FR3023425A1 - CASE FOR THE FLUID SUPPLY OF AN AUTONOMOUS ROTARY OBJECT - Google Patents

Abstract

This device is intended to transfer a fluid to an autonomous rotating object. It uses a housing (2) which receives the fluid (0) (1) a rotary hollow shaft (3) secured to stop discs (4) which feed a circular plate (6) intended to be in agreement with the object to supply fluid. The shaft and the stops float without friction in films of the fluid to be transported which allows the use of lighter materials. Weight is an important criterion in aviation. This type of housing is intended to supply fluid to rotating objects during their rotation, eg propellers, thrusters, motor rotors, using a fluid.

Description

DESCRiPTION There are many devices that allow for a long time the transfer of energy by fluids from a fixed point to supply energy to rotating elements.

For example, cylinders for paper-making machines fed with steam. These often employ conventional bearings or plain thrust bearings, or bearings. However, the use of a fluid bearing is more rare and is even less common for a fluid stop. This is not yet known if it is to supply fluid to a very autonomous rotating object such as propellers or thrusters.

The last objects discovered that increase the axial thrust of these objects are those of the Patent CARPYZ published on 06 09 2013 under No. FR 2087657, thrusters that simultaneously add in the same wheel the actions of a turbo with that of a propeller and that of a reactor that is fed with a fluid and whose reaction is obtained by pressing the boundary layers in the vicinity by a circular jet around the periphery of the wheel acting both towards its interior fed simultaneously by the propeller and to its outside Patent Arnold GOTTFRIED No. WO2008 / 113088 Al which was cited by the examiner in the research report issued 17 months after the filing which mentions a propeller however very different but which nevertheless allowed him to tax the CARPYZ patent of a X obviously disputed, because it concerns a simple propeller with independent blades and one-eyed large diameter that return behind each of its a jet through a small circular orifice and that common sense shows that it is not seriously comparable or opposable, the disposition of the jets being totally different. This patent should be quoted only in the background because the principle of the reaction also used by rockets, here used in common, can not interfere negatively with one another even if the desired goal, which is the improvement of the axial thrust, is the same.

The fluid bearings used for the shafts are often used individually and are not coupled with fluid disk stops provided with chambers that are powered by an independent fluid source. In our case it is the fluid to be transported which isolates the shaft so that there is no friction. This is not known with a floating shaft in the fluid to be transferred without friction. It is remarkable that in our case it is the leaks authorized by the calibrated games of the bearing and the abutment which allow the flow of all the fluid to be transferred which is led to the outlet by the interior of a hollow shaft. This same method is used alternatively with bearings and stops smooth but provided with spider legs Lightness is now a very important criterion sought for all advanced equipment, especially in the air, and the absence of friction allows the use of composites lighter than metals when they are compatible with the fluid carried. The absence of friction also eliminates the noise and wear that exists with bearings and thrust bearings, rollers, needles, etc. Propulsion is increasingly used and this case of transfer of fluid to propellers will benefit from markets of the future in full expansion.40 This device for the transfer of a fluid by its pressure differential to an autonomous rotating object that uses a bearing and a stop is remarkable in that the fluid (0) (1) to be transferred is preferably received axially (0) in a housing (2) which contains a hollow shaft (3) which is secured to a disk (4) which use the fluid to be transferred to keep in concentricity with the axis of rotation and to remain in length without friction and that the hollow shaft end after its exit from the housing (5) is attached at its end a a circular plate which has an open chamber (6) in which opens the hollow shaft (7) and which is provided to be secured in accordance with the requirement of the autonomous rotating object which is to supply fluid (8).

