falls below this value.

The device can be used in a method for composting organic waste with a worm reactor having an insertion opening, with organic waste being converted by worms in the worm reactor. In order to create a composting process that produces high-quality humus, regardless of the user's experience and the number of users, it is proposed that a sensor records an actual value of the worm reactor contents, and the insertion opening is closed by a closure unit when the recorded actual value is -Value is outside a specified target value range. This means that the possibility of filling the worm reactor does not depend on the user's subjective assessment, but rather on concretely recorded actual values. A significant increase in humus quality can be achieved if the liquid created by the worms during composting is collected and used to wet the worm reactor contents. The liquid contains worm secretion enriched with microorganisms, which on the one hand promotes the breakdown of problem substances and on the other hand inhibits unwanted insect formation. The collected liquid can be diluted with fresh or industrial water, before it is fed to the worm reactor. In order to protect the method from unauthorized interference, a user identification can be carried out via an identification unit and the insertion opening can only be released by the locking unit if the user identification corresponds to a predetermined access profile and the recorded actual value is within a predetermined target value range. The access profile I can be stored on the control unit or on a server connected to the control unit via a network.

Brief description of the invention

The subject matter of the invention is shown, for example, in the drawing.

Way to carry out the invention

A device according to the invention for composting organic waste 1 has a worm reactor 2, which can be filled with worm reactor contents 3, for example substrate 4, organic waste 1 and worms 5, namely earthworms. In the worm reactor 2, organic waste 1 is converted into worm humus by the worms 5. The worm reactor 2 can be fed via an insertion opening 6. In order to prevent the worms 5 from being overloaded, a sensor 7a, 7b, 7c is provided for detecting the worm reactor contents 3. For this purpose, a control unit 8 is connected to the sensor 7a, 7b, 7c and to a closure unit 9 for closing the insertion opening 6 and closes the insertion opening 6 with the closure unit 9 when the sensor 7a, 7b, 7c detects an actual value of the worm reactor contents 3 , which lies outside a setpoint range. The closure unit 9 can be formed by a flap 11 that can be controlled via a motor 10. A camera 7b can be used as a sensor 7a, 7b, 7c, which allows the quantity of the worm reactor contents 3 to be determined or the number of problem substances to be determined. If the amount of the worm reactor contents 3 or the problem substances exceeds a predetermined setpoint range that can be stored on the control unit 8, the insertion opening 6 is blocked. A temperature and/or humidity sensor 7c can also be used as a sensor 7a, 7b, 7c become. Particularly easy to measure criteria with regard to the worm reactor contents 3 arise if one or more load cells 7a are provided as sensors 7a, 7b, 7c, against which the worm reactor 2 is supported. If the detected mass of the worm reactor contents 3 exceeds a predetermined setpoint range, the insertion opening 6 is closed.

In order to counteract a fouling process in the worm reactor 2, it can have a liquid drain 11 on the bottom, which in the simplest case can be formed by openings 12 in the bottom of the worm reactor 2. A receiving basin 13 can be arranged under the liquid drain 11, in which liquid flowing out of the worm reactor 2 is collected and can be conveyed via a pump 14 connected to the control unit 8 to a spray device 15 for wetting the worm reactor contents 3. The receiving basin 13 can have an overflow basin 16 with a drain 17.

So that the liquid can drain sufficiently from the worm reactor 2 unhindered, the weighing cell 7a can be arranged in a liquid-free area. For example, several load cells 7a can form a suspension for the worm reactor 2, so that it is suspended hanging at a distance from the ground. In this way, waterlogging can be prevented in a particularly effective way. At the same time, the worm reactor 2 can be easily replaced and can be guided through a door, not shown.

So that the device is only accessible to a predeterminable group of people, the control unit 8 can be connected to an identification unit 18 for actuating the locking unit 9, the insertion opening 6 being released by the locking unit 9 only if a user identification carried out by the identification unit 18 corresponds to a predetermined one Access profile corresponds and the recorded actual value is within a specified target value range. The worm reactor 2 including other components can be arranged in a body 19 to increase operational safety. Above the worm reactor 2, for example, a green area 20 can be provided on the roof of the body 19, which has a rainwater drain 21 which is flow-connected to the receiving basin 13. To regulate the supply of rainwater, a valve 22 that can be controlled via the control unit 8 can be provided. A further temperature and/or liquid sensor 23 can be arranged in the greening area 20.

To control the temperature and influence the humidity in the worm reactor 2, a ventilation unit 24 can be provided, which can be controlled via the control unit 8.

Claims

Patent claims

1. Device for composting organic waste (1) with a worm reactor (2), an insertion opening (6) being provided for filling the worm reactor (2), characterized in that the worm reactor (2) is provided with a sensor (7a, 7b, 7c ) for detecting an actual value of the worm reactor contents (3) is assigned that the insertion opening (6) can be closed with a closure unit (9) and that the closure unit (9) and the sensor (7a, 7b, 7c) with a the closure unit (9) depending on the recorded actual value and a predetermined setpoint range actuating control unit (8) are connected.

2. Device according to claim 1, characterized in that the worm reactor (2) has a liquid drain (11) on the bottom, under which a receiving basin is arranged, which is equipped with a spray device (15) which can be controlled by the control unit (8) for wetting the worm reactor contents ( 3) is fluidly connected.

3. Device according to claim 1 or 2, characterized in that the sensor (7a, 7b, 7c) is a load cell (7a) against which the worm reactor (2) is supported.

4. Device according to claim 3, characterized in that the weighing cell (7a) is arranged in a liquid-free area.

5. Device according to one of claims 1 to 4, characterized in that for actuating the locking unit (9) depending on a user identification, the control unit is connected to an identification unit (18).

6. Device according to one of claims 2 to 5, characterized in that a greening area with a rainwater drain connected to the receiving basin is provided above the worm reactor.

7. Device according to one of claims 1 to 6, characterized by a ventilation unit (24) for regulating the worm reactor climate.

8. A method for composting organic waste with a worm reactor (2) having an insertion opening (6), wherein organic waste (1) is converted by worms (5) in the worm reactor (2), characterized in that a sensor

(7a, 7b, 7c) detects an actual value of the worm reactor contents (3), and the insertion opening (6) is closed by a closure unit (9) when the detected actual value is outside a predetermined target value range.

9. The method according to claim 8, characterized in that the liquid created during composting by the worms (5) is collected and used to wet the worm reactor contents (3).

10. The method according to claim 8 or 9, characterized in that a user identification is carried out via an identification unit (18) and the insertion opening (6) is only released by the locking unit (9) if the user identification corresponds to a predetermined access profile and the recorded Actual value is within a specified setpoint range.