BE1029326B1 - DEVICE FOR INTRODUCING GRANULATES INTO THE SOIL - Google Patents

Abstract

This invention relates to a device (1) for introducing granules into the soil, comprising a mobile frame (2) and insertion means (3) suitable for inserting granules into the soil, the insertion means (3) comprising at least one launching device (4 ) which is provided for introducing a granulate container (5) provided with granulate under high launching pressure into the soil with the aid of a flammable gas mixture. Since this device (1) uses projection after ignition of a gas, preferably a mixture of hydrogen and air, mechanical contact is no longer required between the parts of the device (1) that are responsible for the bottoming of the granulate container (5) and the bottom itself, as a result of which hardly any wear will occur to the components of the device (1) and the granulate (13) can be distributed more accurately in the bottom according to a three-dimensional pattern.

Description

DEVICE FOR INTRODUCING GRANULATES INTO THE SOIL This invention relates on the one hand to a device for introducing granules into the soil, preferably via a granulate container filled with granulate, comprising a mobile frame and insertion means suitable for introducing granules into the soil, at preferably provide the granules container with granules.

On the other hand, this invention describes a granulate container which is suitable for introducing granulate into the soil via such a device.

The granulate is preferably a soil improver.

The granulate may comprise a fertilizer, lime, a water retention product, insecticides and/or herbicides.

In drier areas it is known to apply water-retaining granules, which are products that can absorb up to 40 times their own volume of water, in the soil.

The water-retaining granulate will absorb rainwater in humid periods and release the absorbed water back to the soil in drier periods.

In this way, damage to the plants due to drought is avoided.

There is also less leaching of minerals from the soil.

The presence of such granulates also ensures a deeper root structure of the vegetation.

A number of systems are known in agriculture and horticulture for introducing granules into the soil.

The top layer of the soil is mixed with the granulate.

Such systems are equipped with cutting coulters or blades that make a slot in the soil surface.

The trench is then filled with granulate and possibly mixed with sand.

However, these known systems damage the soil and are not suitable for smaller surfaces, such as urban gardens.

According to another known device, which is described in Belgian patent publication BE 1013670, the soil is injected with water, liquid fertilizer, etc. using injection needles that penetrate the soil.

Such a device will cause less damage to the bottom surface.

The injection needles are subject to wear and tear, which means that they must be replaced at regular intervals. Furthermore, this device is quite slow, there is a great risk of clogging of the injection needles, the injection depth is difficult to adjust and the needles can be damaged if they come into contact with stones in the subsoil.

The American patent publication US 2015/142250 describes a device for introducing granules into the soil, comprising a mobile frame and insertion means suitable for introducing granules into the soil, wherein in one of the described embodiments the insertion means comprise an air pressure system that is provided with is to introduce a pellet into the soil using air.

However, with the described system only a shallow (a few mm to a maximum of 1 cm) penetration of the soil is possible, which is just sufficient to increase the germination chances of the seed.

The object of this invention is to provide a device for introducing granules into the soil in which the granules can be introduced into the soil quickly, efficiently and sufficiently deep to have an effect on the deeper root growth of the plants, and this in a manner whereby virtually no damage is caused to the soil surface.

The object of the invention is achieved by providing a device for introducing granules into the soil, comprising a mobile frame and insertion means suitable for introducing granules into the soil, the insertion means comprising at least one launching device which is provided for launching a granulate container provided with granulate to be introduced into the soil under high launching pressure, wherein the insertion means comprise at least one row of at least two launching devices placed next to each other, and each launching device is provided for launching the granulate container through a pressure wave resulting from the ignition of a flammable mixture bring to the bottom. The ignition (ignition) of the flammable mixture (explosive mixture) will generate a forward thrust due to the occurring expansion and pressure wave, which will propel the granulate container out of the launcher. The generated thrust is sufficient to drive the granulate container sufficiently deep into the soil. Said launching devices are preferably arranged vertically or almost vertically, so that the launched granulate containers move in the direction of the bottom.

Within the scope of this invention, the term "high launch pressure" is understood to mean a pressure of 30 to 140 bar, preferably 110 bar, and the term "sufficiently deep", a depth for deeper root growth of grass, preferably a depth between 5 cm. and 25 cm, preferably a depth of between cm. and 20 cm.

10 The mobile frame is mobile: in supported form on the lifting device of a vehicle, e.g. a tractor, pulled by a vehicle, e.g. tracked undercarriage.

