NL2003081C2 - WEED CONTROL. - Google Patents

Description

Background of the invention. The invention relates to a crop control device for controlling weeds with a hot fluid.

WO2005 / 120225 discloses a device for heating water and / or steam for killing weeds. This known device uses a nozzle and a chamber for removing excess pressure from the stream of water and / or steam for superheating this stream. The known device hereby supplies hot saturated steam and is more efficient because the use of water is reduced. There is room for improvement of this known device to make it more efficient.

From WO2006 / 029479 a dispensing device is known in which a gas line 15 is passed through a liquid reservoir for facilitating heat transfer to the gas line in order to prevent freezing of the gas line during use. A disadvantage of this device is that heat is extracted from the liquid in the liquid reservoir, as a result of which the heating of the liquid, on the other hand, requires more energy and the efficiency of heating of the liquid deteriorates.

The invention further relates to a method for a crop control device.

The invention further relates to a vehicle comprising a crop control device.

From US 6073859 an example is known of a vehicle provided with a device for killing weeds.

Summary of the invention

The invention has for its object to provide a weed control device which has a lesser impact on the environment.

A further object of the invention is to provide a weed control device which emits less per unit of treated surface.

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A further object of the invention is to provide a more efficient weed control device which consumes less fuel per unit of treated surface.

To this end, the invention provides a crop control device for controlling weeds with a hot fluid, the device comprising, a storage tank for taking in fluid with an intake temperature, a heating device for heating the fluid with the intake temperature to a fluid with an release temperature for controlling weeds, means being provided for heat exchange with the fluid with the intake temperature for preheating the fluid towards the dispensing temperature.

A fluid with an issue temperature in this context is essentially a liquid, preferably water, or also a mixture of water and steam, or also essentially steam. In this context, a hot weed control fluid means that the fluid is so hot that damage, preferably irreparable damage, is caused to the weeds. The temperature of the hot fluid is preferably greater than 70 ° C. A fluid with an intake temperature in this context is water with a temperature of less than 70 ° C, preferably the temperature of the surface water which is usually taken up in the storage tank. Residual heat in this context is heat that must be considered lost for the primary process of the heating device, namely heating the fluid from the storage tank to a hot fluid suitable for controlling weeds. Heat exchange means is understood to mean parts suitable for heat exchange with the fluid with the intake temperature, but a traditional heat exchanger can also be used. Preheating the fluid means heating the fluid with the intake temperature before the fluid is heated to the release temperature by the heating device.

By recovering residual heat by means of the fluid with the intake temperature, it becomes possible to optimize the crop control device at system level for efficiency, thereby reducing the burden on the environment. The invention can be used in any device that heats and consumes water and that has a cold water supply. Savings of up to 10-40% have been achieved in practice through the 3 heat exchange with, specifically, heat transfer to, the fluid with the intake temperature.

In an embodiment of the crop control device according to the invention, the means for heat exchange are provided for heat exchange between a heat source present in the crop control device and the fluid with the intake temperature for preheating the fluid towards the release temperature. It is important that the heat source is near the fluid with the intake temperature, specifically near the storage tank. When the crop control device is provided on a vehicle, a heat source in the vehicle is also eligible for heat exchange with the fluid with the intake temperature.

In an embodiment of the crop control device according to the invention, the means for heat exchange are provided for heat exchange between the heating device and the fluid with the intake temperature. As a result, the efficiency of the crop control device improves all the more. The heat exchange in this context is not the heating of the fluid in the primary process of the heating device but the transfer of residual heat from the heating device to the fluid.

In an embodiment of the crop control device according to the invention, the means for heat exchange are provided for heat exchange with the fluid with the intake temperature in the storage tank. The largest heat absorption capacity is the supply of fluid in the supply tank, making it advantageous to use the heat exchange there.

In an embodiment of the crop control device according to the invention the heating device is in fluid communication with the supply tank by means of an inlet and the means for heat exchange are provided for heat exchange with the fluid with the intake temperature in the inlet. This makes it possible to use the heat exchange close to the heating device, which is advantageous because most of the residual heat is generally lost there. In a specific embodiment, the inlet is positioned in the exhaust gas stream of the combustion device.

