FR2502259A1 - Rotating hydraulic motor or pump with sliding vanes - has stator with rotor sliding axially in housings with seals for bearings - Google Patents

Abstract

The rotating hydraulic motor or pump has a stator and rotor with sliding blades (5). The blades slide axially in rotor housings (2). The blades are each applied against a continuous base stator surface (4) with linear openings. The rotor is made of two parts and the junction of these parts is made by axial fitting and they (1,1A) are symmetrical. There is a joint (9) for each rotor part and the corresponding stator part (3,3A). Another seal is placed between the rotor and stator (10,11) and the bearings (12) are isolated from the fluid.

Description

 The present invention relates to a rotary hydraulic device applicable as a brake or retarder and capable of also operating as a motor or a pump.

 The device according to the invention is of the type of generation of the Applicant's devices comprising sliding pallets, with axial sliding, arranged in alignment in housings of the rotor, which pallets are each applied, constantly and completely, on a surface continuous stator background, which can be a cycloidal surface, which can be deformed to present rectilinear zones or recesses suitable for the operation of the device, said recesses being able, moreover, to be made mobile.

 An electromagnetic control means allows each pallet to be pressed against the continuous surface of the stator base considered.

 The forces resulting from the hydraulic thrusts are retained statically by two stator elements interconnected by an annular casing forming a spacer.

 The rotor housings are closed peripherally by a frictionless hoop on the fixed elements other than the two stator elements.

 The hoop overflows on either side of the rotor and finds a housing in a space provided by the two stator elements. Each of the peripheral edges of the hoop has a seal bearing against one of the stator elements.

 This embodiment of a rotary hydraulic device has some drawbacks, in particular in terms of hoop stresses which are exerted mainly on the outer edges of the housings formed in the rotor and also in terms of possible deformations of the hoop during operation, which deformations are likely to hinder the sliding of the considered pallets arranged in alignment.

 The present invention intends to remedy these drawbacks and aims at a rotary device of easy mounting and reliable operation.

 The invention dispenses with any added hoop and aims at mounting two main rotor elements, the junction of the two rotor elements being effected by axial encounter, either along a radial plane, or along a cylindrical path.

 In both cases, to improve the protection of the sliding pallets, protective jackets can be provided in the rotor housing of the pallets.

 In the embodiment with a junction in a radial plane, the two rotor elements are symmetrical to each other and each have housing parts, two housing parts thus coming into alignment with each other when the two elements are joined.

 In the embodiment with a junction along a cylindrical path of the two rotor elements, one of these elements consists of a cylindrical rotor and the other element consists of a sliding ring, without hooping, stopped in rotation by a means of rotary blocking which can be constituted by a guide bar and its groove, the bar being produced on one of the two rotor elements and the corresponding groove being hollowed out in the other rotor element.

 Each shirt of a pair of pallets can advantageously be made in two contiguous parts, the whole forming a non-deformable protective shell.

Other characteristics and advantages of the present invention will emerge from the description which follows made with reference to the appended drawings, in which
- Figure 1 is a sectional view of an embodiment of a rotary device according to the invention, comprising two radially contiguous rotor elements, one of these elements being shown only in part;
- Figure 2 is a sectional view of a pallet protective jacket, according to the invention, enclosed in a rotor housing;
- Figure 3 is an exploded perspective view of an embodiment of a rotary device, according to the invention, comprising two rotor elements joined by axial encounter along a cylindrical path.

 In the two embodiments shown, the hydraulic device according to the invention is devoid of any rotor hoop.

 In the form shown in Figure 1, two rotor elements (1) and (1A) are shown joined along a radial plane (A) - (A). Each rotor element is hollowed out with a housing part (2) open by its periphery (2A) inwards, and by its periphery (2B) towards one of the two stator flanges (3) or (3A), which stator comprises, in addition to these two flanges, an annular casing (3B) connecting them.