Since the device according to this invention uses the pressure wave (gases) that arises after ignition of the flammable mixture to launch a granulate container in the direction of a bottom, mechanical contact is no longer required between the parts of the the device responsible for introducing the granulate container into the bottom and the bottom itself, as a result of which hardly any wear will occur on the parts of the device. Moreover, with this device, the granulate can be distributed more accurately in the soil according to a three-dimensional pattern. This way of working makes it possible to treat larger surfaces per hour. The pressure wave is created by ignition of a gas mixture that is preferably pressurized in an ignition chamber. The launch pressure determines the depth to which the granulate containers can be placed in the soil. With the device according to the invention it is possible to empty the granulate containers to a desired depth, preferably 15 cm. to 20 cm.

to bring deep. To this end, this invention provides a launch pressure of preferably 30 bar to 140 bar, in particular 110 bar.

In a particular embodiment of the device according to the invention, the launching device comprises a: - launching chamber into which a granulate container can be fed, - supply means for feeding a granulate container into the launching chamber; - a launch tube connecting to the launch chamber, - an ignition chamber provided for temporarily storing a flammable mixture; - provide ignition means to ignite the flammable mixture present in the ignition chamber.

In a preferred embodiment, the launcher according to the invention comprises a mixing chamber communicating with the firing chamber and arranged for mixing at least two gases into a flammable mixture. The flammable mixture is preferably a mixture of hydrogen and air or oxygen. The use of hydrogen has the advantage that the reaction products that arise after combustion have no negative ecological impact.

The hydrogen gas and air (or oxygen) are combined in the mixing chamber according to a specific (mixing) ratio. Preferably, the flammable mixture has a Lambda value of 2.

The pressure with which both gases are brought together in the mixing chamber can be set, such as for example 8 bar. This (flammable) mixture will be introduced into the ignition chamber via an inlet valve. The mixing ratio and pressure at which both gases are introduced into the ignition chamber will determine the efficiency of the combustion and the strength of the pressure wave it creates.

The mixture ignites with the aid of the ignition means, the ignition means preferably being formed by an ignition candle.

Such an ignition candle comprises two electrodes between which a spark-over takes place. The ignition of the mixture will generate a pressure wave that will push the granulate carrier away. The granulate carrier will gain speed in the launch tube and then penetrate the bottom. After the granulate carrier 1 has been launched, a new granulate carrier will be placed in the launch chamber, where it will be held temporarily with a certain (adjustable) clamping force. In a more preferred embodiment of the device according to the invention, the launching device comprises compression means (pressure-increasing system), for example using a mechanical plunger, to compress the flammable mixture in the ignition chamber. With these compression means the pressure of the flammable mixture for ignition in the ignition chamber can be increased. The higher pressure in the ignition chamber will improve the ignition, making the time of ignition controllable. This makes it possible to introduce granulate containers into the soil in a controlled manner.

According to a special embodiment, the device according to the invention comprises a pressure vessel for hydrogen (Hb). The hydrogen gas is stored under high pressure (approximately 200 to 300 bar) in the pressure vessel.

In a preferred embodiment, the device according to the invention comprises a pressure vessel for oxygen and/or an air compressor. The compressor is suitable (provided) for adding pressurized air to the hydrogen gas in the mixing chamber.

The launch tube preferably has a length of at least 30 cm. In a preferred embodiment, the launch tube is provided with a sound-absorbing material.

The device according to the invention also makes it possible to adjust the dosage and application pattern of the granulate container as a function of the soil. The number of launchers is chosen according to the working width. With a working width of 60 cm, in a preferred embodiment 5 to 8, preferably 7, vertically arranged launching devices can be placed next to each other.

With a larger working width, for example 120 cm. for example, up to 15 to 20 launchers can be placed per row.

In an advantageous embodiment, the distance between the launching devices placed next to each other is adjustable.

By adjusting the spacing, the placement pattern can also be adjusted. preferably the distance between two launching devices placed next to each other is between 8 and 20 cm, preferably of 10 cm. up to 15 cm.

The launch pressure is preferably adjustable per launch device.

By setting the launch pressure, the depth at which the granulate container will be introduced into the soil can be determined.

In addition to setting the launch pressure, the following control options are also available on the device according to the invention: e the launch frequency: this allows the density of the perforations — where the granulate container penetrates the bottom — to be adjusted (according to the direction of movement of the device) ; e whether or not to launch: this can influence the image of the bottom perforation pattern; The spacing of the launchers in a row is adjustable so that the distance between the perforations can be adjusted in a direction transverse to the direction of propulsion.

The granulate container can be introduced into the soil in a three-dimensional pattern via the control options described.

The introduction of colorant components into the granulate container can ensure that drawings (figures) can be applied to the bottom surface.

According to a more particular embodiment of the device according to the invention, the device comprises drive means.

