Continuous dry particulate matter injection device for fertigation applications

The invention claimed is: 1. Device for supplying a particulate input matter through irrigation water, the device comprising: at least one feed device suitable for feeding particulate matter; a first vertical connection pipe; an inlet opening and closing valve; a vertically positioned slurry mixing chamber located under the first vertical connection pipe; a drainage valve connected to the mixing chamber; an outlet opening and closing valve; a second vertical connection pipe; a bypass water conduit; a main water inlet pipe; a pressurized mixing tank; and an outlet pipe; wherein the first vertical connection pipe is in one end connected to the feed device and in the other end to the vertically positioned slurry mixing chamber, the inlet opening and closing valve is located on the first vertical connection pipe, the second vertical connection pipe is in one end connected to the vertically positioned slurry mixing chamber and in the other end to the bypass water conduit, the outlet opening and closing valve is located on the second vertical connection pipe, the bypass water conduit is in one end connected to the main water inlet pipe and in the other end to the pressurised mixing tank, and the outlet pipe is in one end connected to the pressurised mixing tank and in the other end to the main water inlet pipe in a distance downstream of the connection between the main water inlet pipe and the bypass water conduit. 2. The device according to claim 1 , further comprising one or more of the following: a manometer located on the main water inlet pipe, a self-cleaning filter, an electrical conductivity meter, a valve steered by the electrical conductivity meter, and a control panel with valves powered by water pressure or air to regulate the opening/closing frequency of the inlet opening and closing valve, the drainage valve, and the outlet opening and closing valve, and wherein the self-cleaning filter is located on the outlet pipe, the electrical conductivity meter is located on the main water inlet pipe downstream of the connection between the main water inlet pipe and the outlet pipe, and the valve steered by the electrical conductivity meter is located on the main water inlet pipe downstream of the connection between the main water inlet pipe and the bypass water conduit and upstream of the connection between the main water inlet pipe and the outlet pipe. 3. The device according to claim 1 , wherein one or more of the valves is a ball valve powered by water or pressurized air. 4. The device according to claim 1 , wherein the feed device is a hopper, a conveyor belt or a silo. 5. The device according to claim 1 , wherein at least one feed device is a hopper, adapted to hold amounts between 25 and 1200 kg. 6. The device according to claim 1 , wherein the particulate input matter is in a solid state, water-soluble and free-flowing in particulate form. 7. The device according to claim 1 , wherein the input matter is selected from the group of fertilizers, plant nutrients, plant supplements, agro chemicals, herbicides, fungicides and other plant protection chemicals, or any mixture thereof. 8. The device according to claim 1 , wherein the diameters of the first connection pipe, slurry mixing chamber and second connection pipe have approximately the same internal diameter. 9. The device according to claim 1 , wherein the functional valve opening of the inlet valve and the outlet valve have approximately the same diameter as the first vertical connection pipe and second vertical connection pipe, respectively. 10. The device according to claim 1 , further comprising a programmed automation unit for controlling the valves. 11. The device according to claim 1 , further comprising a storage tank for collecting and holding the wash-out from the slurry mixing chamber. 12. The device according to claim 1 , mounted on an EU-pallet. 13. A method for supplying a particulate input matter through irrigation water for fertigation applications, the method comprising: applying a device comprising at least one feed device, suitable for feeding particulate matter, and connected, by a first vertical connection pipe, to the top of a vertically positioned slurry mixing chamber, located under the first vertical connection pipe, and a pressurized mixing tank, connected to the bottom of the slurry mixing chamber by a second vertical connection pipe, wherein, in one operation cycle: (a) providing an amount of particulate input matter from the feed device to the slurry mixing chamber at atmospheric pressure by gravity through the first vertical connection pipe; (b) closing off the slurry mixing chamber water-tightly from the first vertical connection pipe; (c) opening the bottom of the slurry mixing chamber to allow the content thereof to fall into the second vertical connection pipe by the action of gravity where it is exposed to the pressurized irrigation water and flushed out of the slurry mixing chamber with the pressurized irrigation water into the pressurized mixing tank; (d) closing off the slurry mixing chamber from the pressurized irrigation water supply and its content is drained; and (e) opening again the slurry mixing chamber at its top for receiving a new amount of particulate input matter.