High efficiency hydraulic machine with radial cylinders
The hydraulic machine with radial cylinders (3, 4, 5, 6 and 7) comprises pistons (8) with radial stroke, arranged in contact with an outer cam (13) and coplanar with said group of cylinders, each equipped with a roller on the path (12) of said cam, and it has, in each piston (8), a rolling bearing (9, 10, 11), arranged with the inner ring coupled or coinciding with the pin (9) for supporting said roller (10) and the outer ring (10) coupled or coinciding with the roller (10) itself; moreover, it has the roller (10) and the corresponding rolling bearing (9, 10, 11) with a small size such as to also allow, in the alternating motion of the piston (8), introduction steps of said roller in the respective liner of the cylinder (3, 4, 5, 6 and 7). It comprises, in a further embodiment, in each piston (21), an anti-friction ferrule (23) placed in contact with the pin (22) or with an inter-positioned and coupled support element (25) for said roller (20); said ferrule being coupled with the inner diameter of the roller (20) itself. Finally, in a more complete embodiment, it comprises both the static and dynamic O-rings each consisting of a metal ring (28, 31) mounted with interference in the coupling on the sealing diameter (D) and housed in a throat (29, 36) with slight axial clearance.
The invention concerns a high efficiency hydraulic machine with radial cylinders, that is a machine in which said radial cylinders rotate with the drive shaft and through the rolling of a roller associated with the relative piston cross an outer path, or else the path itself rotates, equipped with cams for the generation of alternating motion, in which the composition of the pistons allows a high efficiency to be attained.
The state of the art comprises the hydraulic machines that have been known for years in which in said cylinders the pistons move behind the action of the outer cam and against which they are thrusted by the pressure of the hydraulic liquid present in them. Said type of machine foresees using a roller arranged inside the piston itself between the outer end of each piston and the cam. The rotation of the shaft, or of the liner with the cam, makes said roller slide on the cam realising the radial alternating motion of the piston in the corresponding cylinder. Said rollers are coupled with the corresponding piston with a portion of anti-friction ferrule or with a hydrostatic support bearing: from this comes substantial energy consumption, during the compression of the piston against the path of said cam, indeed by sliding friction between said roller and the piston itself or by leaking of the liquid from said hydraulic bearing. In this last case the hydraulic machine is slightly larger due to the fact that the roller, obviously larger in size, does not enter into the diameter of the liner.
Versions of this type of hydraulic machine have been realised in which each piston is supported by a pin outside of the cylinder in which the piston is inserted; at the side of this pin two rolling bearings are arranged to reduce the friction. These rolling bearings have the outer ring in contact with said cam, in this case double, i.e. on both sides of the group of cylinders and with the greatest diameter of the cylinder group itself. This embodiment, although realising a good energy yield in contact between pistons and cam, through the contact of said pairs of rolling bearings with the pair of cams, has substantial bulk which prevents it from being used widely and easily.
Such a state of the art is susceptible to substantial improvements with respect to the possibility of realising a hydraulic machine with radial cylinders which, having a high efficiency, also has low bulk.
From the above derives the need to solve the technical problem of overcoming the teaching of the previous embodiments and realising a support with minimum bulk such as to be able to be introduced inside the roller on said outer path, to support the substantial specific pressures generated in the thrust.
A further technical problem is that of minimising the spaces occupied by the inactive parts of the motor and, on the other hand, increasing the spaces occupied by active parts of the motor.
The invention solves the aforementioned technical problem by adopting a hydraulic machine with radial cylinders of the type comprising the pistons with radial stroke, arranged in contact with an outer cam and coplanar with said group of cylinders, each equipped with a roller on the path of said cam, characterised in that it has, in each piston, a rolling bearing arranged with the inner ring coupled or coinciding with the support pin for said roller and the outer ring coupled or coinciding with the roller itself.
Moreover, in a further embodiment, by adopting the roller and the corresponding rolling bearing of a small size such as to allow entry into the liner of the cylinder.
By adopting, in addition, a piston for a hydraulic machine with radial cylinders with the pistons with radial stroke, arranged in contact with an outer cam and coplanar with said group of cylinders, equipped with a roller on the path of said cam, characterised in that it has said roller coupled in rotation with said piston with a rolling bearing.
Furthermore, in a further embodiment, by adopting, in each piston, an anti-friction ferrule placed in contact with the pin or with an inter-positioned and coupled support element for said roller; said ferrule being coupled with the inner diameter of the roller itself.
Moreover, in a further embodiment, by adopting said element placed between the pin and the anti-friction ferrule consisting of a spacer sleeve mounted with interference on said pin: the anti-friction surface of the ferrule is in sliding contact on the outer surface of said sleeve.