Preferably there are first drive means for the compressors, preferably in the form of an internal combustion engine.

Furthermore, there are second drive means for the caterpillar undercarriage in the form of electric motors.

The device may further comprise a battery pack for the electric motors.

In a most particular embodiment of the device according to the invention, the supply means comprise a connecting guide and the device comprises one or more magazines suitable for temporarily storing granulate containers, which are connected to the launching chamber via the connecting guide.

Preferably, a magazine is provided per launching device.

The magazine (or storage container) is preferably moisture-free and provides that the granulate container can be stored in the dark.

The magazine is preferably closable with a lid.

The granulate holders are preferably provided loosely in the magazine or provided on a granulate holder cord that is wound on a spool provided in the magazine.

In the case of a granulate holder cord, the various granulate holders are attached one after the other to a carrier (cord). In an advantageous embodiment of the device, the said launching devices extend in use in a vertical or substantially vertical direction, the outlet openings, in particular the outlet opening provided on the end of the launching tube, of the launching devices extending a maximum of 20 cm. located above the bottom.

By inserting the granulate container into the soil from a low height, it is possible to work with high precision.

This invention furthermore describes a granulate container suitable for receiving one or more granulate, the granulate container having a spherical or spherical design.

The granulate container is the transport medium of the granulate.

Preferably, the container comprises an organic binder and/or baked clay for holding together or enclosing the granulate in said form.

Due to the choice of the material from which the container is made, it is biodegradable.

The granulate container according to the invention is sturdy, retains its shape (minimum shape tolerance) and has minimal air resistance due to its specific shape.

In a preferred embodiment of the granulate container, the granulate contained in the container is a mixture comprising one or more water-absorbing polymers, fertilizers, minerals, soil improver and/or herbicides or pesticides. To adjust the pH value of the soil, lime can also be included in the granulate container. In a more preferred embodiment, the granulate container comprises on its outer surface one or more fracture lines along which the granulate container can break and/or comprises water-soluble elements that render the granulate container porous in order to release the active components of the enclosed granulate into the soil. If the outer surface (or parts of the binder) of the granulate container contains water-soluble elements, these will dissolve upon contact with water (present in the soil) and the active ingredients can be released into the soil.

According to a special embodiment of the granulate container, the container has a volume of 2 cm? up to 5 cm'. The granulate container is particularly suitable for being introduced into the soil via a device according to the invention. The granulate container can also be provided with a specific coating to make the container water-repellent so that it can be stored dry. Other coatings can also be applied, for example to reduce the frictional resistance during launch, or additional active substances can be applied via a coating, etc. . A soil in which such a container with granulate has been placed will also be less subject to leaching, achieve better germination, give rise to stronger and deeper root development and have a higher resistance to drought stress and diseases.

In order to further elucidate the features of this invention and to point out additional advantages and details thereof, a more detailed description of the device according to the invention now follows.

It should be understood that nothing in the following description should be interpreted as limiting the protection claimed in the claims.

In this description, reference is made to the accompanying drawings, in which: - figures I and 2: are a perspective representation of the device according to the invention; figure 3: shows a side view (section) of the device shown in figures I and 2; figure 4: shows a section of a launching device; figure 5: shows a possible embodiment of a granulate container.

This invention relates to a device (1) for introducing granules into the soil by means of a carrier, transport medium or granulate container (5) specifically designed for this purpose, which is suitable for receiving one or more granulate (13) (substrates). Within the scope of this invention, the term “granules” should be understood to mean: active particles that will enrich the soil, such as, for example, hydroabsorbent polymers, minerals, soil improvers, fertilizers, etc. The device (1) according to the invention and as shown in Figure 1, comprises a frame (2) which is movable via a caterpillar undercarriage (14).

The frame (2) is furthermore provided with insertion means (3) which are suitable for inserting the granulate containers (5) into the soil.

It is important that the granulate containers (5) are placed sufficiently deep (approximately between 10 cm and 20 cm) in the soil without causing much damage to the soil surface.

The insertion means (3) must also be able to insert the container (5) with granulate (13) into the soil sufficiently quickly (at the desired depth) so that it is economically justified to use the device (1).

In order to place the granulate containers (5) efficiently and quickly and at a sufficient depth in the soil, the insertion means (3) comprise a number of vertically arranged launching devices (4) which are provided to launch a granulate container (5) provided with granulate (13) under high launching pressure. , in particular a pressure between 30 and 140 bar by means of a pressure wave, preferably a pressure wave originating from the ignition of a flammable mixture (preferably a mixture of H> and O2»), into the soil.

