DE202020106487U1 - Pressure adapter for a vehicle transmission - Google Patents

Abstract

Pressure adapter for a vehicle transmission, with a pipe section (2) extending in an axial direction (x) and having an outer circumferential surface (4) extending around a longitudinal axis (3) extending in the axial direction (x), characterized in that the Pipe section (2) consists of plastic and on its outer circumferential surface (4) several annular ribs (5) running around the longitudinal axis (3) and spaced apart in the axial direction (x), several in or essentially in the axial direction (x ) Axial ribs (6) extending around the longitudinal axis (3) at a distance from one another, which intersect with the annular ribs (5), and has several depressions (7) which in the axial direction (x) through the annular ribs ( 5) and are separated from one another in the circumferential direction (u) by the axial ribs (6).

Description

The invention relates to a pressure adapter for a vehicle transmission, with a pipe section which extends in an axial direction and which has an outer circumferential surface which extends around a longitudinal axis which extends in the axial direction.

Such a pressure adapter is built into a vehicle transmission, for example, and has to withstand relatively high pressures or pressure pulses there. For this reason, conventional pressure adapters are made of metal, such as aluminum or steel. However, metallic pressure adapters are expensive to manufacture. Metallic pressure adapters are also heavy. To reduce manufacturing costs and weight, it is therefore desirable to be able to manufacture a pressure adapter from plastic. However, the high pressures or pressure pulses occurring in the transmission are problematic.

Proceeding from this, the invention is based in particular on the object of creating a pressure adapter for a vehicle transmission that is made of plastic and yet has a high level of pressure resistance.

This object is achieved according to the invention by a pressure adapter according to claim 1. Preferred developments of the invention are given in the subclaims and in the following description.

A pressure adapter for a vehicle transmission, with a pipe section extending in an axial direction, which has an outer circumferential surface running around an axially extending longitudinal axis, is developed according to the invention in particular in that the pipe section is made of plastic and has several around the outer circumferential surface Ring-shaped ribs running around the longitudinal axis and spaced apart in the axial direction, several axial ribs running in or substantially in the axial direction and spaced around the longitudinal axis, which intersect with the ring-shaped ribs, and several depressions, which in axial direction Direction by the annular ribs and in the circumferential direction by the axial ribs are separated from each other.

The pressure adapter according to the invention is characterized by high compressive strength. In particular, the pressure adapter according to the invention can withstand high pressures and / or pressure pulses. The ring-shaped ribs can, for example, prevent so-called "pumping" of the adapter.

The longitudinal axis preferably runs centrally through the pipe section and is also referred to, for example, as the longitudinal center axis. The annular ribs preferably lie on circles, through whose center points the longitudinal axis runs. The annular ribs are advantageously rotationally symmetrical, in particular in each case, preferably with respect to the longitudinal axis. The axial ribs are preferably straight. For example, the axial ribs are evenly distributed in the circumferential direction and / or around the longitudinal axis. The number of axial ribs is, for example, two or at least two or three or at least three or four or at least four or five or at least five or six or at least six.

One or any direction running transversely to the axial direction and / or transversely to the longitudinal axis is referred to in particular as a radial direction. A direction running around the longitudinal axis is preferably referred to as the circumferential direction. For example, the annular ribs run in the circumferential direction. The ring-shaped ribs are also known as belts, for example. The number of annular ribs is, for example, two or at least two or three or at least three or four or at least four or five or at least five.

A cavity which is continuous in the axial direction and is also referred to, for example, as the pipe interior, preferably extends through the pipe section. The cavity is preferably rotationally symmetrical, in particular with respect to the longitudinal axis. For example, the cavity is frustoconical or cylindrical, in particular circular cylindrical. The pipe section is advantageously rotationally symmetrical, especially neglecting the depressions. Preferably, the pipe section and / or the outer circumferential surface of the pipe section, in particular neglecting the depressions, is frustoconical or cylindrical, in particular circular-cylindrical. For example, the outer circumferential surface of the pipe section tapers in the axial direction, in particular from one axial end of the pipe section to another axial end of the pipe section. The pipe section preferably has a pipe wall, in particular which delimits the cavity. The outer circumferential surface of the pipe wall in particular forms the outer circumferential surface of the pipe section. The annular ribs are arranged, for example, equidistant from one another in the axial direction. Alternatively, for example, the axial distance between the annular ribs changes in the axial direction. For example, the axial distance between the annular ribs decreases in the direction of the tapering of the outer circumferential surface or in the opposite direction.