In an embodiment of the crop control device according to the invention, further comprising a hydraulic device, the means for heat exchange 4 are provided for heat exchange with the hydraulic device. As a result, the more residual heat is extracted from the crop control device.

In an embodiment of the crop control device according to the invention, the crop control device comprises a drive device and the means for heat exchange are provided for heat exchange with the drive device, and wherein in one embodiment the drive device comprises a combustion engine and the means for heat exchange are provided for heat exchange with the drive device. combustion engine, in one embodiment with the engine's exhaust gases. The heat exchange means are arranged here for heat exchange with the drive device. In one embodiment, the storage tank extends centrally above the combustion engine for a further improved heat exchange.

In an embodiment of the crop control device according to the invention, the heating device comprises a combustion space and a filter for filtering soot from exhaust gases from the combustion space.

In an embodiment of the crop control device according to the invention, the heating device comprises a burner boiler, for heating water, the combustion space of which is open atmospheric. By filtering soot from the combustion gases, the environmental impact of the crop management device is reduced even further. The invention is not limited to open atmospheric burner boilers, other types of burner boilers are conceivable, such as, for example, a high-efficiency boiler with turbo-fan.

In an embodiment of the crop control device according to the invention, the crop control device comprises an outlet device for discharging combustion gases from the combustion space, the outlet device comprising the filter and a pumping device arranged for passing exhaust gases through the filter.

In an embodiment of the crop control device according to the invention, the outlet device comprises an inlet for directing ambient air with the outlet gases through the filter. This reduces the influence of the outlet device on the combustion process in the open atmospheric burner, while the soot is sucked from it to the filter. Reducing the influence of the filter on the outlet device is of great importance for the combustion process in the combustion space. This combustion process, specifically the exhaust gas flow from the combustion process, should be influenced as little as possible by external factors, for example the exhaust device.

To this end, the invention provides a method for a crop control device according to the invention, wherein the method comprises; - taking a fluid with an intake temperature, - heating the fluid by means of heat exchange, - heating the fluid to a release temperature for controlling weeds by means of a heating device.

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In an embodiment of the method according to the invention, heat is exchanged between the fluid with the intake temperature and a heat source from the group of heating device, drive, hydraulic device, pump-specific fluid pump and present in the crop control device. The heat source may be part of a vehicle on which the crop control device is provided.

In an embodiment of the method according to the invention, exhaust gas from the heating device with ambient air is passed through a filter for filtering soot.

To this end the invention provides a vehicle comprising a crop control device according to the invention and / or a device suitable for carrying out a method according to the invention.

It will be clear that the various aspects mentioned in this patent application can be combined and can each qualify separately for a split-off patent application.

Brief description of the figures

In the attached figures, various embodiments of a crop control device according to the invention are shown in which is shown in:

FIG. 1 a schematic representation of a crop control device according to the invention; Fig. 6 shows a schematic representation of the heat exchange of residual heat from the heating device to the fluid with an inlet temperature; Fig. 3 shows a schematic representation of a storage tank for taking in a fluid with an intake temperature, and provided with heat exchange with residual heat from exhaust gases; Fig. 4 is a top view of a further embodiment of the storage tank of Fig. 3, provided with heat exchange with a hydraulic system; Fig. 5 shows a schematic representation of an outlet device in an embodiment of a crop control device according to the invention, wherein the outlet device is provided with a soot filter.