By making use of such launching devices (4), in contrast to the known systems, it is no longer necessary that the insertion means (3) come into contact with the soil or have to penetrate the soil in order to introduce the granulate into the soil.

In order to achieve high precision and to allow the granulate containers (5) to penetrate sufficiently deep into the soil, the outlet openings of the various launching devices (4) are located shortly, preferably a maximum of 20 cm, above the soil surface.

The launching device (4) is shown in detail in Figure 4, and comprises the following components: - a launching chamber (6) into which a granulate container (5) can be fed, - feeding means (7) for feeding into the launching chamber (6) of a granulate container (5); - a launch tube (8) connecting to the launch chamber (6); - an ignition chamber (18) provided for temporarily storing a flammable mixture; - means of ignition are provided to ignite the flammable mixture present in the ignition chamber (18).

The supply means (7) include a connecting guide (11) (connecting hose) which forms the connection between a magazine (10) (stock container) suitable for temporarily storing granulate containers and the launching chamber (6). In the device (1) shown, a magazine is provided for each launcher (4) for the temporary storage of granulate containers. The supply means further comprise a supply system which is provided for moving the granulate containers contained in the magazine (10) via the connecting guide to the launch chamber (6) where they can be launched.

The device (1) according to the invention comprises at least one row of juxtaposed launchers, (4), wherein a row comprises at least two launchers (4). In practice, the device (1) will have a working width of 60 to 70 cm, with an intermediate distance between the centers of the launchers (4) of approximately 10 cm. This means that six to seven launchers (4) are placed per row. Or six or seven shots per row. The device (1) can be expanded by connecting a number of rows of launchers (4) next to each other and/or making the device (1) wider. The flammable mixture is preferably a mixture of hydrogen and air or oxygen. The hydrogen gas and air (or oxygen) are combined in the mixing chamber (19) according to a specific (mixing) ratio. The pressure with which both gases are brought together in the mixing chamber (19) can be set. This (flammable) mixture will be introduced into the ignition chamber (18) via an inlet valve.

Per launcher (4) there is a coupling to connect a supply line (compressed air hose) for the hydrogen gas (H;). The hydrogen gas is provided in a pressure vessel (20). Hydrogen gas can be injected into the mixing chamber (19) at the desired pressure via a regulator. The air (or oxygen) is added to the mixing chamber (19) by a compressor with an adjustable pressure regulator at the desired pressure. Due to the overpressure in the mixing chamber (19), after opening the valve,

the gas mixture to flow into the ignition chamber (18).

The device (1) can be extended with compression means that will further increase the pressure of flammable gas mixture, for example using a mechanically driven plunger in the launcher (4) that will increase the pressure in the ignition chamber (18) before the gas mixture is ignited .

The compression means is driven by an engine (16), preferably an internal combustion engine.

The mixture ignites with the aid of the ignition means, the ignition means preferably being formed by an ignition candle.

Such an ignition candle comprises two electrodes between which a spark-over takes place.

The ignition of the mixture will generate a pressure wave that will push the granulate carrier away.

The granulate carrier will gain speed in the launch tube and then penetrate the bottom.

After the granulate carrier has been launched, a new granulate carrier will be placed in the launch chamber, where it will be held temporarily with a certain (adjustable) clamping force.

A possible operation of the launcher (4) is briefly described below: 1) The firing mechanism is in rest position; 2) When activating the system, hydrogen gas (Hs) is introduced into the mixing chamber (19).

The H; comes from a compressed gas bottle at high pressure.

Ho is blown into the mixing chamber (19) at the desired pressure via an adjustable regulator. 3) Air is pressurized in a pressure vessel via a compressor (15) or oxygen is blown into the mixing chamber (19) from a high-pressure bottle (9) via an adjustable pressure regulator to the desired pressure.

The shape of the nozzle and the time of simultaneous or non-simultaneous injection will ensure a homogeneous mixing of both gases. 4) The gas mixture from the mixing chamber (19) is expanded to an ignition chamber (19) which fills up with the gas mixture.

An electrically time-controlled valve will determine when the mixture is admitted.

5) The valve closes.

6) The pressure of the gas mixture contained in the ignition chamber (19) can be further increased by, for example, an eccentric plunger that reduces the space of the ignition chamber in order to increase the pressure.

7) The ignition candle gives a spark between the electrodes. The ignition is controlled.

8) The mixture ignites and the explosion creates a pressure wave that will push the granulate carrier away. The pressure with which the granulate container is held (clamped) in the launch chamber (6) will determine when (at how much pressure) the granulate container leaves the launch tube.

9) While a new mixture is being formed in the mixing chamber, a new granulate container will be introduced into the launch chamber (6). The granulate holders (5) can be inserted by means of a turret head.