The axial ribs run parallel to the longitudinal axis, for example. If the pipe section is frustoconical, the axial ribs in particular do not run parallel to the longitudinal axis. The axial ribs, in particular in this case, are advantageously inclined with respect to the longitudinal axis. However, the inclination of the axial ribs relative to the longitudinal axis and / or the inclination of the truncated cone is preferably small, so that the axial ribs are viewed, for example, as running in or substantially in or approximately in the axial direction.

Each of the depressions preferably has a base, in particular radially inward. Each of the depressions preferably has a window-like opening, in particular radially outward. For example, the window-like openings, in particular in each case, are advantageously designed essentially or approximately, rectangular or rectangular or square. Each of the window-like openings is advantageously opposite the respective base, preferably in the radial direction. The depressions are preferably provided in the pipe wall or in a pipe wall of the pipe section. The depressions are preferably trough-shaped.

According to one embodiment, the recesses form a plurality of annular recess arrangements. The recess arrangements are preferably arranged at a distance from one another in the axial direction and / or separated from one another by the annular ribs. The depressions of each depression arrangement are preferably arranged at a distance from one another around the longitudinal axis and / or in the circumferential direction and / or separated from one another by the axial ribs. For example, the depressions of each depression arrangement are arranged in a uniformly distributed manner around the longitudinal axis and / or in the circumferential direction.

According to a further development, the pipe section consists of a fiber-reinforced plastic. The fiber reinforcement leads to a further increase in compressive strength. The fibers of the fiber reinforcement are in particular glass fibers. The pipe section is advantageously made of a glass fiber reinforced plastic. The plastic is preferably a temperature-resistant or high-temperature-resistant plastic. The plastic is preferably a thermoplastic plastic. For example, the plastic is a polyphthalamide (PPA). In addition to high temperature resistance, the material of the pipe section advantageously also has a suitable combination of strength and toughness.

The pipe section is preferably a cast part, in particular an injection-molded part. The pipe section advantageously has two injection points, diametrically opposite one another with respect to the longitudinal axis, on one or at least one of its end faces. If the pipe section is frustoconical, the injection points are provided, for example, on the smaller end face of the pipe section.

According to one embodiment, the pipe section has three or at least three pipe section regions arranged axially one behind the other, of which one or at least one central pipe section region is arranged between two end-side pipe section regions. The middle pipe section area has in particular the ribs and the depressions. The pipe section preferably has an annular groove in each of its end-side pipe section regions on its outer circumferential surface. The annular grooves are used in particular to accommodate sealing rings. A sealing ring is preferably seated in each annular groove.

According to a further development, each of the end-side pipe section regions has three pipe section region sections arranged axially one behind the other, of which a central pipe section region section, in which in particular the respective annular groove is provided, between an inner pipe section region section, in particular adjoining the central pipe section region, and one, in particular one end of the Pipe section forming, outer pipe section region section is arranged. Preferably, the outer circumferential surface of the pipe section in the inner and / or in the outer pipe section region sections is, in particular completely, smooth and / or free of depressions.

According to one embodiment, a flat marking surface is provided on the outer circumferential surface, which is or can be provided in particular with a marking and / or with an inscription, e.g. with a serial number and / or with a date. The marking surface is preferably provided axially in the center on the outer circumferential surface of the pipe section and / or axially in the center on the central pipe section region. For example, the marking area is circular.

