| 摘要 |
1. A machine with drum or rotor which rotates around its shaft axis which is mounted on to an outer body structure via shaft beds and/or suitable bearings, comprising: at least one balancing drum attached to the said rotating shaft/drum assembly or to the said rotational system and rotates together with it, said each balancing drum has at least three balance cells with equal volume, the magnitude and the direction of the imbalance vectors acting on rotating system is sensed during rotation of the drum by the use of suitable sensors mounted on the rotating system, where said rotating drum system is mounted flexibly on the main body structure, said imbalance vectors acting on the rotational system is detected using one or more suitable sensing systems and the magnitude, direction and the position of the imbalance vectors are then sensed and/or calculated, this sensed and/or calculated imbalance vector is counteracted by injecting pressurised balancing fluids into the said balancing cells in the correct sensed or calculated positions, the pressurised balancing fluid injector nozzle is positioned facing the opening of the said balancing drum, said balancing fluids are pressurised by suitable conditioning or pumping equipment and the injecting pattern is controlled precisely by one or more suitable valve/valves, said machine is essentially under effect of variable imbalance forces due to its nature of working conditions and principles. 2. A balancing drum in accordance with claim 1 wherein, only the sides of the balancing cells facing to rotation axis are opened or slotted and all the other sides are closed and sealed, wings as an extend of cell separators are fitted at the entrance of the cells with an angle with cell separator walls. 3. A balancing drum in accordance with claim 1 wherein, all the sides of the said balancing drum are closed and sealed which only allows the balancing fluid entrance into the balancing cells through slots as a doughnut shape on the side of the balancing drum which is not used for mounting to the main drum or rotor. 4. A fluid injecting system in accordance with claim 1 wherein, at least one balancing fluid injector system is used for each of the balancing drums, at least one fluid flow control valve is used for each injector system on a pipe with a nozzle at the injecting end in order to accelerate the fluid flow rate, said injector nozzle is fixed facing to the opened side of the balancing drum, the injector control valve (s) in the balancing system are precisely controlled in such a way that the required amount of balancing fluid is injected into the required position of the balancing drum during balancing operation. 5. A fluid injecting system in accordance with claim 1 wherein, separate injector systems are used for each balancing cell and also for each of the balancing drums, each said injector system means a narrow liquid canal in a ring form as its rotating axis is the same with drum rotating axis and only the sides of the ring facing rotation axis are opened, each of the said liquid canal is connected to one balancing cell by a proper connection system injected liquid in the canal, pass through said connection system to enter the balancing cell by centrifugal force effect, at least one injection control valve placed on the injecting system to control fluid flow injected in the rotating liquid canal. 6. A machine in accordance with claim 1 wherein, the rotational drum housing structure is flexibly mounted to the main rigid body structure, the position, magnitude and direction of the imbalance vectors are calculated by purpose built controllers by using the imbalance signals sensed by the fitted sensors, it is a high speed centrifugal spinning machine, used for extracting fluids from the liquid absorbent goods, in which the sensed imbalance vectors are processed in a suitably programmed controller unit in order to calculate precisely the amount of counter-weight to be injected into the correct balancing cell of the balancing drum or drums to balance the system which rotates together. 7. A machine in accordance with claim 6 wherein, it can also be considered as a washing machine used for textile and garment washing. 8. A machine in accordance with claim 6 wherein, it can also be considered as a dying machine in textile garment dyeing. 9. A machine in accordance with claim 6 wherein, it can also be considered as a machine which can be used as a stone-wash machine. 10. A machine in accordance with claim 6 wherein, the rotational drum housing system flexibly supported by gas pressurised rubber bellows. 11. A machine in accordance with claim 6 wherein, the rotational drum housing system flexibly supported by rubber or similar flexible material blocks, 12. A machine in accordance with claim 6 wherein, the rotational drum housing system flexibly supported by suspension springs either hang by springs or placed on a platform supported by springs. 