DE102011017481B4 - Pump device for a component, in particular a transmission, of a motor vehicle - Google Patents

Abstract

Pumping device (10) for a component, in particular a transmission, of a motor vehicle, with at least one housing part (22), through which a receiving space (20) is at least partially delimited, and with an axis of rotation (16) relative to the housing part (22) rotatable drive element (26), which is accommodated at least partially in the receiving space (20) and via which the pump device (10) can be driven to convey an operating medium of the component, the drive element (26) as a result of at least indirect pressurization of the drive element (26) can be acted upon by the operating medium in the axial direction of the drive element (26) and is thereby held in at least indirect support contact with the housing part (22), the drive element (26) having a shaft (12) rotatable about the axis of rotation (16) and a shaft (12) with which Shaft (12) comprises a non-rotatably coupled sprocket (18), which is wrapped at least partially by a chain (24) of a chain drive for driving the pump device (10), characterized in that the sprocket (18) in the axial direction of the pump shaft (12). the pump shaft (12) is attached and secured relative to it, the shaft (12) of the drive element (26) opening into the pressure chamber (30, 32) in such a way that an end face extends at least substantially perpendicular to the axis of rotation (16). (34) of the pump shaft (12) is pressurized by the gear oil during operation of the gear oil pump (10), whereby the pump shaft (12) and the sprocket (18) are pressed in the direction of the housing part (22) designed as a chain case cover, whereby in A thrust washer (36) is arranged in the axial direction between the chain wheel (18) and the housing part (22) designed as a chain case cover, via which the chain wheel (18) is operated during operation of the pump device (10) as a result of the pressure and the associated force application is held in indirect support system with the housing part (22) designed as a chain case cover.

Description

The invention relates to a pump device for a component, in particular a transmission, of a motor vehicle, which is specified in the preamble of claim 1.

The WO 2009/036 723 A1 discloses a pump insert of a vane pump without its own housing, which is inserted in a gear housing. The pump insert includes a first pressure plate, a contour ring, a rotor, a drive shaft, a vane and a second pressure plate. Furthermore, the pump insert is fixed axially in the transmission housing on the second pressure plate by a locking ring. The pressure of an operating medium to be conveyed by the vane pump causes an axial force on components of the vane pump, so that a misalignment of the components can be avoided.

Further relevant state of the art is: DE 10 2007 053 718 A1 and the DE 41 37 279 A1 .

It has been shown that with such pumping devices and other pumping devices known from the series production of motor vehicles, problems can arise with regard to the drive of the pumping devices.

It is therefore the object of the present invention to provide a pump device for a component, in particular for a transmission, of a motor vehicle, which has an improved drive.

This object is achieved by a pump device for a component, in particular a transmission, of a motor vehicle with the features of patent claim 1. Advantageous refinements with useful and non-trivial further developments are specified in the remaining claims.

Such a pump device for a component, in particular a transmission, of a motor vehicle comprises at least one housing part, through which a receiving space is at least partially delimited. Furthermore, the pump device comprises a drive element which is rotatable about an axis of rotation relative to the housing part and which is accommodated in the receiving space at least in some areas. The pump device can be driven via the drive element, so that the pump device can pump an operating medium of the component.

It is assumed that the drive element can be pressurized at least indirectly by the operating medium to be conveyed or conveyed by means of the pumping device and can subsequently be acted upon with a force in the axial direction of the drive element, that is essentially in the direction of the axis of rotation, and thereby at least indirectly Support system must be held with the housing part.

In other words, the pump device is driven via the drive element. The pump device puts the operating medium under pressure and thereby delivers the operating medium. During operation, the drive element is at least indirectly pressurized by the operating medium, which is in particular under pressure, with the operating medium acting, for example, on a surface of the pump device. Depending on the pressure of the operating medium and the size of the surface, the pressurization of this surface results in a force which acts on the drive element in the axial direction. This force holds, in particular presses, the drive element at least indirectly against the housing part, so that the drive element is at least indirectly supported on the housing part. As a result, the drive element is held, in particular pressed, in at least almost permanent and at least indirect contact with the housing part during operation of the pump device.

