EP3023642A1 - Hydraulic pump with stackable individual modules for modifying the size and displacement - Google Patents

Abstract

A modular hydraulic pump for a motor vehicle comprises elements making it possible to vary together the external dimensions of the pump and its displacement to modify the flow of fluid passing through it. The pump is constituted by at least one unitary module (10), each having a constant external bulk and each comprising means for stacking it with another identical unitary module (10) to create a fluidic association in parallel of the two unitary modules. (10) thus stacked for the fluid passing through the pump, an inlet (11) and an outlet (12) of the unitary module (10) for the fluid intended to flow through the pump, and circulation means (13) fluid through the unitary module of the inlet (11) to the outlet (14) of the unitary module (10).

Description

Technical field of the invention

The invention relates to a modular hydraulic pump for a motor vehicle, in particular a modular pump for a lubricating fluid for a motor vehicle engine.

The invention also relates to a motor vehicle comprising such a modular hydraulic pump.

State of the art

The engines are more and more compact and the space requirements of neighboring parts of the hydraulic pump are important, especially in the engine compartment. In particular, rotating parts such as a crankshaft and connecting rods do not optimize the suction and discharge forms of a hydraulic pump. For the assembly of the pump on the lower part of the motor, it is also necessary to provide fixing screws and associated bosses. These can be of great height to ensure the passage of screwing machines for fixing the hydraulic pump without penalizing the shapes of the parts dedicated to the suction and discharge of the fluid passing through the pump.

At present, the boundary of the hydraulic pump is mainly defined by the pump body which encloses the rotor and the cavity for setting up the rotor and for the circulation of the fluid passing through the pump, and by the cover attached to the pump body. This boundary defines a size too large to be applicable transversely on a plurality of different types of engines.

It is currently necessary to create a wide variety of hydraulic pumps in order to adapt them to each type of engine. This results in design, manufacturing and management cost problems and a great complexity of organization in the face of this lack of standardization.

These problems, although concerning the particular case of the oil pump, can also affect other types of hydraulic pumps such as a pump for the coolant.

Object of the invention

The object of the present invention is to provide a modular hydraulic pump that overcomes the disadvantages listed above.

• des moyens permettant de l'empiler avec un autre module unitaire identique pour créer une association fluidique en parallèle des deux modules unitaires ainsi empilés pour le fluide traversant la pompe,
• une entrée et une sortie du module unitaire pour le fluide destiné à circuler à travers la pompe,
• et des moyens de mise en circulation du fluide à travers le module unitaire de l'entrée vers la sortie du module unitaire.

This object is achieved by means of a modular hydraulic pump for a motor vehicle, in particular a modular pump for a lubricating fluid for a motor vehicle engine, comprising elements making it possible to vary together the external dimensions of the pump and its displacement to modify the flow rate of fluid passing through it, the pump being constituted by at least one unitary module, in particular a plurality of such unitary modules, each having a constant external bulk and each comprising:

• means for stacking it with another identical unitary module to create a fluidic association in parallel of the two unitary modules thus stacked for the fluid passing through the pump,
• an inlet and an outlet of the unitary module for the fluid intended to flow through the pump,
• and means for circulating the fluid through the unitary module from the inlet to the output of the unitary module.

Each unitary module may in particular be configured to have a variable displacement.

According to a particular embodiment, two unit modules stacked with each other comprise separate discharge zones for separately discharging the fluid that passes through them and separate or common suction zones to admit the fluid intended to pass through them in each of them.

Each unitary module may comprise a pump body delimiting a cavity together with a lid fixed to said pump body and closing the cavity, and in which there is arranged a rotor belonging to the fluid circulation means of the corresponding unitary module.

The rotor can be rotatably mounted in a ring having a possibility of translation in the pump body, perpendicular to the axis of rotation of the rotor, under the effect of a control pressure and a pilot pressure within the pump body respectively on either side of the ring in its translation direction, to vary the cubic capacity of the unitary module.

According to a particular embodiment, two unit modules stacked with each other provide a positioning of the two unit modules offset relative to each other in a stacking direction coinciding with the common axis of rotation of the two rotors of these two stacked unit modules.

The rotor of each unitary module may comprise an individual drive shaft and the two individual drive shafts of two unitary modules stacked with each other are integral with each other in rotation, in particular via a link mechanical assembly allowing the engagement of a drive shaft of a unitary module with the drive shaft of the unitary module in the stacked state, to ensure the rotational drive jointly of the two rotors of these two unit modules and stacked.