 The continuous stator bottom surfaces (4) of the stator flanges may have, in a variable number, deformations with rectilinear zones suitable for operation or recesses. This number is identical on each stator flange and the recesses are opposite face to face.

 The sliding pallets (5), with axial sliding, are arranged in the housings (2) defined by the two rotor elements (1) and (1A) radially contiguous.

The pallets can move away from one another to be applied to the continuous surfaces of the stator base (4).

The application effect can be provided by electromagnetic control means (not shown) or by permanent application means such as: permanent magnets and / or springs (also not shown).

 Each housing part (2) formed in each rotor element (1) or (1A) is hollowed out radially below and beyond the height of the pallets so as to provide a radial clearance (6) on either side of the two pallets in alignment. These clearances are intended to receive a protective jacket for the pallets, which can be produced in a single part or.

in two symmetrical shells (7) contiguous along an axial plane (B) - (B) of the rotary device according to the invention.

 So as to stiffen all of the two shells (7), these can be curved outward or show flats (8). For ease of machining, the clearances (6) can be rounded and advantageously correspond to the curves given to the shells (7). Obviously, the clearances (6) can be angular.

 A seal (9) is provided between the peripheral portion furthest from the axis of rotation (X-X) of each rotor element (1) or (1A) and the stator flange (3) or (3A) which corresponds to it.

 Another sealing device is provided between the rotor and the stator on an outer periphery (10) and an inner periphery (11) of the stator. This sealing device allows operation with any fluid by isolating the bearings (12) from the rotor.

 A seal (13) is also provided between the portions furthest from the axis (X-X) of the rotor elements (1) and (1A).

 One of the rotor elements (for example element 1) shows a projection or assembly collar (14) intended to penetrate a corresponding annular groove (15) made opposite the collar (14) in the other rotor element (1A).

 The mounting of the rotary device according to the embodiment of Figure 1 is done as follows - the pallets (5) and the two symmetrical shells (7) constituting the protective jackets of these pallets, are introduced into the housing parts (2) of one of the rotor elements (for example element I) and the assembly constituted by this rotor element, all the liners (7-7) introduced into the housing parts (2) and comprising their pairs of pallets (5) is presented opposite the other rotor element (1A), the pairs of pallets (5) and the liners which surround them being introduced into the housing parts (2) of said other rotor element (1A).

Of course the seal (13) is arranged before the two rotor elements (1) and (1A) meet completely along the plane (A) - (A). Then just mount the stator (3) - (3A) - (3B) around the rotor assembly (l) - (lA) with interposition of seals (9) - (10) - (11) for mounting be accomplished.

 In the embodiment shown in Figure 3, a junction by axial meeting of two rotor elements (3C) - (3D) is obtained by sliding along a cylindrical path of one of these elements (3D) on the other element (3C).

 The element (3C) is in the form of a central cylindrical rotor while the element (3D) consists of an outer ring capable of sliding, without hooping, on the central rotor element (3C).

 In order to stop the ring (3D) from rotating relative to the cylindrical rotor (3C), the ring (3D), like the cylindrical rotor (3C), comprises additional locking means. These locking means, in the embodiment shown, include guide bars (16) produced inside the ring (3D) intended to be received in corresponding grooves (17) formed on the lateral surface of the cylindrical rotor (3C). It is understood that by this arrangement, the ring (3D) can not rotate relative to the central cylindrical rotor (3c).

 The central cylindrical rotor (3C) also shows radial slots (18) each constituting, with the ring (3D) which covers it, a housing intended to receive an assembly constituted by a pair of pallets (5) and shells (7) of protective pallet shirt.

 The ring (3D) overflows on either side of the central cylindrical rotor so as to extend the housings produced by the central cylindrical rotor and the ring, this so that the vanes can slide axially opposite the continuous stator bottoms having the rectilinear zones or recesses suitable for the operation of the device, the stator of this device can be produced on the example of that of the embodiment of FIG. 1 with the required seals.