A desired and defined position of the drive element is thus ensured and maintained during operation of the pump device, resulting in an advantageous and efficient drive of the pump device. This defined position or position of the drive element is represented in a relatively simple manner and with simple and inexpensive means, so that the pump device according to the invention has very low costs. Furthermore, the pumping device according to the invention can be manufactured and assembled in a timely and cost-effective manner.

The drive element comprises, in a known manner, a shaft that can be rotated about the axis of rotation and a chain wheel that is connected to the shaft in a rotationally fixed manner and can be rotated about the axis of rotation. The sprocket has a toothing, which is to be wrapped at least in some areas by a chain of a chain drive in the circumferential direction of the sprocket. This allows the sprocket to be coupled to the chain, so that torques for driving the pumping device can be transmitted via the chain to the sprocket and further to the shaft.

The chain coupled on the one hand to the sprocket is, on the other hand, coupled to a further sprocket, for example, in that a further toothing of the further sprocket is wrapped around the chain at least in some areas in the circumferential direction of the further sprocket. The further The chain wheel can be driven, for example, via another component, in particular an internal combustion engine, or the like of the motor vehicle. As a result, the pump device according to the invention can be driven by the further component via its sprocket, the chain and the further sprocket in order to convey the operating medium.

According to the invention, the sprocket is attached to the pump shaft in the axial direction of the pump shaft and secured relative to it.

Furthermore, according to the invention, the shaft opens into the pressure channel of the pump device according to the invention, so that an end face of the shaft that runs at least essentially perpendicular to the axis of rotation is pressurized by the operating medium. This results in the force described, which acts on the shaft in the axial direction. The shaft is thus pressed by the force in the direction of the housing part, with the shaft taking along the chain wheel, which is also firmly connected to the shaft in the axial direction. The shaft and the chain wheel can thus be held in supporting contact with the housing part, so that the chain wheel in particular assumes the advantageous and defined position at least almost permanently during operation.

As a result, the chain wheel can be held in a particularly advantageous relative position to the other chain wheel. A particularly advantageous alignment of the chain (chain alignment) can thus be set and maintained securely during operation of the pump device according to the invention. This leads to a particularly advantageous and efficient driving of the pump device according to the invention via the further component.

Furthermore, according to the invention, a thrust washer is arranged in the axial direction between the chain wheel and the housing part designed as a chain box cover, via which the chain wheel is held in indirect support contact with the housing part designed as a chain box cover during operation of the pump device as a result of the pressure and the associated force.

During operation of the pump device, during which the operating medium is pumped under pressure, the operating medium is pumped, for example, into or through a pressure chamber or a pressure channel of the pump device. It is preferably provided that the drive element opens into this pressure chamber or pressure channel and can be pressurized by the operating medium via the pressure channel and thereby be subjected to force. The operating medium acts, for example, on an end face of the drive element, which extends at least substantially perpendicular to the axis of rotation of the drive element. The force described above results from the pressurization of the end face by the operating medium, which holds the drive element at least indirectly in supporting contact with the housing part and thus in the advantageous and desired position. This means that the drive element can be held in a defined manner in a cost-effective manner.

The pump device is designed, for example, as a transmission oil pump for a transmission as the component of the motor vehicle and serves to pump transmission oil of the transmission.

Further advantages, features and details of the invention result from the following description of a preferred exemplary embodiment and from the drawing. The features and feature combinations mentioned above in the description as well as the features and feature combinations mentioned below in the description of the figures and/or shown alone in the figure can be used not only in the combination specified in each case, but also in other combinations or on their own, without the scope of to abandon invention.

The drawing shows a section of a schematic longitudinal sectional view of a transmission oil pump for conveying transmission oil of a transmission of a motor vehicle, in which, during operation of the transmission oil pump, a chain wheel of a drive element of the transmission oil pump is pressurized and subsequently subjected to force by transmission oil and thus in at least an indirect support system is held in a housing part of the transmission oil pump.

