DE102011076022A1 - Roller tappet, in particular a piston pump - Google Patents

Abstract

Roller tappet 6, in particular a piston pump, the roller tappet 5 having a roller 9 which cooperates with a roller shoe 8 and is rotatably mounted. According to the invention, the starting behavior of a roller 9 mounted on the roller shoe 8 of the roller tappet 5 is improved. This is achieved in that the roller 9 has a bolt 17 for mounting on the roller tappet 6 and that the roller 9 is adjustable relative to the roller tappet 5 until the roller 9 is in contact with the roller tappet 5.

Description

The present invention relates to a roller tappet, in particular a piston pump, wherein the roller tappet has a cooperating with a roller shoe and rotatably mounted roller. Furthermore, the invention relates to a method for optimizing a bearing of a roller in a roller shoe of a roller tappet.

State of the art

Such a roller tappet is from the DE 10 2009 029 297 A1 known. This roller tappet is designed for use in a high-pressure piston pump of an injection system for an internal combustion engine and has a roller of a roller tappet mounted in a roller shoe. The roller is cylindrical and is mounted with its cylinder circumference in a corresponding part-cylindrical recess of the roller shoe. This design is designed so that lubricating fuel is selectively conveyed in the region endangered by cavitation between the roller shoe and the roller, thereby increasing the pressure in this area and thus reducing vapor bubble formation.

Furthermore, it is known to store the roller using a bolt in the roller shoe. For this purpose, the roller has a central longitudinal bore into which the bolt is inserted. The bolt is then mounted with its protruding from the bore end portions in the roller shoe. This embodiment of the roller tappet has a better start-up behavior than the roller mounted on its outer circumference. Especially with large forces to be transmitted but the bolt must be made very solid in order to ensure a predetermined durability.

The invention has for its object to improve the startup behavior of a roller shoe mounted on a roller tappet roller.

Disclosure of the invention

Advantages of the invention

This object is achieved in that the roller has a pin for storage relative to the roller shoe and that the roller to the roller tappet is adjustable to a contact of the outer periphery of the roller to the roller tappet. A corresponding method for optimizing a bearing of a roller in a roller shoe of a roller tappet is characterized in that the bearing of the roller between a pin bearing and a roller bearing periphery is switchable. This embodiment according to the invention and the method according to the invention offer the advantage that the advantages of both concepts are combined on one roller tappet, while the disadvantages of both concepts are avoided. The switching between the pin bearing and the roller peripheral bearing is inventively made so that at a low force acting on the roller tappet or load the pin bearing is active, while at a large force acting on the roller tappet the roller circumferential bearing is active. As a result, the start-up behavior of the roller is significantly improved with respect to a roller peripheral bearing at low load on the roller tappet, while on the other hand at a high load acting by switching to the roller peripheral bearing the pin bearing does not transmit high forces and thus can be constructed much more compact. Overall, the construction costs for the roller tappet according to the invention moves at the level of a roller tappet with a pure pin bearing, but combines the advantages of a roller tappet with a pin bearing with that of a plunger with a roller peripheral bearing. In this case, in the case of the roller bearing in a further embodiment, the roller with an outer circumference in a roller at least partially receiving recess.

In a further development of the invention, the bolt is mounted resiliently in the roller shoe. In this case, the suspension device can be designed as desired and, for example, operate mechanically or hydraulically. Thus, the hydraulic suspension device may for example be designed so that an already existing lubricant is introduced into a hydraulic cylinder and is derived when exceeding a predetermined hydraulic pressure, for example via a valve device from the damping chamber for adjusting the bolt relative to the roller shoe. Preferably, however, the suspension device is a mechanical suspension device, in which a turn arbitrarily designed spring is used. The spring presses with low acting force, the roller of the roller shoe so far away that the circumference of the roller does not cooperate with the corresponding inner circumference of the roller shoe. In contrast, at high acting force, the roller is moved so far towards the roller shoe, that the roller cooperates with its outer periphery with an inner periphery of the recess of the roller shoe. In this case, this interaction can be coordinated so that a reliable hydrodynamic lubrication takes place by the corresponding design of a lubrication gap between the roller and the roller shoe.