Furthermore, in a further embodiment, by adopting said ferrule in planar iron material wound inside said roller, on which there is a layer of anti-friction plastic material firmly anchored on it through a layer of sintered metal.
Moreover, in a further embodiment, by adopting the thickness of the element in iron material of said bearing between 0.4 and 4% of the sliding diameter; advantageously, the thrust blocks at the sides of said roller resting upon the shoulders of the piston, equipped with at least one face, a layer of anti-friction plastic material and the sintered anchoring layer thereof.
Furthermore, in a further embodiment, by adopting the thickness of said layer of anti-friction plastic material advantageously between 1 and 12 1/100 of a millimetre and the thickness of said sintered metal anchoring layer between 10 and 40 1/100 of a millimetre.
By adopting, in addition, a piston for a hydraulic machine with radial cylinders with the pistons with radial stroke, arranged in contact with an outer cam and coplanar with said group of cylinders, equipped with a roller on the path of said cam, characterised in that it has said roller coupled in rotation with said piston with an anti-friction ferrule and relative support pin.
Finally, by adopting, in the seals of the hydraulic machines with radial cylinders, both static and dynamic O-rings each consisting of a metal ring mounted with interference in the coupling on the sealing diameter and housed in a throat with slight axial clearance; advantageously, they have a large depth of said throat with respect to its width and the width of the ring and the side shoulder of each O-ring with a width a little greater than the depth of the throat.
An embodiment of the invention is illustrated as an example in the attached six tables of drawings in which
Moreover,
Furthermore, FIGS. 4 to 8 show a further embodiment, for obtaining the high efficiency hydraulic machine, comprising a rotating support between the roller 20 and the piston 21 in which the rotation support pin 22, of said roller 20 through the ferrule 23, realised through a planar element 24 in iron material, is wound inside said roller 20, on which there is a layer of anti-friction plastic material firmly anchored on it through a layer of sintered metal; said ferrule being with the inner surface in contact and sliding on the outer surface of a spacer sleeve 25 coupled with said pin 22, with substantial interference. The shoulders 26 of piston 21 support the extremities of said pin 22 with interference, whereas said spacer sleeve 25 realises the axial shouldering of said shoulders 26 during assembly. Moreover, in the axial contact between said shoulders 26 and the roller 20, the thrust blocks 27 are inserted, consisting of the metal body and coating on one face with said layer of anti-friction plastic material and said sintered anchoring layer. Finally, said figures show the metal O-ring 28 coupled with interference at the diameter of the liner of the cylinder and inserted in a seat 29, in the piston 21, with slight side clearance; the low thickness and the elasticity in elongation allow the assembly of the entire ring 28 in said seat 29.
In
The operation of the hydraulic machine according to
Consequently, the efficiency of the hydraulic machine with radial pistons, of the type described here, has an improvement from the usual 70% to 90% on average near to the static torque. A substantial economic advantage can be obtained by replacing the previous pistons with the roller with sliding friction with the new pistons equipped with the rolling bearing described here. Said hydraulic machine shall thus have a somewhat higher efficiency decreasing the energy wastage to obtain the same work without the need to integrally replace the machine itself.
The pin 9 and the outer ring 10 are treated with setting heat treatments, advantageously carried out on steel of the type with minimised inclusions, to allow a sufficient lifetime of the rolling surfaces.
The performance of the pistons 21 according to
Thus, advantageously, the thickness of the inter-positioned thrust blocks 27 in iron material between 10 and 16 1/10 of a millimetre excluding the thickness of the anti-friction plastic material and anchoring sintered layers. Moreover, both in the case of the ferrule and for said thrust block, the thickness of said layer of anti-friction plastic material is advantageously between 1 and 12 1/100 of a millimetre; and the thickness of said layer of anchoring sintered metal is between 10 and 40 1/100 of a millimetre.
Finally, in the new embodiment of the hydraulic machine with the distributor 30 according to
The advantages obtained with the present invention are: the drastic improvement of the losses for friction in the rolling of the roller on the path and on the piston; indeed, the separation of the roller/path and roller/pin sliding surfaces allows the mounting up of the effects of sliding of the outer surface of the roller on the piston and of rolling on the surface of the cam, typical of the state of the art, to be avoided. Thus, according to the present invention between the outer surface of the roller and the cam there is just rolling friction, whereas between the roller and the support pin there can be sliding friction, with the sliding bearing, or sliding friction, with the aforementioned anti-friction ferrule.
In practical embodiment the materials, the sizes and the embodying details can be different from those indicated, but technically equivalent to them, without for this reason departing from the legal protection of the present invention.
