Rotary expansible chamber devices – Working member has planetary or planetating movement – Plural working members or chambers
Reexamination Certificate
2002-06-12
2003-09-16
Denion, Thomas (Department: 3748)
Rotary expansible chamber devices
Working member has planetary or planetating movement
Plural working members or chambers
C418S152000, C418S178000
Reexamination Certificate
active
06619937
ABSTRACT:
FIELD OF THE INVENTION
The invention concerns a hydraulic machine with a tooth set, having a gear wheel, which is arranged to be rotating and orbiting in a toothed ring, the tooth set being arranged between two plates in the axial direction.
BACKGROUND OF THE INVENTION
A machine of this kind is also called a gerotor machine. When supplied with pressurised fluid, it can be operated as a motor. For the purposes of the present invention, this is the main application area. Of course, such a machine can also be operated as a pump, when the gear wheel is driven in relation to the toothed ring.
In such a machine, the gear wheel, which usually has one tooth less than the toothed ring, together with the toothed ring forms a number of pressure pockets or chambers, whose size is reduced or increased when the gear wheel rotates or orbits in relation to the toothed ring. In this connection, the gear wheel bears with its circumferential surface on certain areas of the toothed ring, usually in the area of the teeth. A continuous contact must be ensured to provide a sealing of the individual pressure pockets in relation to each other.
When, however, the hydraulic fluid contains dirt particles, there is a risk that the dirt also penetrates into the tooth set, thus, for example, damaging the rotor. A damage of this kind may occur even through a scratch or a flute, caused by a dirt particle reaching the area where gear wheel and toothed ring bear on each other. The damage in itself involves no big problem. However, there is a risk that a damage of this kind provokes a partial leakage, which again may cause additional damage. This again reduces the life of the machine.
The task of the invention is to extend the life of the machine.
SUMMARY OF THE INVENTION
In a hydraulic machine of the kind mentioned in the introduction, this task is solved in that at least a section of the circumferential surface of one of the two components, toothed ring and gear wheel, is made of a material, which is substantially harder than the material of the part of the other component, gear wheel and toothed ring, bearing on this section.
This embodiment ensures that on the next passing of this very hard spot a damage is evened again. Most frequently, a damage is not caused by a material removal but by a material displacement. On the next passing of the very hard spot, this material displacement can be reversed again. However, also in connection with a material removal the very hard spot is able to even the part provided with the not so hard material to such a degree that the desired smooth surfaces are available. Under certain circumstances, the damaged spot has to pass the hard spot several times. All in all, the tooth set becomes less dirt sensitive and therefore gets a longer life. In this connection it is advantageous to select the hard material so that its stability, its friction coefficient and its coefficient of thermal expansion are at least approximately equal to the corresponding parameters of the remaining material.
Preferably, the toothed ring has teeth, which are formed by rolls, and the section is made up of at least one roll.
This is a very simple way of providing the machine. Toothed rings having rolls as teeth are known per se. When now one of these teeth is made so that it has the desired hardness, the fixing of the hard section on the toothed ring involves no problems. Neither does the transition from the hard section to another section.
Preferably, the roll is made of a ceramic material or has a surface layer of a ceramic material. The ceramic material can be chosen so that it is harder than the material of which the gear wheel is made. Such ceramic materials are known per se.
Preferably, the ceramic material is chosen from the group silicium nitride, carborundum or zirconium dioxide. With such materials, the desired hardness can be produced. Such materials are available as powders. Initially, they can then be pressed to a cylinder shape, then be sintered and smoothed and finally polished. Already the use of one single roll of such a ceramic material will provide the desired extension of the life.
It is also advantageous that the axial length of the rolls is larger than the length of the gear wheel and that the rolls are supported in at least one plate. With this embodiment it is obtained that at least the front sides of the rolls, which project over the gear wheel and thus are supported in the plate, only need to be worked with a reduced accuracy. This leaves only the circumferential working of the rolls, which is required anyway, as the circumference of the rolls is still cooperating with the gear wheel. A sealing between the plate and an inserted roll can at least reach the same quality as a front side sealing.
Usually, it is even possible to reach an improved sealing here. The end face working of the rolls in this spot can almost be completely avoided. It is sufficient to cut off the rolls, for example after working the circumference of the rolls. Most important, however, is the fact that a pairing between the rolls and the gear wheel with regard to their axial lengths can be avoided. Thus, the length tolerances of the rolls are much larger.
Preferably, the rolls are at least supported in the plate, which has commutation openings. This automatically provides an improved allocation between the commutation openings and the individual chambers, which are formed between the toothed ring and the gear wheel. This allocation is obtained and maintained in that the rolls are inserted in the corresponding plate, which can also be called “valve plate”.
Preferably, the rolls are supported in both plates. Thus, tilting forces cannot act upon the rolls, which could increase the wear. The bores, in which the rolls are inserted, therefore wear less fast.
Preferably, the rolls are inserted substantially to the same depth in both plates. This gives an improved balance situation, which also contributes to a reduction of the wear.
Advantageously, the rolls are arranged in the plates with an axial play. This ensures that the machine is less sensitive to different thermal expansions of the individual parts. At any rate, the sealing is maintained.
Preferably, the rolls are rotatably supported. The rotatable support of a roll in a bore is possible without problems, without causing much trouble in connection with the sealing. When the rolls rotate, the operating behaviour of the machine is improved.
In a preferred embodiment, at least one plate has oblong commutation openings, which are arranged between the rolls. Due to the bores, which are available for the rolls, less room is available for the commutation openings. However, in order still to provide the desired flow cross section for the hydraulic fluid, the commutation openings are made oblong.
It is also advantageous that the material of the plate, in which the rolls are inserted, is softer than the material of the rolls. This also applies, when the rolls are rotating. The friction between the circumference of the rolls and the cylinder wall of the bore usually causes less wear than the front face wear between the rolls and the plate required until now.
Preferably, the rolls are held in a roll carrier of the toothed ring, whose material has, at least in the area of the rolls, a reduced stability compared to the material of the gear wheel. Until now, the roll carrier has had two functions to perform, namely, firstly to seal the rolls and secondly to serve as slide bearing, that is, to define the position of the rolls in the toothed ring. The latter function is now no longer required, as the rolls are held in the plates. The plates also absorb the forces, which are exerted on the rolls by the gear wheel. Thus, the roll carrier only has to perform the sealing function. However, this is much simpler, as the varying load of the roll carrier is avoided or substantially reduced. This also permits a considerable reduction of the production costs of the toothed ring. A reduced accuracy is required, as the plates secure the exact position of the rolls.
In this connection it i
Friedrichsen Welm
Kiil Hans-Erik
Rasmussen Claus Tjørnly
Denion Thomas
Sauer-Danfoss Holding A/S
Trieu Theresa
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