Description of embodiments

FIG. 1 shows a schematic representation of a crop control device 1 according to the invention. The crop control device 1 is suitable for eradicating vegetation or also weeds, specifically undesired vegetation on and or between paving. The crop control device 1 consumes water 20. In general, surface water 20 is consumed which is taken in, for example, a ditch or pond. Consumption means that the water flows out after contact with the crop. The water 20 and the heat stored therein flows away with this. The crop control device 1 heats the water to a release temperature at the release point 19. The release temperature is suitable for controlling weeds, specifically higher than 70 ° C. The dispensing point 19 is generally a nozzle that covers a certain surface paving. The crop control device 1 is provided with a storage tank 2 for taking in a fluid, here water 20. The water 20 is pumped from the storage tank 2 to the dispensing point 19 and heats up to the dispensing temperature. Two steps can be distinguished when heating the water 20. The primary process for heating the water 20 takes place in the heating device 6. The heating device 6 here is a burner boiler with a combustion chamber 16. At the combustion chamber 16, the water 20 is heated so that the water 20 at the dispensing point 19 has the dispensing temperature. The secondary heating process is a heat exchange of residual heat between consumers in the crop control device 1 and the water 20. A consumer here is the 7 heating device 6, other consumers are conceivable such as the drive of a vehicle on which the crop control device is provided and a hydraulic installation. The secondary heating step takes place here on water 20 in the storage tank 2 and in the liquid line 15 which connects the storage tank 2 with the heating device 6. The residual heat here is heat that must be regarded as lost for the user. Thanks to the relatively low intake temperature of the water 20 at system level of the crop control device 1, this residual heat can be recovered by the secondary process. In practice, this results in savings in consumption in the primary process of as much as 10-40%. The secondary step takes place here before the primary process. This is advantageous for the controllability of the entire heating process. However, a different order is conceivable. The secondary step here is a heat exchange at the heat exchanger 3. The heat exchanger 3 exchanges heat between the water 20 and combustion gases 23. The water 20 is located here in the line 15 between the storage tank 2 and the heating device 6. The combustion gases 23 are here originating from the heating device 6. The combustion gases 23 are led via the outlet 14 along the heat exchanger 3. The outlet 14 is connected to the combustion space 16 of the heating device 6.

The water flow through the crop control device 1 is as follows. The water 20 is taken into the storage tank 2. Subsequently, the water 20 is pumped through the pipe 15 by means of the liquid pump 18. The pipe 15 leads the water 20 through the heat exchanger 3, then through the heating device 6 and finally to the dispensing point 19.

The exhaust device 30 which discharges the combustion gases to the environment will be described with reference to Fig. 5.

FIG. 2 shows a schematic representation of a heating device 6 provided here with three burner boilers and as many combustion spaces 16. The burner boilers are generally connected in series, a parallel connection is otherwise also conceivable. The heat exchanger 3 extends above the heating device 6, here specifically above the entire heating device 6, more specifically above the outlets 14 of the heating device 6, which is advantageous for the heat exchange. The combustion gases 23 from each combustion space 16 are guided along the heat exchanger 3 through the outlets 14. The heat exchange 8 at the heat exchanger 3 is intensified by using spirals 22. Other means for intensifying heat exchange are also conceivable, such as for example a radiator.

FIG. 3 shows a schematic representation of a storage tank 2 for taking in water 20 with an intake temperature. The water 20 is kept on the inside of the tank wall 26 of the storage tank 2. The storage tank 2 is provided with a flue gas channel 4 for passing combustion gases through the storage tank 2. The combustion gases 21 here come from a drive of a vehicle on which the crop control device is provided but may also originate from heating device 6 of fig. 1. The channel wall 17 of the flue gas channel 4 is suitable for heat exchange between the combustion gases within the flue gas channel 4 and the water 20 in the storage tank 2. The channel wall 17 comprises at preferred metal.

In one embodiment, the outlet 24 of the flue gas channel 4 carries the combustion gases 25 along the heat exchanger 3 of Fig. 1 for extracting even more heat from the combustion gases 25.

FIG. 4 shows a top view of a further embodiment of the storage tank 2 of fig. 3. The storage tank 2 is here provided with a pipe 27 for guiding oil through the storage tank 2. The pipe 27 is connected by means of an inlet 28 and outlet 29 to a hydraulic system whose oil heats up during operation. The heat is transferred via the line 27 to the water 20 in the storage tank 2.