Claims
1) A hydraulic machine with radial cylinders of the type comprising pistons with radial stroke, arranged in contact with an outer cam and coplanar with said cylinders, each equipped with a roller on a path of said cam, characterised in that it has, in each piston, a rolling bearing, arranged with a inner ring coupled or coinciding with a pin for supporting said roller and an outer ring coupled or coinciding with the roller itself.
2) A hydraulic machine according to the previous claim 1, characterised in that it has the roller and the corresponding rolling bearing with a small size such as to also allow, in the alternating motion of the piston, introduction steps of said roller in the liner of the cylinder.
3) A hydraulic machine according to the previous claim 1, characterised in that it has said rolling bearing of a so-called full complement type.
4) A hydraulic machine according to the previous claim 1, characterised in that it has said rolling bearing with rollers with an annular cage.
5) A hydraulic machine according to the previous claims 4, characterised in that it has said bearing with the annular cage in the middle of the bearing.
6) A hydraulic machine according to the previous claim 1, characterised in that it has said bearing with the pin and the outer ring treated with setting heat treatments on steel of the type with minimised inclusions.
7) A piston for a hydraulic machine with radial cylinders with the pistons with radial stroke, as claimed in previous claim 1, arranged in contact with an outer cam and coplanar with said group of cylinders, equipped with a roller on the path of said cam, characterised in that it has said roller coupled in rotation with said piston with a rolling bearing.
8) A hydraulic machine with radial cylinders of the type comprising pistons with radial stroke, arranged in contact with an outer cam and coplanar with said cylinders, each equipped with a roller on a path of said cam, characterised in that it has, in each piston, an anti-friction ferrule placed in contact with a pin or with an inter-positioned and coupled support element for said roller; said ferrule being coupled with a inner diameter of the roller itself.
9) A hydraulic machine according to the previous claim 8, characterised in that it has said support element positioned between the pin and the anti-friction ferrule consisting of a spacer sleeve mounted with interference on said pin; an anti-friction surface of the ferrule is in sliding contact on an outer surface of said sleeve.
10) A hydraulic machine according to the previous claim 8, characterised in that it has said ferrule in planar iron material, wound inside said roller, on which there is a layer of anti-friction plastic material anchored in a stable way on it through a layer of sintered metal.
11) A hydraulic machine according to the previous claim 10, characterised in that it has the thickness of the support element in iron material of said bearing between 0.4 and 4% of the sliding diameter.
12) A hydraulic machine according to the previous claim 8, characterised in that it has thrust blocks at the sides of said roller resting upon shoulders of the piston, equipped with, at least one face, a layer of anti-friction plastic material and a sintered anchoring layer thereof.
13) A hydraulic machine according to the previous claim 10, characterised in that it has the thickness of said layer of anti-friction plastic material advantageously between 1 and 12 1/100 of a millimetre and the thickness of a sintered metal anchoring layer between 10 and 40 1/100 of a millimetre.
14) A piston for a hydraulic machine with radial cylinders with the pistons with radial stroke, as claimed in previous claim 8, arranged in contact with an outer cam and coplanar with said cylinders, equipped with a roller on the path of said cam, characterised in that it has said roller coupled in rotation with said piston with an anti-friction ferrule and relative support pin.
15) A hydraulic machine with radial cylinders of the type comprising pistons with radial stroke, arranged in contact with an outer cam and coplanar with said cylinders, each equipped with a roller on a path of said cam, characterised in that it has both static and dynamic O-rings each consisting of a metal ring mounted with interference in the coupling on a sealing diameter and housed in a throat with slight axial clearance.
16) A hydraulic machine according to the previous claim 15, characterised in that it has a large depth of said throat with respect to its width and that of the ring.
17) A hydraulic machine according to the previous claim 16, characterised in that it has the side shoulder of each O-ring with a width slightly greater than the depth of the throat.
18) A hydraulic machine according to the previous claim 15, characterised in that it has the roller supported by a pin with a rolling bearing, arranged with a inner ring coupled or coinciding with the pin for supporting said roller and the outer ring coupled or coinciding with the roller itself.
19) A hydraulic machine according to the previous claim 15, characterised in that it has the roller supported by a pin with a sliding friction bearing with an anti-friction ferrule, placed in contact with the pin or with an inter-positioned and coupled support element for said roller; said ferrule being coupled with a inner diameter of the roller itself.
Type: Application
Filed: Oct 1, 2003
Publication Date: Mar 2, 2006
Inventors: Felice Pecorari (Campogalliano), Gabriele Pecorari (Modena)
Application Number: 10/529,888
International Classification: F01B 1/06 (20060101);