Preferably, the modular hydraulic pump comprises a drive shaft common to two unit modules stacked together and crossing their two rotors together to ensure at the same time the drive in rotation.

The shapes of the pump bodies and covers of two unit modules stacked with each other are preferably configured so as to nest and position themselves relative to each other in the stacked state of the two unit modules.

According to another embodiment, each unit module is connected to a solenoid valve optimizing the operation of the modular hydraulic pump.

The solenoid valve may be common to the different unit modules stacked with each other which all have identical control parameters adjusted by said solenoid valve.

Alternatively, the modular hydraulic pump preferably comprises a respective solenoid valve associated with each unit module and the unit modules stacked with each other have different control parameters from one unit module to the other adjusted separately by the respective solenoid valves.

A motor vehicle will preferably include such a modular hydraulic pump. According to a particular embodiment in which the vehicle comprises an internal combustion engine, the modular hydraulic pump may be a flexible pump for a lubricating fluid ensuring the circulation of the lubricating fluid in the internal combustion engine.

Brief description of the drawings

• les figures 1 et 2 sont des vues en perspective d'un module unitaire d'un exemple de pompe hydraulique modulable selon l'invention, le couvercle étant respectivement absent et présent,
• la figure 3 est une vue en perspective de deux modules unitaires empilés,
• la figure 4 est une vue en perspective du module unitaire, le couvercle étant présent, sans les zones de refoulement et d'admission,
• les figures 5 et 6 sont des vues respectivement en perspective et de face, de deux modules unitaires empilés, sans les zones de refoulement et d'admission.

Other advantages and features will emerge more clearly from the following description of particular embodiments of the invention given as non-restrictive examples and shown in the accompanying drawings, in which:

• the Figures 1 and 2 are perspective views of a unitary module of an example of a modular hydraulic pump according to the invention, the cover being respectively absent and present,
• the figure 3 is a perspective view of two stacked unit modules,
• the figure 4 is a perspective view of the unitary module, the cover being present, without the discharge and intake zones,
• the figures 5 and 6 are respectively perspective and front views, of two stacked unit modules, without the discharge and intake zones.

Description of preferred modes of the invention

• des moyens permettant de l'empiler avec un autre module unitaire 10 identique pour créer une association fluidique en parallèle des deux modules unitaires 10 ainsi empilés pour le fluide traversant la pompe,
• une entrée 11 et une sortie 12 du module unitaire 10 pour le fluide destiné à circuler à travers la pompe,
• et des moyens de mise en circulation 13 du fluide à travers le module unitaire 10 de l'entrée 11 vers la sortie 12 du module unitaire 10.

The invention will now be described with reference to Figures 1 to 6 appended generally relates to a modular hydraulic pump for a motor vehicle, comprising elements to vary together the external size of the pump and its displacement to change the flow of fluid passing through it. In order to constitute such elements making it possible to vary concomitantly its external dimensions and its cubic capacity, the modular hydraulic pump is constituted by at least one unitary module 10, in particular a plurality of such unit modules 10, each having a constant external size. Each unit module 10 comprises:

• means for stacking it with another identical unitary module 10 to create a fluidic association in parallel of the two unitary modules 10 thus stacked for the fluid passing through the pump,
• an inlet 11 and an outlet 12 of the unitary module 10 for the fluid intended to flow through the pump,
• and means 13 for circulating the fluid through the unitary module 10 of the inlet 11 to the outlet 12 of the unitary module 10.

Preferably, each unit module 10 is configured to have a variable displacement.

It may especially be a modular pump for lubricating fluid for a motor vehicle engine, especially for the oil ensuring the lubrication function of the engine.

The invention also relates to a motor vehicle comprising such a modular hydraulic pump. In particular, but not exclusively, it may be a motor vehicle comprising an internal combustion engine and in which the hydraulic pump modulable is a modular pump for a lubricating fluid ensuring the circulation of the lubricating fluid, such as oil, in this internal combustion engine.

The solution presented here makes it possible to define a new technical perimeter of the function related to the modular hydraulic pump just needed to reduce its size and succeed in developing a standardization of hydraulic pumps. The improvement lies in the dimensioning of the unit module 10 at most just to facilitate its implementation. The choice of the number of unit modules 10 stacked to each other is a function of the hydraulic requirements, for example the flow rate of fluid intended to flow through the pump, but also of the overall size of the pump that is admissible in the face of the stresses of the pump. immediate environment of the pump within the engine compartment. The multiplication of the number of stacked unit modules 10 to one another makes it possible to vary, as required, the displacement of the hydraulic pump, which advantageously has a modular character by selecting the number of unit modules 10 stacked together within the hydraulic pump.