The following points in particular should be mentioned as influencing factors for achieving a high compressive strength: material selection and / or processing and / or rib structure and / or the injection and gate concept. Through suitable design and / or combinations of these influencing factors, pressure pulse loads of over 100 bar, for example, are possible.

Preferably, as many straps as possible are placed over the rib structure in a plastic-friendly design without material accumulations, which prevent the adapter from pumping. A homogeneous mass distribution is preferably generated via the injection points through a targeted reduction in the cross section and via the gate optimal filling guaranteed. This reduction in the filling pattern advantageously results in a kind of screen gate, which ensures optimum fiber distribution in the central pipe section area. In addition to high temperature resistance, the material of the pipe section preferably also has a good combination of strength and toughness, which in particular meets the pulse requirements.

• 1 eine perspektivische Ansicht eines Druckadapters gemäß einer Ausführungsform und
• 2 eine perspektivische Ansicht des Druckadapters und einer Spritzgussform zum Herstellen des Druckadapters.

The invention is described below on the basis of a preferred embodiment with reference to the drawing. In the drawing show:

• 1 a perspective view of a pressure adapter according to an embodiment and
• 2 a perspective view of the pressure adapter and an injection mold for producing the pressure adapter.

Out 1 Figure 3 is a perspective view of a pressure adapter 1 can be seen according to one embodiment, the one in an axial direction x extending pipe section 2 comprises, which one around one in the axial direction x extending longitudinal axis 3rd outer peripheral surface running around 4th having. The pipe section 2 consists of fiber-reinforced plastic and has on its outer circumferential surface 4th several around the longitudinal axis 3rd running around and in the axial direction x spaced apart, annular ribs 5 , several in the axial direction x running and around the longitudinal axis 3rd spaced apart axial ribs 6th that deal with the annular ribs 5 cut, and several indentations 7th on that in the axial direction x through the annular ribs 5 and in the circumferential direction u through the axial ribs 6th are separated from each other.

According to this embodiment, the pipe section 2 in particular frustoconical so that the axial ribs 6th strictly speaking, not parallel to the longitudinal axis 3rd run, but are inclined towards this. The pipe section preferably tapers 2 in the direction of the arrow x . However, the inclination of the truncated cone is preferably small, so that the axial ribs 6th for example as in or approximately in or essentially in the axial direction x can be viewed as running.

Each of the wells 7th has a bottom 8th and a window-like opening opposite this 9 which is, for example, square or substantially square. Furthermore, the depressions form 7th several in the axial direction x through the annular ribs 5 separate annular recess arrangements 10 , their respective wells 7th around the longitudinal axis 3rd are arranged at a distance from one another. Also is on the outer peripheral surface 4th preferably a flat marking surface 11 provided, which can be provided with a date, for example.

The pipe section 2 has three pipe section areas arranged axially one behind the other 12th , 13th and 14th on, of which a central pipe section area 13th that the ribs 5 and 6th as well as the wells 7th has, between two end pipe section areas 12th and 14th is arranged in which the pipe section 2 on its outer circumference 4th one ring groove each 15th has, in which a sealing ring 16 sits. Because of the in the ring grooves 15th seated sealing rings 16 is from the ring grooves 15th only the edge can be seen.

Furthermore, each of the end-side pipe section regions 12th and 14th three pipe section area sections arranged axially one behind the other 17th , 18th and 19th on, one of which is a central pipe section region section 18th , in which the respective ring groove 15th is provided between a to the middle pipe section area 13th adjacent inner pipe section section 17th and a front end of the pipe section 2 forming outer pipe section region section 19th is arranged. The outer peripheral surface 4th of the pipe section 2 in the inner and outer tubing area sections 17th and 19th is particularly smooth.

The pipe section 2 is with a cavity 20th provided that extends in the axial direction x through the pipe section 2 extends therethrough. Furthermore, the pipe section 2 one the cavity 20th limiting pipe wall 21 on which the outer peripheral surface 4th is provided.

