The subject of the present invention is a rotor moulded of plastic material, intended for rotary installation in a cavity of a pump body and for reception of one or more vanes forming the pumping members. The vane pumps are widely used for pumping fluids, and for example they find particular applications in motor vehicles.
To the rotor of a vane pump three operations are mainly required:
(1) Transmission of the motion. The rotor, which is driven in rotation within a chamber of the pump body, transmits the movement to the vane or the vanes of the pump. It undergoes sliding displacements against the surfaces of the pump body with respect to which it is made to rotate. The rotor is required not to undergo excessive wear and not to produce excessive friction during its sliding displacements.
(2) Guide for the vane or the vanes of the pump. The rotor guides the vane or the vanes which, during the operation, undergo sliding displacements against the guide parts of the rotor. The rotor is required not to undergo itself nor cause to the vanes a noticeable wear, and not to produce excessive friction.
(3) Seal of the fluids. The rotor is required to actuate an operation of seal to the air and the oil in correspondence to the mechanical clearances and, in particular, to the friction bearings and to the regions where the rotor is tangent to the wall of the chamber inside the pump body.
In order to be able to perform these different functions, these rotors have a relatively complicated shape and, therefore, it is suitable and customary that they are embodied by moulding a suitable plastic material. However, the rotors of plastic material have some disadvantages. The plastic material has not a high mechanical resistance, it is relatively subject to wear in the portions subject to gliding contact, it is subject to non negligible ageing phenomena, and it is considerably sensible to the changes in temperature, which are particularly severe in the applications to motor vehicles, where the pump is required to operate within a large temperature field from −40° C. to +150° C.
According to the known technique, these disadvantages may be partially overcome or reduced by having recourse to special complicated rotor shapes and to an increase of the cross sections thereof and therefore of the quantity of material used, and in any event it is unavoidable to accept a suitable limitation of the stresses undergone by the material, to which correspond some limitations of the possible rotor performances.
This invention aims to improve the plastic material rotors for vane pumps, by avoiding or reducing the stated disadvantages, and thus allowing the rotors to give better performances without increasing their size and mass.
Therefore, the subject of this invention is a rotor, moulded of plastic material, intended to be rotatably mounted into a cavity of a pump body, and having a space intended to accommodate one or more vanes forming the pumping members, characterized in that at least a part of the surfaces thereof, intended to undergo sliding displacements against other pump members, is covered by at least one metallic foil caused to adhere to the subjacent surface of plastic material, intended to reduce the resistances to the sliding displacements and also to mechanically reinforce the rotor. Said metallic foil can preferably consist of a steel sheet or an aluminum alloy sheet.
The application of the feature according to the invention allows attaining various considerable advantages. In particular, the mechanical resistance of the rotor is increased without having recourse to increased cross sections and therefore to an increased mass of plastic material. It is therefore possible to provide rotors having performances like those of the usual rotors, by somewhat reducing the size, the weight and finally the cost thereof, or even to conserve the size of a rotor by increasing its performances without increasing its mass and cost. For example, it becomes possible to have the pump rotating at an increased speed and therefore giving higher performances. For example, on a diesel engine it becomes possible to have the pump driven by an output shaft more rapid than that usually employed. Such pumps may also find useful applications on gasoline engines, wherein the rotational speed is larger that that of diesel engines. In designing the pump it is possible to provide a larger axial extension of the vanes, thus attaining a larger volume with a same rotor diameter. Also, a better resistance to the temperature is attained, whereby work conditions are allowed, that are more burdensome than those usually allowable.
Preferably, the metallic foil has a main substantially plane working surface and some portions bent with respect to the working surface, serving for anchoring the metallic foil to the rotor of plastic material.
In some embodiments of the invention, the metallic foil is made solid to the rotor body of plastic material by co-moulding. In this case, the other portions of the metallic foil that are bent with respect to its main working surface may receive configurations particularly suitable for increasing the anchorage of the metallic foil to the rotor body at the time of the co-moulding operation.
In other embodiments, the metallic foil is mechanically fixed to the rotor body that is moulded of plastic material. In this case, the portions of the metallic foil that are bent with respect to its main working surface may receive configurations particularly suitable for increasing the mechanical anchorage of the metallic foil to the rotor body that is moulded of plastic material.
In special embodiments, the metallic foil has a substantially plane working surface, intended to cover an end surface of the rotor, from which project some portions bent with respect to said plane surface, intended to line the rotor space designed to receive one or more vanes. It is of advantage that said bent portions intended to line the rotor space designed for receiving the vanes are terminated, at their end portions opposite said plane surface, by conformations suitable for being mutually connected or stuck.
Alternatively, said bent portions intended to line the rotor space designed for receiving the vanes may be terminated, at their end portions opposite said plane surface, by tongues suitable for being bent against corresponding rotor surfaces.
These and other features, objects and advantages of the subject of the present invention will more clearly appear from the following description of some embodiments, being not limiting examples, with reference to the accompanying drawings, wherein:
Referring now to
In those cases in which not only the end face of rotor 1 has to be reinforced, but also the space 2 for the vanes, in the manufacture of the rotor of
In the embodiments so far described, the reinforcement metallic foil is joined to the rotor by a co-moulding operation. However it is also possible, and in certain cases may be preferable, that the metallic foil is connected to the rotor by mechanical way, without having recourse to a co-moulding operation. To this operating manner-refer the embodiments described in the following.
In those cases in, which not only the end face of rotor 1 has to be reinforced, but also the space 2 for the vanes, to the rotor may be fixed a metallic foil as that represented in
The described metallic foils can be manufactured of any suitable metallic material, but especially of steel sheet or a suitable aluminum alloy sheet, although also other metals, such as brass and aluminum bronze, could be chosen. Their application to the rotor moulded of plastic material, either effected by co-moulding or, by mechanical application, allows attaining the advantages stated in the preamble. Of course, although the application to a rotor of only one metallic foil has been described, a rotor may receive the application of more than one reinforcement metallic foil, when needed.
It is to be understood that the invention is not limited to the embodiments described and illustrated as examples. Several possible changes have been stated in the description, and various others are within the capacity of a skilled person. The cited changes and others, and any replacement by technically equivalent means, may be introduced in what has been described and illustrated, without departing from the spirit of the invention and the scope of this Patent as defined by the appended Claims.
Number | Date | Country | Kind |
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TO2006A000263 | Apr 2006 | IT | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP07/03078 | 4/3/2007 | WO | 00 | 9/23/2008 |