This application is the U.S. National Phase of PCT Application No. PCT/DE2019/100842 filed on Sep. 25, 2019, which claims priority to DE 10 2018 128 384.9 filed on Nov. 13, 2018, the entire disclosures of which are incorporated by reference herein.
This disclosure relates to a roller tappet for an internal combustion engine.
A generic roller tappet may be found in DE 10 2017 107 099 B3. The roller tappet is suitable for long installation lengths between pump cams and a following element such as a plunger. However, its complex design is disadvantageous for mass production. The elongated guide housing is in one piece and has a total of three different diameter steps in 5 segments on the outer jacket. On the one hand, the interference fit at the constriction groove of the housing can loosen. On the other hand, this interference fit can influence the high-precision guide surfaces on the outer jacket of the housing, for example in the case of an unfavorable tolerance position. Forming the guide housing by deep drawing requires unnecessary effort because of its length or proves to be almost impossible in the case of particularly long installation lengths to be bridged. Furthermore, it is found that the inner-walled support body in the guide housing is also too complicated and is also massive (extrusion).
EP 3 020 932 B1 discloses a three-part roller tappet with a solid drive-side and an annular shell-like output-side section. Both sections are coupled in the area of their fronts facing one another via a ring part as a support body (see FIG. 3).
EP 3 173 591 B1 shows a built-up roller tappet with a drive-side guide housing which is plugged together with a roller carrier, on the underside of which an adapter piece for contact with a follower element rests. The adapter piece protrudes beyond the guide housing to an extent that exceeds its height.
Furthermore, DE 10 2017 211 786 A1 discloses a roller tappet with a short design. Its guide housing has two axially successive rings joined together, of which the upper ring receives an insert piece with a pin and roller thereon.
Reference is also made to DE 10 2017 109 761 A1. This shows a roller tappet which is similar to the roller tappet from the first-mentioned DE 10 2017 107 099 B3. The guide housing here consists of two mutually joined, axially directly successive sections. In the joining area, a support body is placed over a radial plate.
DE 10 2016 207 679 A1 discloses an elongated roller tappet with a one-piece guide housing which is assembled with a multi-part support body, which at one end carries a pin with a roller on it and at the other end has a system for a follower member.
Another roller tappet for bridging long installation lengths can be found in DE 10 2017 107 100 B3.
Finally, reference is made to the “standard design” roller tappet which can be seen in DE 10 2014 218 961 A1.
The object is to create a roller tappet which is particularly suitable for long installation distances and which is very simple in design and inexpensive to manufacture.
According to the disclosure, this object is achieved in that the two sections of the guide housing are separate, axially spaced rings that are connected to one another via a support body. A drive-side section does not carry a pin with a roller on it. The support body has a first ring area with an upper face and a second ring area with a lower face. The first ring area is connected to an inner jacket of the drive-side section, and the second ring area is connected to an inner jacket of the output-side section. The ring areas of the support body are connected to one another via circumferentially uniformly distributed longitudinal struts on their inner faces. The longitudinal struts lie freely for at least most of their length with respect to the two sections of the guide housing.
Thus, a roller tappet without the above-mentioned disadvantages is provided. It is clear that the tappet can also be used as a roller tappet in valve drives of internal combustion engines and/or can possibly also be present without a roller.
The roller tappet according to the disclosure consists of only very few components reduced to the essential functions. The two sections thereof can be in the form of deep-drawn sheet steel rings. These two sections can be identical, which helps reduce costs. In this case, only the output-side section in the base area has to be designed in such a way that the cross strut or the base remains for the contact of the follower element.
The support body can be produced from sheet steel by stamping and bending, its longitudinal struts being in one piece with the axially spaced ring areas.
By choosing a length of the support struts, different installation lengths can be served with a basic design of the roller tappet. The sections of the guide housing present as rings can optionally be obtained from simple roller bearing rings or from cup tappet base bodies. Under certain circumstances, the roller tappet can also have only one section.
A fixed connection of the sections of the guide housing with the ring areas of the support body can be facilitated by, for example, a welded, riveted, soldered or clipped connection. Alternatively, a press connection is possible.
The roller tappet is particularly light due to the support body, which is largely “exposed” over its length. Tilt-free guidance thus only takes place in the area of its axial end over the two annular sections.
