RU2008107957A - LIQUID DROP OUT HEAD, WRITING A TOOL CONTAINING SUCH HEAD AND METHOD FOR DISCHARGE LIQUID DROPS FROM IT - Google Patents

Abstract

1. The head (100) of the ejection of a drop of liquid, made with the possibility of installing it in the tool (1) ejection of liquid containing many Executive chambers (105), and each of the Executive chambers has at least one inlet (107), designed for connecting at least one fluid supply chamber (106) for supplying fluid (16) to said actuating chamber (105), at least one actuating means (120) configured to generate a pulsed wave in the fluid contained in it during the priv yes to the action using energy received from the control device (20) and at least one outlet (108) connected to the discharge nozzle (99),! characterized in that the outlet openings (108) of the plurality of actuating chambers (105) are connected to one common ejection nozzle (99) through which a drop should be ejected from said head (100). ! 2. The liquid droplet ejection head according to claim 1, wherein the outlet openings (108) of the actuating chambers (105) are connected to a common central outlet chamber (104), said outlet chamber being connected to the ejection nozzle (99). ! 3. The liquid droplet ejection head according to claim 2, wherein said central output chamber (104) comprises a deflecting element (103) designed to deflect pulses of the fluid flow in the direction of the ejection nozzle (99). ! 4. The liquid droplet ejection head according to claim 1, wherein the plurality of actuating chambers (105) are arranged around said common ejection nozzle (99) in the form of a radial structure. ! 5. The ejection head of a liquid drop according to claim 4, in which the executive chambers (105) are arranged in the form of a symmetric structure and

Claims (19)

1. The head (100) of the ejection of a drop of liquid, made with the possibility of installing it in the tool (1) ejection of liquid containing many Executive chambers (105), and each of the Executive chambers has at least one inlet (107), designed for connecting at least one fluid supply chamber (106) for supplying fluid (16) to said actuating chamber (105), at least one actuating means (120) configured to generate a pulsed wave in the fluid contained in it during the priv yes, in action using energy received from the control device (20), and at least one outlet (108) connected to the discharge nozzle (99), characterized in that the outlet openings (108) of the plurality of actuating chambers (105) are connected to one common ejection nozzle (99) through which a drop should be ejected from said head (100). 2. The liquid droplet ejection head according to claim 1, in which the outlet openings (108) of the actuating chambers (105) are connected to a common central outlet chamber (104), said outlet chamber being connected to the ejection nozzle (99). 3. The liquid droplet ejection head according to claim 2, wherein said central output chamber (104) comprises a deflecting element (103) designed to deflect pulses of the fluid flow in the direction of the ejection nozzle (99). 4. The liquid droplet ejection head according to claim 1, wherein the plurality of actuating chambers (105) are arranged around said common ejection nozzle (99) in the form of a radial structure. 5. The ejection head of a liquid droplet according to claim 4, in which the executive chambers (105) are arranged in a symmetrical structure and have an even number. 6. The liquid drop ejection head according to claim 4, wherein the plurality of actuating chambers (105) are an odd number, preferably three actuating chambers, extending respectively in the direction of 3 edges of the triangular flat part (101). 7. The liquid droplet discharge head according to claim 1, wherein a plurality of liquid supply chambers (106) are provided, each of which communicates with at least one executive chamber (105) and has or shares a through hole (109), which is in fluid communication with the fluid reservoir (15). 8. The liquid droplet ejection head according to claim 1, wherein said head (100) has a substantially flat shape with a front side (110) and a rear side (111) parallel to each other, on the front side (110) formed a nozzle (99) and openings (109) communicating with the inlets of the actuating chambers (105) are provided on the rear side (111). 9. The liquid droplet ejection head according to claim 7, wherein the inlet openings (107) and outlet openings (108) of the plurality of actuating chambers extend along the entire main plane of the flat part (101) and preferably along the radial direction from the direction of the ejection nozzle (99). 10. The liquid drop ejection head according to claim 7, wherein said liquid ejection head (100) is made of a silicon wafer or any suitable material. 11. The ejection head of a liquid drop according to claim 1, wherein the actuating means comprises one of the following means selected from the group consisting of: electrostatic, thermal, piezoelectric actuating means, and preferably an electrostatic means. 12. Hand tool (1) for ejecting a liquid, having essentially a tubular body (14) with an opening (19) in the front part (11) and containing a reservoir (15) for a liquid, means (17) for energy storage, a module ( 20) controls and a liquid droplet ejection head (100) according to any one of claims 1 to 11, wherein the ejection nozzle (99) of the ejection head (100) protrudes from the front opening (19) of the tubular body (14). 13. A method of ejecting liquid droplets from a liquid ejection head (100) installed in a liquid ejecting tool (1), characterized in that it comprises the following steps: provide a plurality of actuating chambers (105), each of the actuating chambers having at least one inlet (107), at least one actuating means configured to generate a pulse wave in the liquid contained therein, and, at least one outlet (108), provide one ejection nozzle (99) in fluid communication with the outlet openings (108) of said plurality of actuating chambers (105), in the Executive chamber (105) serves through their inlet (107) liquid (16) supplied from the reservoir (15) for liquid at least one actuating means (120) is actuated by supplying energy from the control unit (20) such that one drop of liquid is ejected through said discharge nozzle (99). 14. A method for ejecting liquid droplets from a liquid ejection head according to claim 13, wherein the step of actuating comprises simultaneously driving at least two actuators (120). 15. A method of ejecting liquid droplets from a liquid ejection head according to claim 14, wherein the step of driving the actuator comprises actuating an even number of actuating means (120), and in which the actuating means (120) is arranged in opposite symmetrical pairs. 16. A method for ejecting liquid droplets from a liquid ejection head according to claim 14, wherein the actuation step comprises: driving an odd number of actuating means (120), preferably 3 or 5, and in which the actuating mechanisms (120) are equally spaced and in positions through equal angles with respect to the common ejection nozzle (99). 17. A method for ejecting liquid droplets from a liquid ejection head according to claim 14, wherein the method further comprises, prior to the driving step, the step of determining the number of actuating means (120) that must be actuated to obtain a predetermined droplet size. 18. A method of ejecting liquid droplets from a liquid ejection head according to any one of claims 14-17, wherein the tool is a hand tool (1) comprising means for determining a distance (21) and / or movement (22) in which the liquid ( 16) is an ink, and in which the method further comprises the following steps: determine the state of the letter by the signals received using the sensor; drops of ink are repeatedly ejected when the state of the letter is determined, and preferably with a constant ejection frequency. 19. A method of ejecting liquid droplets from a liquid ejection head according to claim 18, further comprising the steps of: the droplet size is estimated in accordance with at least one of the parameters from the group including the determined scanning speed of the writing instrument (1), the determined distance between the writing surface and the ejection nozzle (99) and the required thickness or line style that must be drawn.