The figure shows a pump device 10 designed as a transmission oil pump for a transmission of a motor vehicle. The transmission oil pump 10 serves to convey transmission oil for lubricating and cooling the transmission, for example assigned to an internal combustion engine of the motor vehicle. The transmission oil pump 10 includes a drive element 26 with a pump shaft 12, which is rotatably mounted on a pump part 14 of the transmission oil pump 10 about an axis of rotation 16 relative to the pump part 14. The drive element 26 further comprises a chain wheel 18, which is connected to the pump shaft 12 in a rotationally fixed manner. Torques for driving the transmission oil pump 10 can thus be transmitted between the chain wheel 18 and the pump shaft 12. Furthermore, the sprocket 18 arranged on the pump shaft 12 is fastened to the pump shaft 12 in the axial direction of the pump shaft 12 and the sprocket 18, that is to say in the direction of the axis of rotation 16, and is relative to this secured. The chain wheel 18 is accommodated in a receiving space 20, which is at least partially delimited by a chain case cover 22. The chain case cover 22 is, for example, a housing part of the transmission and/or an internal combustion engine of the motor vehicle assigned to the transmission. A so-called chain box is at least partially limited by the chain box cover 22, whereby the receiving space 20 can be a portion of this chain box.

The chain case serves to accommodate a chain drive, which includes at least one chain 24. As can be seen from the figure, the chain 24 wraps around the chain wheel 18 at least in some areas in its circumferential direction. As a result, the sprocket 18 is coupled to the chain 24, so that torques can be transmitted from the chain 24 to the sprocket 18 and, as a result of the rotationally fixed connection of the pump shaft 12 to the sprocket 18, to the pump shaft 12. The chain 24 is coupled to a further chain wheel of the chain drive in that the chain 24 wraps around the further chain wheel at least in some areas in its circumferential direction.

The additional chain wheel is connected, for example, in a rotationally fixed manner to a shaft, which can be driven, for example, by the internal combustion engine. As a result, the drive element 26 of the transmission oil pump 10 can be driven with the pump shaft 12 and the sprocket 18 via the internal combustion engine, the further sprocket and the chain 24.

A conveying element 28 of the drive element 26 is also connected in a rotationally fixed manner to the pump shaft 12, by means of which the transmission oil can be pressurized and thus conveyed. During operation of the transmission oil pump 10, the transmission oil is conveyed under pressure through a pressure channel 30 of the transmission oil pump 10. The pressure channel 30 is fluidly connected to a pressure chamber 32 via a fluidic connection that cannot be seen in the figure, so that during operation of the transmission oil pump 10 not only the pressure channel 30 but also the pressure chamber 32 is pressurized with transmission oil.

As can be seen from the figure, the pump shaft 12 opens into the pressure chamber 32. As a result, an end face 34 of the pump shaft 12, which extends at least substantially perpendicular to the axis of rotation 16, can be pressurized by the transmission oil during operation of the transmission oil pump 10. The gear oil acts on the end face 34. Depending on the pressure of the gear oil provided by the gear oil pump 10 and the size of the end face 34, the pressurization of the end face 34 by the gear oil results in a force, which is indicated by a force arrow F in the figure is and which acts in the axial direction of the pump shaft 12 in the direction of the chain case cover 22.

In other words, this means that the shaft is subjected to the force shown by the force arrow F as a result of its pressurization by the gear oil. This causes the pump shaft 12 to be pressed in the direction of the chain case cover 22. The pump shaft 12 takes the sprocket 18 with it as a result of the axial connection, so that the sprocket 18 is also subjected to the force indirectly as a result of the pressurization. As a result, the chain wheel 18 is also pressed indirectly in the direction of the chain case cover during operation of the transmission oil pump 10. A thrust washer 36 is arranged in the axial direction between the chain wheel 18 and the chain case cover 22, via which the chain wheel 18 is held in indirect support contact with the chain case cover 22 during operation of the transmission oil pump 10 as a result of the pressure and the associated force application. In other words, the pressurized gear oil is used to press the sprocket 18 at least indirectly against the chain case cover 22 and thus the sprocket 18 at least almost permanently during the operation of the gear oil pump 10 in a desired and defined position, in particular relative to the other sprocket to keep.

Through this defined alignment and positioning of the sprocket 18, which lasts during operation of the transmission oil pump 10, in particular relative to the further sprocket, an advantageous and desired alignment (chain line) of the chain 24 can be set and through the at least essentially permanent support system of the sprocket 18 on the chain case cover 22 be guaranteed and maintained. As a result, the transmission oil pump 10 can be driven particularly advantageously and efficiently.