This device for the transfer of a fluid by its pressure differential to an autonomous rotating object which uses a bearing and is remarkable in that the hollow shaft is held in concentricity with the axis of rotation by a fluid bearing provided with opposite compression chambers (11) and in length by a fluid stop also provided with opposed compression chambers (12) and that the chambers of the shaft and stop are equipped with adjusting devices (V) and are energized simultaneously by the fluid to be transferred and that the center of the disk communicates through orifices with the hollow of the shaft (13) and in front of the chambers the surfaces of the shaft and the disk are smooth and that the tip of hollow shaft after its exit from the housing (5) is attached at its end to a circular plate which has an open chamber (6) in which opens the hollow shaft (7) and which is intended to be secured in accordance with the object turning autono me who is to supply fluid (8). This device for the transfer of a fluid by its pressure differential to an autonomous rotating object which uses a bearing and a stop is remarkable in that the hollow shaft (3) is contained in a smooth bore (14) and it is hollowed out with evolutive hollow spiral spider legs (15) and the stop disc (16) is contained between two smooth faces (17) and both sides thereof are hollowed out with hollow spiral spider legs progressive (18) and that the shaft and the abutment are preferably fed in series by the fluid to be transferred and that the hollow shaft end after its exit from the housing is attached at its end to a circular plate which has an open chamber (6) in which opens the hollow shaft (7) and which is intended to be secured in correspondence with the autonomous rotating object which is to supply fluid (8) This device for the transfer of a fluid by its differential of pressure to an ob autonomous rotating jet which uses a bearing and a stop is remarkable in that a bearing (R) and a stop (B) mechanical are secured externally with the housing after the output of the shaft and are mounted in safety with the necessary play so that they are normally not in contact with the shaft or the disc when the fluidic devices are sufficient to keep the shaft and the stop in the non-frictional position and the hollow shaft end after its exit from the housing is attached at its end to a circular plate which has an open chamber (6) in which opens the hollow shaft (7) and which is intended to be secured in concordance with the autonomous rotating object which is fluid supply (8) 40 This device for the transfer of a fluid by its pressure differential to an autonomous rotating object that uses a bearing and a stop is remarkable in that, at the exit of the shaft after the goal before the self-contained tray are placed joints (J) on the fixed parts of the housing which are placed closer to the outputs of the shaft. This device for the transfer of a fluid by its pressure differential to an autonomous rotating object which uses a bearing and a stop is remarkable for the fact that the circular plate is provided with receivers (r) which pick up electric fields or magnetic or wave coming from the outside (20) (21) without contact.

This method of constructing a fixed housing powered by a fluid to be transferred is remarkable in that an electric motor preferably squirrel cage or brushless (19) is preferably interposed inside in a chamber of the housing between the bearing and the stop and whose rotor is secured to the shaft and whose stator is preferably immersed in the fluid. This method of constructing a fixed housing powered by a fluid to be transferred is remarkable in that the hollow of the tree contains ducts or partitions which share the surface of the hollow of the shaft along its length and are placed in concordance with the needs of the object to feed. Fig 3. DRAWINGS The drawing page 1/1 shows two half sections of devices: It also shows a section of the hollow shaft which contains ducts Fig 3 Fig 1 shows a half section of a set with bearings and fluid stop. Fig 2 shows a half section of a set with bearings and abutment smooth with spider leg. The fluid enters by 0 and 1 in the case 2. The hollow shaft is marked 3 and the discs 4. The shaft outlet of the housing is marked with the circular plate 6, the output of the hollow shaft in the plate 7 and the circular plate 8.

A chamber of the fluid bearing is encrypted 11 and the chambers of the disk 12 with an adjustable fluid inlet V. The passage at the foot of the disk towards the inside of the hollow shaft 13. The smooth bore of the plain bearing 14 and a tab spider 15 on the tree. The disc of the abutment 16, the two smooth faces of the abutment 17, the disc with its spider legs 18. An electric motor stator 19. Two transmitters of electric or magnetic fields 20 supplying energy to its receiver r and a transmitter exchanging information with its receiver r. Seals are optionally placed near the shaft J. A bearing and a mechanical stop are mentioned R and B.