The different unit modules 10 used and stacked with each other within the modular hydraulic pump are preferably all identical for reasons of standardization and ease of organization and management.

It is taken care to size the unit module 10 to the fairest compared to the application constraints of small engines, which is the current trend in the automotive field.

Each unitary module 10 comprises a discharge zone 14 ensuring the circulation of the fluid passing through the unitary module since the circulating means 13 to the outlet 11. The discharge zone 14 comprises a first end in fluid communication with the circulation means 13 and a second end in fluid communication with the outlet 11. In particular, the outlet 11 may be constituted by this second end of the discharge zone 14, which can take the form of a simple opening.

Each unitary module 10 also comprises a suction zone 15 ensuring the circulation of the fluid passing through the unitary module from the inlet 12 to the circulation means 13. The suction zone 15 comprises a first end in fluid communication with the circulation means 13 and a second end in fluid communication with the inlet 12. In particular, the inlet 12 may be formed by this second end of the suction zone 15, which may take the form of a simple opening.

According to one embodiment, two unit modules 10 stacked with each other comprise separate discharge zones 14 for separately discharging the fluid flowing through them and separate or common suction zones 15 for admitting the fluid intended for them. to cross in each of them.

Each unit module 10 comprises a pump body 16 delimiting a cavity together with a cover 17 fixed to the pump body 16 and closing the cavity. A rotor 18 belonging to the circulation means 13 of the fluid of the corresponding unitary module 10 is disposed in the cavity. The lid 17 is fixed to the pump body 16 by any suitable means after the placing of the circulation means 13 in the cavity.

According to one embodiment, the rotor 18 is rotatably mounted in a ring 19 having a possibility of translation in the pump body 16, perpendicular to the axis of rotation X of the rotor, under the effect of a control pressure 20 and a pilot pressure 21 within the pump body 16 respectively on either side of the ring 19 along its Y translation direction. This makes it possible to make the cubic capacity of the unitary module 10 variable. Thus, in addition to the choice of the number of stacked unit modules, this parameter makes it possible to vary the cubic capacity of the pump as a whole.

Each unitary module can therefore have a variable displacement, like a hydraulic pump known from the prior art, but it has a bulk and a general volume constant and smaller than the hydraulic pumps known from the prior art.

Without limiting the freedom of spatial orientation of the direction according to which the unit modules 10 can be stacked, the embodiment as illustrated provides that two unit modules 10 stacked with each other provide a positioning of the two unit modules 10 offset with respect to each other in a stacking direction coinciding with the common axis of rotation X of the two rotors 18 of these two stacked unit modules 10. This has the effect of allowing an abutment of the rotors 18 of these two unit modules 10 if necessary.

In a first variant of the invention, the rotor 18 of each unit module 10 comprises an individual drive shaft 22. The two individual drive shafts 22 of two unit modules stacked with each other are integral with each other in rotation, in particular by means of a mechanical link allowing the engagement of a drive shaft 22. a unitary module 10 with the tree 22 of the unitary module 10 in the stacked state, to ensure the rotational drive jointly two rotors 18 of these two unit modules 10 and stacked.

Alternatively or in combination, not shown, a second variant of the invention provides that the modular hydraulic pump comprises a drive shaft common to two unit modules 10 stacked together and crossing their two rotors together 18 to ensure at the same time the training in rotation.

It is understood that the circulation means 13 is constituted by the assembly formed by the ring 19, the rotor 18, the drive shaft 22, the control pressure 20 and the pilot pressure 21.

Preferably, the shapes of the pump bodies 16 and lids 17 of two unitary modules 10 stacked with each other are configured so as to nest and position themselves relative to each other in the stacked state of the two unit modules 10.

Each unit module 10 is fluidly connected to a solenoid valve (not shown) optimizing the operation of the modular hydraulic pump.

In a first variant of the invention, the solenoid valve is common to the different unit modules 10 stacked with each other which all have identical control parameters adjusted by this solenoid valve.

Alternatively or in combination, a second variant of the invention provides that the modular hydraulic pump comprises a respective solenoid valve associated with each unit module 10. Unit modules 10 stacked with each other then have different control parameters from one unit module 10 to the other, adjusted separately by the respective solenoid valves.

• une standardisation des pompes hydrauliques face aux différents moteurs à équiper, notamment dans le cadre de moteur de petite taille,
• une application de manière transversale sur une pluralité de types de moteurs différents,
• une meilleure implantation de la fonction de la pompe hydraulique,
• une possibilité d'adaptation précise du dimensionnement de la cylindrée de la pompe hydraulique afin de l'adapter aux besoins spécifiques de chaque moteur.