In a further embodiment of the invention, the bolt cooperates with at least one holder, wherein the holder is adjustable to the roller shoe. In turn, in a further embodiment, the holder is displaceable in an inserted into the roller shoe guide. This embodiment is mechanically reliable, but constructive and inexpensive feasible low.

In a further development of the invention, the roller shoe on the side facing away from the bolt in the guide on a spring receiver. This spring receptacle is in turn formed in a further development of the invention as a blind hole, which can be easily manufactured. In particular, a coil spring can be used in this spring receiver. A coil spring has the advantage that it is easy and inexpensive to produce with a variety of spring rates according to the requirements. It is also conceivable within the scope of the invention, however, to use the blind hole as hydraulic fluid receiving space in a hydraulic suspension.

In a further development of the invention, the holder is used captive in the guide. This embodiment provides that the holder is inserted during assembly in the guide that this is held in a suitable manner in the guide, but it is movable in the switching shown for the. This embodiment has the advantage that, in particular in a shoring of the pre-assembled roller tappet this forms a reliable unit to be handled.

Preferably, two holders are installed on the end faces of the roller for guiding the protruding from the roller end sides of the bolt on the roller tappet according to the invention. Incidentally, the roller may be rotatable relative to the bolt and the bolt may be firmly clamped in the holder. But it is also conceivable within the scope of the invention to manufacture the bolt, for example, in one piece with the roller and rotatably support the bolt in the two opposite holders.

In a development of the invention, the roller shoe is intended for use on a high-pressure piston pump of a fuel injection system. Such a high-pressure piston pump is constructed a pressure of more than 1600 bar, which must be transmitted from the roller tappet during operation of the high-pressure piston pump.

Further advantageous embodiments of the invention are described in the drawings, in which an illustrated in the figures embodiment of the invention is described in detail.

Brief description of the drawings

Show it:

1 a section through a portion of a piston pump with a arranged between a pump camshaft and a pump piston roller tappet and

2 a roller tappet according to 1 in a side view.

Embodiment of the invention

The piston pump according to 1 is a high-pressure pump for a fuel injection system of an internal combustion engine, which promotes fuel with a pressure of more than 1,600 bar in particular in a high-pressure accumulator. The fuel injection system is designed as a common-rail injection system of a diesel-fueled auto-ignition internal combustion engine, wherein the high-pressure pump is supplied by a low-pressure pump fuel from a fuel tank.

The high-pressure pump has a pump housing 1 with a pump interior 2 on, wherein in the pump housing 1 a pump camshaft 3 is rotatably mounted. The pump camshaft 3 is suitably driven directly or indirectly by the internal combustion engine, for example by the crankshaft or the camshaft thereof. The pump camshaft 3 has at least one cam 4 in the pump interior 2 is arranged. The pump interior 2 Incidentally, the low-pressure pump supplies fuel, on the one hand, for lubricating the bearing of the pump camshaft 3 and is forwarded to continue in a pump working space of the piston pump for delivery into the high-pressure accumulator. In the pump housing 1 is still a roller tappet 5 mounted translationally movable, wherein the roller tappet 5 a plunger body 6 comprising, in a tappet guide of the pump housing 1 is movable. The plunger body 6 has an inner ring flange 7 on, on which pump camshaft side a roller shoe 8th supported. The roller shoe 8th acts with a roller 9 together, on the tread of the cam 4 rolls. The interaction of the roller 9 with the roller shoe 8th will be explained in more detail below.

Opposite to the pump camshaft 3 rests on the roller shoe 8th a pump piston 10 with a pump piston foot 11 from. The pump piston 10 becomes with the pump piston foot 11 from a pump spring 12 over a spring plate 13 against the roller shoe 8th pressed. This is supported by the pump spring 12 on a pump cylinder head, integral with a pump cylinder 20 in which the pump piston 10 is movable to form the pump working space, from.

The pump working space is the fuel to be delivered via a metering unit and a suction valve from the pump interior 2 supplied and at a delivery stroke of the pump piston 10 The introduced into the pump chamber fuel is conveyed via a check valve in the high pressure accumulator.