Claims (3)

CLAIMS 1 °) Device for the transfer of a fluid by its pressure differential to an autonomous rotating object that uses a bearing and a stop characterized in that the fluid (0) (1) to be transferred is preferably received axially (0) in a housing (2) which contains a hollow shaft (3) which is secured to a disk (4) which use the fluid to be transferred to keep in concentricity with the axis of rotation and to remain in length without friction and that the hollow shaft end after its exit from the housing (5) is attached at its end to a circular plate which has an open chamber (6) in which opens the hollow shaft (7) and which is intended to be solidarized in accordance with the requirement of the autonomous rotating object to supply fluid (8). 2 ° Device for the transfer of a fluid by its pressure differential to an autonomous rotating object which uses a bearing and an abutment according to the first claim characterized in that the hollow shaft is held in concentricity with the axis of rotation by a fluid bearing provided with opposite compression chambers (11) and in length by a fluid abutment also provided with opposite compression chambers (12) and that the chambers of the shaft and the abutment are equipped with adjusting devices ( V) and are fed simultaneously by the fluid to be transferred and that the center of the disk communicates through holes with the hollow of the shaft (13) and that opposite the chambers the surfaces of the shaft and the disk are smooth and that the hollow shaft end after its exit from the housing (5) is attached at its end to a circular plate which has an open chamber (6) into which the hollow shaft (7) opens and which is intended to be secured inconcordance with the autonomous rotating object to supply fluid (8). 3) Device for the transfer of a fluid by its pressure differential to an autonomous rotating object which uses a bearing and an abutment according to the first claim characterized by the fact that the hollow shaft (3) is contained in a bore smooth (14) and that it is dug with evolutive hollow spiral spider legs (15) and that the stop disc (16) is contained between two smooth faces (17) and that both sides are dug with legs evolutionary hollow spiral spider (18) and that the shaft and the abutment are preferably fed in series by the fluid to be transferred and that the hollow shaft end after its exit from the housing is attached at its end to a circular plate which has an open chamber (6) into which the hollow shaft (7) opens and which is adapted to be secured in correspondence with the autonomous rotating object to supply fluid (8) 4 °) Device for the transfer of a fluid by its different pressure of an autonomous rotating object which uses a bearing and a stop according to the preceding claims, characterized in that a bearing (R) and a stop (B) mechanical are secured to the outside with the housing after the exit of the shaft and are mounted securely with the necessary clearances so that they are normally not in contact with the shaft or with the disk when the fluidic devices are sufficient to maintain the shaft and the stop in the non-friction position and that the hollow shaft end after its exit from the housing is attached at its end to a circular plate which has an open chamber (6) in which opens the hollow shaft (7) and which is intended to be secured in concordance with the object turned autonomous nt to supply fluid (8) °) Device for the transfer of a fluid by its pressure differential to an autonomous rotating object which uses a bearing and a stop according to the rev previous endications characterized in that, at the output of the shaft after the stop before the self-contained plate are placed joints (J) on the fixed parts of the housing which are placed closer to the outputs of the shaft. 6 °) Device for the transfer of a fluid by its pressure differential to an autonomous rotating object which uses a bearing and an abutment according to the preceding claims, characterized in that the circular plate is provided with receivers (r) which capture electric or magnetic fields or waves from outside (20) (21) without contact. 7 °) Device for transferring a fluid by its pressure differential to an autonomous rotating object which uses a bearing and a stopper according to the preceding claims, characterized in that an electric motor preferably squirrel cage or brushless (19) is preferably interposed inside a chamber of the housing between the bearing and the stop and whose rotor is secured to the shaft and whose stator is preferably immersed in the fluid. 8 °) Device for the transfer of a fluid by its pressure differential to an autonomous rotating object which uses a bearing and a stopper according to the preceding claims, characterized in that the hollow of the shaft contains ducts or partitions which share the area of the hollow of the tree along its length and are matched to the needs of the object to feed. Fig 3.