The magazine (10) is suitable for the temporary storage of granulate containers (5) and is mounted on the frame (2) via a bolt connection. The magazine is connected to the launch chamber (6) via the connecting guide (11). The magazine (10) is preferably moisture-free and can be closed with a lid, so that its contents are protected against UV radiation, which could prevent the functioning of the granulate in case of prolonged exposure. The lid also offers protection against light rain. On contact with water, the product would start to swell which could lead to blockages.

The granulate containers (5) can be provided separately in the magazine and then brought one by one, via the connecting guide (11), to the launching chamber (6). In an alternative embodiment, the different granulate holders (5) are placed on a granulate holder cord which is, for example, wound up on a spool provided in the magazine. By unwinding the cord, the various granulate containers (5) are brought to the launch chamber (6) via the connecting guide (11).

In order to be able to operate the device (1), an operating element is mounted on the handle (17) of the device (1). This control element will, among other things, control the tracks (14) as well as the settings of the entire launch system (spacing, pattern, etc.). An element will also be mounted on which the status of the battery and the total working hours of the device can be read.

The granulate (13) is provided in a granulate container (5) suitable for receiving one or more granulate (13).

The shape of the granulate container (5) has been chosen in such a way that there is as little friction as possible with the soil during its introduction.

In addition, the granulate container (5) must be easy to feed to the launching device (4). For this purpose, the granulate container (5) has a spherical or spherical design.

A possible embodiment of a granulate container (5) is shown in figure 5. The granulate container (5) comprises an organic binder (12) such as cellulose or compost, starch, ... and/or baked clay and/or biodegradable plastics for the purposes mentioned in the holding the shape together and enclosing the granulate (13). In order to arrive at the desired shape, the chosen material for the container can be pressed or glued together with the desired granules in the desired shape.

If it is opted to use bonding, a so-called biological hot-melt can be used that is pre-mixed with the granulate to form a blend.

Claims (13)

CONCLUSIONS Device (1) for introducing granules into the soil, comprising a mobile frame (2) and insertion means (3) suitable for introducing granules into the soil, wherein the insertion means (3) comprise at least one launching device (4) which is provided for introducing into the soil a granulate container (5) provided with granulate under high launching pressure, characterized in that the insertion means (3) comprise at least one row of at least two launchers (4) placed next to each other, and that each launcher is provided with is to bring the granulate container (5) into the soil by means of a pressure wave resulting from the ignition of a flammable mixture. Device (1) according to claim 1, characterized in that the launching device (4) has a: - launching chamber (6) into which a granulate container (5) can be fed, - feeding means (7) for feeding the pellets into the launching chamber (6). feeding a granulate container (5); - a launch tube (8) connecting to the launch chamber (6); - an ignition chamber (18) provided for temporarily storing a flammable mixture; - ignition means provided for igniting the flammable mixture present in the ignition chamber (18). Device (1) according to claim 2, characterized in that the launcher (4) comprises a mixing chamber (19) communicating with the ignition chamber (18) and arranged for mixing at least two gases into a flammable mixture . Device (1) according to any one of the preceding claims, characterized in that the launcher comprises compression means for compressing the flammable mixture in the ignition chamber (18). A device (1) according to any one of the preceding claims, characterized in that the flammable mixture is a mixture of hydrogen and air or oxygen. Device (1) as claimed in any of the foregoing claims, characterized in that the launching pressure is adjustable per launching device (4). Device (1) according to one of the preceding claims, characterized in that the launch pressure is adjustable between 30 and 140 bar. An installation (1) according to any one of the preceding claims, characterized in that the installation (1) comprises a pressure vessel (20) for hydrogen. A device (1) according to any one of the preceding claims, characterized in that the device (1) further comprises a pressure vessel (9) for oxygen and/or an air compressor (15). Device (1) according to one of Claims 2 to 9, characterized in that the supply means comprise a connecting guide (11) and the device (1) further comprises one or more magazines (10) suitable for temporarily storing granulate containers. (5) and communicates via the connecting conductor (11) with the launch chamber (6). Device (1) according to claim 10, characterized in that the granulate holders (5) are loosely provided in the magazine (10) or are provided on a granulate holder string which is wound on a spool provided in the magazine (10). A device (1) according to any one of the preceding claims, characterized in that said launchers (4) extend in use in a vertical or nearly vertical direction, the outlet openings of the launchers (4) being a maximum of 20 cm. located above the bottom. Device (1) as claimed in any of the foregoing claims, characterized in that the mobile frame (2) is carried or pulled for its displacement or is provided with autonomous displacement means.