13. A machine in accordance with claim 6 wherein, the rotational drum housing system flexibly supported by flexible or semiflexible metal, plastic or any similar synthetic coupling or fixing material. 14. A machine in accordance with claim 6 wherein, the control system takes care of time delay characteristics of the system to activate the required number of injector valves for counter weighing, the control system continuously monitors the accepted and applying values of the system time delays, the system also use a reference point for said controlling on the drum assembly, said reference point is provided from a notch via a switch or sensor or an encoder connected to the rotating shaft of the drum, the balance control system checks and measures the angle between the position of the imbalance vector and position of the reference point on the drum system, before starting the balancing operation, the control system continuously monitors the said pre-detected angle during balancing operation, the control system change the time delay constant used in calculations if any deviation is recognised in the value of the said pre-detected angle. 15. An extraction machine in accordance with claim 6 wherein, rotation axis of the drum is horizontal, the balancing drum is mounted on the main rotating drum with the same rotational axis, separator plates of the balancing cells placed in the direction of the rotational axis as each cell having equal volume, balancing drum/drums are placed in the drum housing so water can be chosen as balancing fluid. 16. A balancing drum in accordance with claim 15 wherein, the number of the balancing cells equal to the number of ribs used in the main rotating drum and they are placed to connect each rib to the centre of the corresponding balance cell, said balancing cells share same volume with the corresponding ribs as the balancing fluid injected in that particular cell can pass through into the corresponding rib and vice-versa but sealed properly in order to prevent any leak from the ribs. 17. A balancing drum in accordance with claim 15 wherein, ribs of the drum is divided into two equal parts along their mounting axis, the number of balance cells are twice the number of ribs mounted in the rotating drum and they are constructed in such a way that the ribs of the drum are placed between two balancing cells using same separation plate with ribs and balancing cells, the said balance cell share same volume with the corresponding rib separation as the balancing fluid injected in that particular cell can pass through into the corresponding rib separation and vice-versa but sealed properly in order to prevent any leak from the ribs. 18. A method in accordance with claims 16 and 17, which is applied on a drum with two balancing drums on both sides, where said corresponding ribs are separated into different volumes by a separation plate in a direction across the rotation axis, in such a way that front balancing cells use front side volume of the ribs and the rare side balancing cells use rare volume of the ribs. 19. A drum in accordance with claim 15 is rotatably mounted about its axis to the main body structure with two bearing systems through the shaft from one side of the drum comprising, only one balancing drum is mounted to the main rotating drum, said balancing drum, placed near loading door side and one side is shaped in such a way that it exactly fits the shape of the main drum or mounted as to share one side of the drum as the side of the balancing drum. 20. A drum in accordance with claim 15 is rotatably mounted about its axis to the main body structure with two bearing systems through the shaft from one side of the drum comprising, only one balancing drum is mounted to the main rotating drum, said balancing drum placed shaft side and one side is shaped in such a way that it exactly fits the shape of the main drum to fix or mounted as to share one side of the drum as the side of the balancing drum. 21. A second balancing drum is attached to the drum in accordance with claims 19 and 20 wherein, the second balancing drum is mounted on the opposite side of the first balancing drum on the main drum as explained in claim 19 and 20. 22. A second balancing drum is attached to the main drum in accordance with claim 19 wherein, the second balancing drum is mounted on to the drum shaft about its rotating axis as placed outside the main drum housing within said shaft mounted from one side to the rotating drum also about its rotating axis, said second balancing drum is rotatably mounted in a leak prevented outer housing drum in order to keep the balancing fluids in the system where said balancing drum housing is attached to the main drum housing assembly, said balancing drum housing has a suitable drain system in order to be able to drain the balancing fluids. 23. A drum in accordance with claim 15 is rotatably mounted with bearings through two separate shafts fitted from each side wherein, both balancing drums, fitted at each end of |