One embodiment of the disclosure relates to the fact that at least the roller-side ring area of the support body is flattened in the circumferential sections of the longitudinal struts, with bores being applied in the flattened sections, in which a pin carrying the roller sits when the roller tappet is fully assembled. This requires two diametrically opposite longitudinal struts. The roller can undergo excellent lateral guidance on the inner surfaces of the flat areas.
It is also useful if, as proposed, the support body is bent together from a sheet steel blank after punching of its basic shape, wherein a bending center here is the imaginary axial line of the support body and roller tappet. End faces of the two ring areas of the support body can, but need not, lie against one another. If necessary, they can also be firmly connected to one another for reasons of rigidity. Here again a welded connection or the like is intended.
Of course, it is conceivable and provided that power is transmitted in the roller tappet directly via its support body (lower face, second ring area) to the follower member. However, it is considered expedient to support the support body on an inner surface of the base or the cross strut of the section on the output side and to act on the follower member via an underside of the base or the cross strut.
A simple measure for anti-rotation locking of the roller tappet in the drive-side section is also described herein. Accordingly, an anti-rotation body such as a needle or a mushroom piece or the like protrudes from an outer jacket of one of the sections. If necessary, this body can also be present as a simple shaping of the respective section.
The disclosure is explained with reference to the drawings.
The figures show a roller tappet 1 for a fuel pump of an internal combustion engine. The roller tappet 1 is suitable for large installation spaces.
The roller tappet 1 has a guide housing 2. This consists of a drive-side and an output-side section 3, 4 of the same external diameter. Both sections 3, 4 are separate and axially spaced rings made of sheet steel. A thin-walled and separate support body 5, likewise made of sheet steel, extends longitudinally through the two-part guide housing 2. The support body 5 carries a roller 9 on its upper face 7 on the drive-side section 3. The latter sits on a pin 21 which is inserted at the end into bores 20 of the support body 5.
It can be seen that the support body 5 has a first ring area 12 with the upper face 7 and a second, axially spaced apart ring area 13 with the lower face 10. The ring areas 12, 13 are welded to the respective inner jackets 14, 15 of the sections 3, 4 and lie within their height. A one-piece connection of the ring areas 12, 13 is established via longitudinal struts 16 which extend from opposing inner faces 17, 18 of the ring areas 12, 13. As can best be seen in
The aforementioned bores 20 for the pin 21 in the first ring area 12 lie in the circumferential section of the longitudinal struts 16, which are designed as planar, indented extensions 19. In alignment with these, the upper, drive-side section 3 has two bores 28. As shown in
From
As can also be seen from
A separate anti-rotation body 6 also protrudes from an outer jacket 27 of the lower, output-side section 4 of the guide housing 2. It has a mushroom-shaped cross-section.
1 Roller
2 Guide housing
3 Drive-side section
4 Output-side section
5 Support body
6 Anti-rotation body
7 Upper face
8 Inner face
9 Roller
10 Lower face
11 Arrangement
12 First ring area
13 Second ring area
14 Inner jacket
15 Inner jacket
16 Longitudinal strut
17 Inner face
18 Inner face
19 Extension
20 Bore
21 Pin
22 End face
23 End face
24 End
25 Transverse strut
26 Underside
27 Outer jacket
28 Bore
Number | Date | Country | Kind |
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102018128384.9 | Nov 2018 | DE | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/DE2019/100842 | 9/25/2019 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2020/098858 | 5/22/2020 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
20170299037 | Abrahamson | Oct 2017 | A1 |
Number | Date | Country |
---|---|---|
102348894 | Feb 2012 | CN |
102686835 | Sep 2012 | CN |
102009013132 | Sep 2010 | DE |
102014218961 | Mar 2016 | DE |
102016207679 | Nov 2017 | DE |
102016207681 | Nov 2017 | DE |
102017211786 | Feb 2018 | DE |
102017107099 | Jun 2018 | DE |
102017107100 | Jun 2018 | DE |
102017109761 | Nov 2018 | DE |
3002425 | Apr 2016 | EP |
3020932 | May 2016 | EP |
3173591 | May 2017 | EP |
H11173115 | Jun 1999 | JP |
Number | Date | Country | |
---|---|---|---|
20220010691 A1 | Jan 2022 | US |