Out 2 Figure 3 is a perspective view of the pressure adapter 1 as well as an injection mold 22nd for making the print adapter 1 evident. The injection mold 22nd has a top 23 and a base 24 on, with a negative form in each of these parts 25th one half of the outer peripheral surface 4th of the pipe section 2 is provided. The injection mold also includes 22nd Calls 26th and 27 to form the continuous cavity 20th . There are also inlet openings 28 and 29 shown, through which the plastic in the injection mold 22nd is injectable, preferably both the upper part 23 as well as the lower part 24 one inlet opening each 28 or. 29 exhibit. The inlet openings 28 and 29 lead to the pipe section 2 especially two with respect to the longitudinal axis 3rd end face injection points that are diametrically opposite one another 30th and 31 .

List of reference symbols

1

Pressure adapter

2

Pipe section

3

Longitudinal axis of the pipe section

4th

Outer peripheral surface of the pipe section

5

annular rib

6th

axial rib

7th

deepening

8th

Bottom of the recess

9

Opening of the recess

10

Deepening arrangement

11

Marking area

12th

end pipe section area

13th

middle pipe section area

14th

end pipe section area

15th

Ring groove

16

Sealing ring

17th

inner pipe section section

18th

middle pipe section section

19th

outer pipe section section

20th

cavity

21

Pipe wall

22nd

Injection mold

23

Top

24

Lower part

25th

negative form

26th

commitment

27

commitment

28

Inlet opening

29

Inlet opening

30th

Injection point

31

Injection point

x

axial direction

u

Circumferential direction

Claims (10)

Pressure adapter for a vehicle transmission, with a pipe section (2) extending in an axial direction (x) and having an outer circumferential surface (4) extending around a longitudinal axis (3) extending in the axial direction (x), characterized in that the Pipe section (2) consists of plastic and on its outer circumferential surface (4) several annular ribs (5) running around the longitudinal axis (3) and spaced apart in the axial direction (x), several in or essentially in the axial direction (x ) Axial ribs (6) which run around the longitudinal axis (3) and are spaced apart from one another and intersect with the annular ribs (5) and have several depressions (7) which extend in the axial direction (x) through the annular ribs ( 5) and are separated from one another in the circumferential direction (u) by the axial ribs (6). Pressure adapter according to Claim 1 , characterized in that each of the depressions (7) has a base (8) and a window-like opening (9) opposite this, which is essentially square. Pressure adapter according to Claim 1 or 2 , characterized in that the pipe section (2) is frustoconical. Pressure adapter according to one of the preceding claims, characterized in that the recesses (7) form several annular recess arrangements (10) separated from one another in the axial direction (x) by the annular ribs (5), the respective recesses (7) of which are arranged around the longitudinal axis (3 ) are arranged at a distance from one another. Pressure adapter according to one of the preceding claims, characterized in that the pipe section (2) consists of a fiber-reinforced, thermoplastic material. Pressure adapter according to one of the preceding claims, characterized in that the pipe section (2) is an injection molded part and has two injection points (30, 31) diametrically opposite each other with respect to the longitudinal axis (3) on at least one of its end faces. Pressure adapter according to one of the preceding claims, characterized in that the pipe section (2) has at least three pipe section regions (12, 13, 14) arranged axially one behind the other, of which at least one central pipe section region (13), the ribs (5, 6) and which has depressions (7), is arranged between two end-side pipe section regions (12, 14) in which the pipe section (2) has an annular groove (15) on its outer circumferential surface (4). Pressure adapter according to Claim 7 , characterized in that each of the end-side pipe section regions (12, 14) has three pipe section section sections (17, 18, 19) arranged axially one behind the other, of which a central pipe section section (18), in which the respective annular groove (15) is provided between an inner pipe section region section (17) adjoining the central pipe section region (13) and an outer pipe section region section (19) forming a front end of the pipe section (2). Pressure adapter according to Claim 8 , characterized in that the outer circumferential surface (4) of the pipe section (2) is free of depressions in the inner pipe section region sections (17). Pressure adapter according to one of the Claims 7 to 9 , characterized in that a sealing ring (16) is seated in each annular groove (15).

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