 Whether it is the embodiment shown in Figure 1 or that shown in Figure 3, the pairs of vanes with their protective jacket (77) find their place in the rotor housings (2) of the device according to FIG. 1 only in the slots (18) of the device according to FIG. 3. Shims (19) can be provided at the two ends of the slots (18) in order to provide stops for blocking the liners (7-7) in the embodiment of FIG. 3. These wedges (19) prevent any axial displacement of the liners (7-7). They can be placed easily during the mounting of the device according to Figure 3, the main thing is the sliding of the ring (3D) on the central cylindrical rotor (3C) the stator (3) - (3A) - (3B) from surrounding all of the two rotor elements (3C) and (3D).

 The shims may have come in one piece with the central cylindrical rotor as shown in (19A).

 The aligned pallets can be placed back to back in the same common housing as in the embodiment described and shown. However, it is possible, within the framework of the invention, to envisage having a central stator part between the pallets in alignment and to produce on this central stator part the continuous bottom surfaces (4), on both sides. another of an axis of symmetry. This median stator part being, for example, fixed to the casing (3B).

 According to yet other possibilities of the invention, repetitive arrangements are adopted comprising several pairs of pallets (5) in alignment and several stator median parts.

 Finally, it is understood that the present invention has only been described and shown as a preferred example and that it will be possible to provide equivalences in its constituent elements without, however, departing from the scope of the invention. .

Claims (15)

 1. Rotary hydraulic device with stator and rotor and sliding pallets, with axial sliding, arranged in alignment in housings of the rotor, which pallets are each applied, in a constant and total way, on a continuous surface of stator bottom having rectilinear zones or recesses suitable for the operation of the device, characterized in that the rotor assembly consists of two main rotor elements, the junction of these two rotor elements being by axial meeting of said elements, without hooping or stress.  2. Device according to claim 1, characterized in that the junction of the two rotor elements is made by axial encounter in a radial plane.  3. Device according to claim 1, characterized in that the junction of the two rotor elements is made by axial meeting in a cylindrical way.  4. Device according to claim 2, characterized in that the two rotor elements (l-lA) are symmetrical to each other during the junction of the two elements along the radial plane (A-A).  5. Device according to claim 3, characterized in that one of the rotor elements is constituted by a cylindrical rotor (3C) and the other element is constituted by a sliding ring (3D), without shrinking, stopped in rotation by a rotary locking means.  6. Device according to claim 5, characterized in that the rotary locking means is constituted by guide bars (16) and their corresponding grooves (17), each bar being produced on one of the two rotor elements and each groove corresponding to it being hollowed out in the other rotor element.  7. Device according to any one of claims 1 to 6, characterized in that jackets are provided in the rotor housings to protect the sliding pallets (5).  8. Device according to claim 7, characterized in that each jacket is produced in two contiguous parts (7), the assembly forming a non-deformable protective shell.  9. Device according to claim 4, characterized in that each rotor element is hollowed out of a housing part (2) open on the one hand inwards and on the other hand towards a stator flange, which stator further comprises two flanges (3 or 3A), an annular casing (3) connecting them.  10. Device according to any one of claims 4 and 7 to 9, characterized in that each rotor housing (2) is hollowed out radially below and beyond the height of the pallet so as to provide on either side a radial clearance (6), these clearances being intended to receive a pallet protection jacket.  11. Device according to any one of claims 5 to 8, characterized in that shims (19-19A) avoid any axial displacement of the liners (7-7).  12. Device according to any one of claims 7, 8, 10 and 11, characterized in that the two contiguous parts of each jacket are constituted by shells (7) curved outwardly or showing flats (8), the housings receiving having a corresponding form or not.  13. Device according to any one of claims 1 to 12, characterized in that the aligned pallets are considered in pairs and arranged back to back in the same rotor housing.  14. Device according to any one of claims 1 to 12, characterized in that a stator middle part, carrying the continuous bottom surfaces with recesses, is disposed between the pallets of a pair of pallets.  15. Device according to claim 14, characterized in that repetitive arrangements are adopted between several pairs of pallets in alignment.