JPWO2020069909A5 - - Google Patents

Claims (18)

A dosing system (1) for dosing material, said dosing system (1) comprising a nozzle (40), a feed channel (44) for dosing material, an ejection element (31), said ejection element ( 31) and/or an actuator unit (10) having a piezoelectric actuator (60) coupled to the nozzle (40) and a cooling device (2), wherein the cooling device (2) a supply device (21, 24, 26) for supplying pre-cooled cooling medium to the housing (11) of said dosing system (1), said cooling device (2) being at least configured for direct cooling by said pre-cooled cooling medium of a sub-region and/or of at least one sub-region of a movement mechanism (14) coupled to said piezo actuator (60). system (1). A dosing system according to claim 1, wherein the piezo actuator (60) comprises an actuator housing (62) in which a piezo element (67) is encapsulated. The cooling device (2) is adapted to at least one sub-region of the piezo-actuator (60) and/or at least 3. A dosing system according to claim 1 or 2, configured to control and/or regulate the cooling of one sub-region. said at least one state parameter is temperature within at least one sub-region of said piezo actuator (60) and/or within at least one sub-region of said movement mechanism (14) coupled to said piezo actuator (60) 4. The delivery system of claim 3, wherein the temperature. A dosing system for dosing material, said dosing system comprising a nozzle (40), a feed channel (44) for dosing material, an ejection element (31), said ejection element (31) and/or said an actuator unit (10) having a piezo-actuator (60) coupled to a nozzle (40) and the piezo-actuator (60) in a controlled and/or regulated manner depending on at least one state parameter; a cooling device (2) configured to cool at least one sub-region and/or at least one sub-region of the movement mechanism (14) coupled to the piezo actuator (60), said at least one state parameter is the length of at least one sub-region of said piezo-actuator (60) and/or the distance between said ejection element (31) and said nozzle (40) of said dosing system (1) A dosing system that is distance and/or dose. Any of claims 3 to 5, wherein said dosing system (1) comprises a temperature sensor (52, 78) and/or a strain sensor (87) and/or a motion sensor (53) for determining said condition parameters. A dosing system according to clause 1. Dosing system according to any one of the preceding claims, wherein the cooling device (2) is arranged to separately regulate the cooling of at least one sub-region of the piezo-actuator (60). . the cooling device (2) controls cooling of at least one sub-region of the piezoelectric actuator (60) and cooling of at least one sub-region of the moving mechanism (14) coupled to the piezoelectric actuator (60); Dosing system according to any one of claims 1 to 7, configured to control and/or regulate separately from/or regulation. The pre-cooled cooling medium cools at least one sub-region of the piezo actuator (60) and/or at least one sub-region of the movement mechanism (14) coupled to the piezo actuator (60) to a target temperature. A dosing system according to any one of claims 1 to 8 , adapted to. Dosing system according to any one of the preceding claims, wherein the cooling device (2) for cooling the cooling medium comprises at least one cold generator (55, 57). Dosing system according to claim 10 , wherein the cold generator (55) is arranged to cool the cooling medium to a predetermined temperature. 12. Dosing system according to claim 10 or 11 , wherein the cold generator (55, 57) comprises a vortex tube (57). 13. Dosing system according to claim 12, wherein the vortex tube (57) comprises an adjustable valve (94) for adjusting the temperature of the cooling medium. for at least one sub-region of said movement mechanism (14) coupled to said piezo actuator (60) to heat at least one sub-region of said movement mechanism (14) coupled to said piezo actuator (60) Dosing system according to any one of the preceding claims, comprising a heating device (51) of The heating device (51) cooperates with the cooling device (2) of the dosing system (1) to provide the following state parameters:
- the temperature of at least one sub-region of said piezo-actuator (60) and/or at least one sub-region of said movement mechanism (14) coupled to said piezo-actuator (60);
- the length of at least one subregion of said piezo actuator (60),
- the distance between said ejection element (31) and said nozzle (40), and - the dose of said dosing material,
15. A dosing system according to claim 14 , configured to keep constant at least one of: A method for operating a dosing system (1) for dosing of dosing material, said dosing system (1) comprising a nozzle (40), a feed channel (44) for dosing material and an ejection element ( 31), an actuator unit (10) having a piezo actuator (60) connected to said discharge element (31) and/or said nozzle (40), and a cooling device (2), said dosing The housing (11) of the system (1) is supplied with pre-cooled cooling medium by means of the supply devices (21, 24, 26) of said cooling device (2) and at least one sub of said piezo actuator (60). A region and/or at least one sub-region of the movement mechanism (14) coupled to the piezo actuator (60) is directly cooled by the cooling device (2) using the pre-cooled cooling medium. ,Method. A method for manufacturing a dosing system (1) for dosing material dosing comprising an actuator unit (10) comprising a piezo actuator (60), said dosing system (1) comprising a cooling device (2 ), said cooling device (2) comprising a supply device (21, 24, 26) for supplying pre-cooled cooling medium to the housing (11) of said dosing system (1), said dosing system ( 1 ) , at least one sub-region of the piezo-actuator (60) and/or at least one sub-region of the movement mechanism (14) connected to the piezo-actuator (60) is directly cooled by the pre-cooled cooling medium wherein the method is configured to be thermally cooled. Said cooling device (2) of said dosing system (1) comprises at least one sub-region of said piezo-actuator (60) and/or at least one sub-region of a movement mechanism (14) coupled to said piezo-actuator (60). 18. The method of claim 17, wherein a region is configured to be directly cooled by said pre-cooled cooling medium.