The advantages of the previously described solution are;

• a standardization of hydraulic pumps facing different engines to equip, especially in the context of small engine,
• cross-application on a plurality of different types of engines,
• better implementation of the function of the hydraulic pump,
• a possibility of precise adaptation of the dimensioning of the displacement of the hydraulic pump in order to adapt it to the specific needs of each engine.

Claims (14)

Modular hydraulic pump for a motor vehicle, in particular a modular pump for a lubricating fluid for a motor vehicle engine, comprising elements making it possible to vary together the external dimensions of the pump and its displacement to modify the flow rate of fluid passing through it, the pump being constituted by at least one unitary module (10), in particular a plurality of such unitary modules (10), each having a constant external size and each comprising: means for stacking it with another identical unitary module (10) to create a fluidic association in parallel of the two unitary modules (10) thus stacked for the fluid passing through the pump, an inlet (11) and an outlet (12) of the unitary module (10) for the fluid intended to flow through the pump, - And means for circulating (13) the fluid through the unitary module of the inlet (11) to the outlet (14) of the unitary module (10). Modular hydraulic pump according to claim 1, characterized in that each unitary module (10) is configured to have a variable displacement. Modular hydraulic pump according to one of claims 1 or 2, characterized in that two unitary modules (10) stacked with each other comprise separate discharge zones (14) for separately discharging the fluid passing through them and separate or common suction zones (15) for admitting the fluid intended to pass through them in each of them. Modular hydraulic pump according to one of claims 1 to 3, characterized in that each unitary module (10) comprises a pump body (16) defining a cavity together with a cover (17) fixed to said pump body (16) and closing the cavity, and in which there is arranged a rotor (18) belonging to the circulation means (13) of the fluid of the corresponding unitary module (10). Modular hydraulic pump according to claim 4, characterized in that the rotor (18) is rotatably mounted in a ring (19) having a translational possibility in the pump body (16), perpendicular to the axis of rotation (X ) of the rotor (18), under the effect of a control pressure (20) and a pilot pressure (21) within the pump body (16) respectively on either side of the ring ( 19) in its translation direction (Y), for varying the cubic capacity of the unitary module (10). Modular hydraulic pump according to one of Claims 4 or 5, characterized in that two stacked unitary modules (10) ensure a positioning of the two unitary units (10) offset relative to one another. another in a stacking direction coinciding with the axis of rotation (X) common to the two rotors (18) of these two stacked unit modules (10). Modular hydraulic pump according to one of Claims 4 to 6, characterized in that the rotor (18) of each unitary module (10) comprises an individual drive shaft (22) and the two individual drive shafts (22). of two unitary modules (10) stacked with each other are integral with each other in rotation, in particular by means of a mechanical connection allowing the fitting of a drive shaft (22) of a module unitary (10) with the tree driving (22) of the unitary module (10) in the stacked state, to ensure the rotational drive jointly two rotors (18) of these two unitary modules (10) and stacked. Modular hydraulic pump according to one of Claims 4 to 7, characterized in that the modular hydraulic pump comprises a drive shaft common to two unitary modules (10) stacked together and traversing their two rotors ( 18) to ensure at the same time the training in rotation. Modular hydraulic pump according to one of Claims 3 to 8, characterized in that the shapes of the pump bodies (16) and the covers (17) of two stacked unitary units (10) are so as to nest and position themselves relative to each other in the stacked state of the two unitary modules (10). Modular hydraulic pump according to one of claims 1 to 9, characterized in that each unitary module (10) is connected to a solenoid valve optimizing the operation of the modular hydraulic pump. Modular hydraulic pump according to claim 10, characterized in that the solenoid valve is common to the different unit modules (10) stacked with each other which all have identical control parameters adjusted by said solenoid valve. Modular hydraulic pump according to claim 10, characterized in that the modular hydraulic pump comprises a respective solenoid valve associated with each unitary module (10) and the unit modules (10) stacked with each other have different control parameters from one unitary module (10) to the other adjusted separately by the respective solenoid valves. Motor vehicle comprising a modular hydraulic pump according to any one of claims 1 to 12. Motor vehicle according to claim 13, characterized in that it comprises an internal combustion engine and in that the adjustable hydraulic pump is a modulable pump for a lubricating fluid ensuring the circulation of the lubricating fluid in the internal combustion engine.

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