At full load of the piston pump, the fuel is pumped out of the pump working space at a pressure of more than 1,600 bar and correspondingly high on the pollen ram 5 and the pump camshaft 3 acting strain. On the other hand, for example, during a cold start of the internal combustion engine, the pressure in the high-pressure accumulator may have dropped to a level below 100 bar, for example, and the load is correspondingly low in this operating state. It should be noted that even at this fuel pressure level, the engine can be started. However, it is important to ensure a targeted and reliable lubricating film structure between the mutually moving parts of the high-pressure pump, especially in this operating state of the startup of the internal combustion engine and the high pressure pump. For this purpose, the high pressure pump or the roller tappet 5 a mechanism that at low load the storage of the roller 9 Switches between a pin bearing and roller bearing outer bearing.

This mechanism has two in the roller shoe 8th against the force of one spring each 15 sliding holders 14 on top of the pump camshaft 3 facing side in each case a bearing bore 16 for a bolt 17 exhibit. The bolt 17 extends along the central axis through the roller 9 and forms a bearing for the roller 9 at low load. These are the holders 14 each in the leadership 18 slidable and press the roller 9 - as in 2 shown - as far as a cylinder-section-shaped recess 19 out that the outer circumference of the roller 9 not in contact with the recess 19 stands. Instead, the roller is 9 in this operating condition exclusively via the bolt 17 stored. In this case, a relative movement between the roller 9 and the bolt 17 or between the bolt 17 and the two bearing bores 16 in the holders 14 respectively. This configuration ensures a good start-up behavior and a reliable lubrication of the components to each other. At high load to be transferred, the roller becomes 9 into the recess 19 until the outer circumference of the roller rests 9 at the recess 19 pressed, then the holder 14 in the guides 18 against the power of the springs 15 be pressed into it. In this operating condition, the high loads also without problems occurring force-transmitting storage of the roller takes place 9 exclusively in the recess 19 while the storage of the roller 9 over the bolt 17 virtually idle.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102009029297 A1 [0002]

Claims (11)

Roller tappets ( 6 ), in particular a piston pump, wherein the roller tappet ( 5 ) one with a roller shoe ( 8th ) cooperating and rotatably mounted roller 9 characterized in that the roller ( 9 ) a bolt ( 17 ) for storage relative to the roller tappet ( 6 ) and that the roller ( 9 ) to the roller tappet ( 5 ) to a contact of the outer periphery of the roller ( 9 ) on the roller tappet ( 5 ) is adjustable. Roller tappets ( 6 ) according to claim 1, characterized in that the roller ( 9 ) with an outer periphery in a roller ( 9 ) at least partially receiving recess ( 19 ) is present. Roller tappets ( 6 ) according to one of claims 1 or 2, characterized in that the bolt ( 17 ) resiliently on the roller shoe ( 8th ) is stored. Roller tappets ( 6 ) according to one of the preceding claims, characterized in that the bolt ( 17 ) with at least one holder ( 14 ) and that the holder ( 14 ) opposite the roller shoe ( 8th ) is adjustable. Roller tappets ( 6 ) according to claim 4, characterized in that the holder ( 14 ) in one in the roller shoe ( 8th ) embedded leadership ( 18 ) is displaceable. Roller tappets ( 6 ) according to one of claims 4 or 5, characterized in that the roller shoe ( 8th ) on the bolt ( 17 ) facing away in the leadership ( 18 ) has a spring receiver. Roller tappets ( 6 ) according to claim 6, characterized in that the spring receptacle is a blind hole. Roller shoe ( 6 ) according to one of claims 4 to 7, characterized in that the holder ( 14 ) captive in the lead ( 18 ) is used. Roller shoe ( 6 ) according to one of the preceding claims, characterized in that the holder ( 14 ) is made of a metallic material. Roller shoe ( 6 ) according to any preceding claim for use on a high pressure piston pump of a fuel injection system. Method for optimizing a bearing of a roller ( 9 ) in a roller shoe ( 8th ) of a roller tappet ( 5 ), characterized in that the bearing of the roller ( 9 ) is switchable between a pin bearing and a roller circumference bearing.

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