FIG. 5 shows a schematic representation of an outlet device 30 in an embodiment of a crop control device 1 according to the invention. The exhaust device 30 discharges combustion gases 23 from the heating device 6 and 25 of the drive of a vehicle when the crop control device 1 is provided thereon. The gas flow 23 through the outlet device 30 is as follows. The gas stream 23 is collected from the outlet 14 in the extractor hood 8. From the extractor hood 8, the pipe 10 leads the gas stream to a soot filter 7. After the soot filter 7, the gas flows via the pipe 11 to the pump 9 and finally via the exhaust 12 to the outside air. The pump 9 sucks the combustion gases through the soot filter. The extractor hood 8 is positioned such that a stream of ambient air 13 is taken in. This air flow forms an air lock around the gas flow 23. As a result, the combustion process in the burner boiler 16 is influenced as little as possible. Connecting a suction directly to the outlet 14 of the atmospheric burner boiler 16, which is open here, is not possible because this seriously disrupts the combustion process in the burner boiler 16, if not impossible.

It will be clear that the above description has been included to illustrate the operation of preferred embodiments of the invention, and not to limit the scope of the invention. Starting from the above explanation, many variations will be evident to those skilled in the art that fall within the spirit and scope of the present invention.

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Claims (18)

Crop control device for controlling weeds with a hot fluid, the device comprising, a storage tank for taking in fluid with an intake temperature, a heating device for heating the fluid with the intake temperature to a fluid with an issue temperature for controlling weeds wherein means 10 are provided for heat exchange with the fluid with the intake temperature for preheating the fluid toward the release temperature. 2. Crop control device according to claim 1, wherein the means for heat exchange are provided for heat exchange between a heat source present in the crop control device and the fluid with the intake temperature for preheating the fluid towards the release temperature. Crop control device according to a preceding claim, wherein the means for heat exchange are provided for heat exchange between the heating device and the fluid with the intake temperature. 4. Crop control device according to a preceding claim, wherein the means for heat exchange are provided for heat exchange with the fluid with the intake temperature in the storage tank. 5. Crop control device according to a preceding claim, wherein the heating device is in fluid communication with the storage tank by means of an inlet and wherein the means for heat exchange are provided for heat exchange with the fluid with the intake temperature in the inlet. A crop control device according to any preceding claim, further comprising a hydraulic device, wherein the means for heat exchange are provided for heat exchange with the hydraulic device. 5 7. Crop control device according to a preceding claim, comprising a drive device and wherein the means for heat exchange are provided for heat exchange with the drive device, and wherein in one embodiment the drive device comprises a combustion engine and the means for heat exchange are provided for heat exchange with the combustion engine, in an embodiment with the engine's exhaust gases. 8. Crop control device according to claim 7, wherein the storage tank 15 extends centrally above the combustion engine. 9. Crop control device according to a preceding claim, wherein the heating device comprises a combustion space and wherein the crop control device comprises a filter for filtering soot from exhaust gases from the combustion space. A crop control device according to claim 9, wherein the heating device is a burner boiler for heating water and is open to the combustion chamber open at atmospheric. 25 11. Crop control device according to claim 9 or 10, comprising an outlet device for discharging combustion gases from the combustion space, wherein the outlet device comprises the filter and a pumping device is arranged for passing exhaust gases through the filter. A crop control device according to claim 11, wherein the outlet device comprises an inlet for directing ambient air with the exhaust gases through the filter. A method for a crop control device according to a preceding claim, wherein the method comprises; - taking in a fluid with an intake temperature, - heating the fluid through heat exchange before, 10. heating the fluid to a release temperature for controlling weeds by means of a heating device. 14. Method as claimed in claim 13, wherein heat is exchanged between the fluid with the intake temperature and a heat source from the group of heating device, drive, hydraulic device, pump present in the crop control device 15. 15. Method as claimed in any of the foregoing claims, wherein exhaust gas from the heating device with ambient air is passed through a filter for filtering soot. A vehicle comprising a crop control device according to a preceding claim and suitable for carrying out a method according to a preceding claim. 25 17. Device provided with one or more of the characterizing measures described in the attached description and / or shown in the attached drawings. A method comprising one or more of the characterizing steps described in the accompanying description and / or shown in the accompanying drawings. -o-o-o-o-o-o-