Due to the described one-sided application of pressure and thus force to the drive element 26 by the gear oil, a play of the drive element 26 relative to the pump part 14 and/or relative to the further chain wheel can also be adjusted and in particular compensated for, so that the advantageous alignment of the chain 24 can be adjusted can.

As can be seen from the figure, the transmission oil pump 10 also has a time-saving and cost-effective assembly. Furthermore, setting and ensuring the desired position of the sprocket 18 is made possible in a relatively simple manner also benefits the low costs of the transmission oil pump 10.

The thrust washer 36 is attached to the chain case cover 22. This means that the drive element 26 rotates relative to the thrust washer 36 during operation of the transmission oil pump 10. For lubricating and cooling the support system of the drive element 26 on the thrust washer 36, the chain case cover 22 includes, for example, an inlet channel, by means of which lubricating oil, in particular gear oil, can be collected from the chain case. For this purpose, the inlet channel is, for example, at least essentially funnel-shaped and open towards the top in the vertical direction. This means that lubricating oil can get into the inlet channel, which then leads the collected lubricating oil to the thrust washer 36. The inlet channel opens between the chain case cover 22 and the thrust washer 36.

In order to now lubricate and cool the support system between the drive element 26 and the thrust washer 36, the thrust washer 36 has a passage opening 38 that is at least essentially central with respect to the thrust washer 36. The lubricating oil can reach between the drive element 26 and the thrust washer 26 via this passage opening 38 and lubricate the support system there. This means that the lubrication of the support system on the front side of the pump shaft 12 and the chain wheel 18 is realized in a simple and cost-effective manner.

Claims (5)

Pumping device (10) for a component, in particular a transmission, of a motor vehicle, with at least one housing part (22), through which a receiving space (20) is at least partially delimited, and with an axis of rotation (16) relative to the housing part (22) rotatable drive element (26), which is accommodated at least partially in the receiving space (20) and via which the pump device (10) can be driven to convey an operating medium of the component, the drive element (26) as a result of at least indirect pressurization of the drive element (26) can be acted upon by the operating medium in the axial direction of the drive element (26) and is thereby held in at least indirect support contact with the housing part (22), the drive element (26) having a shaft (12) rotatable about the axis of rotation (16) and a shaft (12) with which Shaft (12) comprises a non-rotatably coupled sprocket (18), which is wrapped at least partially by a chain (24) of a chain drive for driving the pump device (10), characterized in that the sprocket (18) in the axial direction of the pump shaft (12) is attached to the pump shaft (12) and secured relative thereto, the shaft (12) of the drive element (26) opening into the pressure chamber (30, 32) in such a way that one extends at least substantially perpendicular to the axis of rotation (16). The end face (34) of the pump shaft (12) is pressurized by the gear oil during operation of the gear oil pump (10), whereby the pump shaft (12) and the sprocket (18) are pressed in the direction of the housing part (22) designed as a chain case cover, whereby A thrust washer (36) is arranged in the axial direction between the chain wheel (18) and the housing part (22) designed as a chain case cover, over which the chain wheel (18) is operated during operation of the pump device (10) as a result of the pressure and the associated pressure Force application is held in an indirect support system with the housing part (22) designed as a chain case cover. Pump device (10). Claim 1 , characterized in that the drive element (26) opens at least partially into a pressure chamber (30, 32), in particular a pressure channel (30, 32), of the pump device (10), via which the operating medium can be conveyed and via which the drive element (26 ) can be pressurized by the operating medium, in particular directly. Pump device (10). Claim 1 , characterized in that the housing part (22) has at least one guide element, in particular a guide groove, a guide channel or the like, for lubricants, in particular lubricating oil, by means of which lubricant can be guided to the starting element (36) for lubricating the area of the support system. Pump device (10). Claim 3 , characterized in that the thrust washer (36) has at least one passage opening (38) through which the lubricant guided to the thrust washer (36) by means of the guide element passes through the thrust washer (36) between the thrust washer (36) attached to the housing part (22). and the drive element (26) which is rotatable relative to the thrust washer (36) can be guided. Pumping device (10) according to one of the preceding claims, characterized in that the pumping device (10) is designed as a lubricant pump (10), in particular as a lubricating oil pump (10), for a transmission as the component of the motor vehicle.

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