DE102008014576A1 - Pivot for longitudinal and lateral force transmission between a bogie and a car body and method for producing a pivot - Google Patents

Abstract

The invention relates to a pivot pin 1 for longitudinal and transverse force transmission between a bogie and a car body with - a main body longitudinal axis 10 having base body 2, at one end of the main body 3 for arranging the pivot 1 on the bogie pin 4 is formed whose longitudinal axis 12 is aligned with the main body longitudinal axis 10, - and ribs 5, which are arranged for supporting the car body on the base body 2. The pivot according to the invention and the inventive method are inexpensive and ensure high stability of the pivot. For this purpose, the ribs 5 are integrally attached to the base body 2.

Description

• – einem eine Grundkörper-Längsachse aufweisenden Grundkörper, an dessen einem Grundkörper-Ende zur Anordnung des Drehzapfens am Drehgestell ein Zapfen ausgebildet ist, dessen Längsachse mit der Grundkörper-Längsachse fluchtet,
• – und Rippen, die zum Stützen des Wagenkastens an dem Grundkörper angeordnet sind.

The invention relates to a pivot for longitudinal and transverse force transmission between a bogie and a car body with

• A basic body having a base body longitudinal axis, on whose one base body end the arrangement of the pivot pin on the bogie a pin is formed, whose longitudinal axis is aligned with the main body longitudinal axis,
• - And ribs which are arranged to support the car body to the base body.

The The invention also relates to a process for the preparation of a Trunnion for longitudinal and lateral force transmission between a bogie and a car body with a one Main body longitudinal axis having body, at one end of the main body to the arrangement of the Pivot on the bogie provided pin is formed and with arranged on the base body and for supporting of the car body provided ribs.

generic Cast iron pivots and process for their manufacture well known. These conventional trunnions are consuming in production and expensive.

Furthermore, from the DE 2343121 A1 Trunnions with a comparison with the generic pivot simplified, columnar geometry known. These pivots consist only of body and pin, the pin is screwed to the body. However, the power transmission via such a column-shaped pivot takes place exclusively via the rod-shaped transmission member and is therefore unfavorable, especially in longitudinal and transverse forces.

task The present invention is a generic Indicate trunnions and a generic method, the one that is inexpensive and at the same time a high Stability of the pivot ensures.

The Task is according to the invention in a pivot of the type mentioned solved in that the ribs attached to the body cohesively are.

So far According to prevailing opinion, it was assumed that with ribs Equipped pivots only as one piece Cast steel cast pivot sufficient stability exhibit. The invention is based on the finding that contrary the prevailing opinion trunnions conventional geometry - ie with arranged on the body ribs and one at a base end arranged pin - even then sufficient stability have, when the ribs to the main body cohesively are attached. This realization enables one simplified and cheaper production of a generic Pivot, with high stability of the pivot is guaranteed. Cohesive joining process comprise according to the invention welding, soldering, Gluing or the like. When choosing the fabrics for the joining, so for example the adhesive, It should be noted that a sufficiently high stability the joint connection is guaranteed.

The Shape of the main body, the ribs and the pin is not essential to the invention. The longitudinal axis of the main body and the longitudinal axis of the pin also need not the longitudinal th axis of the main body or of the pin correspond. The main body and the pin can consist of a solid material or formed as a hollow body be. Also, the pivot further components - for example Flanges - have.

The Shape of the pin is according to one embodiment conical. According to a further embodiment the pin is spherical. Essential to the Form of the pin is just that the pin in a suitable manner on Bogie is arrangeable. The pin can, for example, in one piece be formed with the body or after the manufacturing process of the main body connected to the main body become. The pin is arranged at the one base end, that the pivot can be arranged by means of the pin on the bogie is. For example, the pin is surrounded by rubber springs in a storage arranged the bogie. Essential here is that about the pivot between the longitudinal and transverse forces between the bogie and the car body are transferable. longitudinal forces occur, for example, in a powered bogie during an acceleration of the rail vehicle. transverse forces for example, between the bogie and the car body when driving through curves, which over the pivot in the car body to be initiated. The at the base body arranged ribs serve to improve the introduction of force in the Car body. The invention also encompasses all exemplary embodiments, in which the arrangement of the ribs on the body itself extends partially or completely along the pin. essential to the invention Here it is only that the ribs are attached cohesively are.

Favorable Way, the ribs are welded to the body.

This cohesive connection ensures provides a particularly high stability.

It can also be considered advantageous that the pin on the body and / or at least one rib end of a rib cohesively is attached.

Of the Body is thus not integral with the body Cones trained. This allows for the pin and selected the basic body separate manufacturing process which are for the shape of the pin respectively the shape of the body are particularly suitable. The Manufacturing processes can be simplified thereby. The cohesive connection between pin and body can be realized for example by a weld. In this case, the pin by direct welding of the pin with the one body end on the body be arranged. Just as well could the pin but also be welded to a rib end, which is up to which a main body end extends, wherein the ribs in turn, cohesively back to the body are attached.

According to one Another advantageous embodiment, the to Basic body longitudinal axis normal running cross section of the main body be round or square.

One Basic body with round cross section is particularly simple and inexpensive to manufacture. For example, by the Basic body of a prefabricated standard DIN steel tube is made. A quadrangular cross section of the main body has the advantage that it is form-fitting in a particularly stable manner can be arranged on the car body. Such a body For example, it can be cut out of a sheet of suitable thickness. In this case, the four-cornered cross section has two side lengths which correspond to the thickness of the sheet. Under a normal extending cross-section to the body longitudinal axis be understood in the context of this invention that the cross section at a 90 degree angle to the main body longitudinal axis runs.

It can also be considered advantageous that the longitudinal axis of the pin normally extending cross-section of the pin round or is square.

One Spigot with round cross section is particularly easy to manufacture. In this case, the cross section, as well as in the above embodiment described cross-section of the body, along the Increase the longitudinal axis of the pin or out. For example, the pin can be an annular Have bead, with the pin in a storage of the bogie is held. A pin with a round cross-section, for example be made by turning of a rod.

According to one Further advantageous embodiment, the cross section be square in the pin. Such a pin can, for example, against rotation be arrangeable about its longitudinal axis on the bogie.

It can be advantageously provided that to the longitudinal axis of the pin normally extending cross section of the pin in the direction widened out of the body.

This allows an improved force in the car body. This embodiment is particularly suitable for Cones with round cross section. Due to the widened cross-section can the contact surface between the pin and the body be enlarged, creating a more stable material coherent Joint connection between pin and body or between pin and rib ends allows is.

It can be advantageously provided that the ribs surface and even and bounded by side edges, each rib in Longitudinal direction of the base body on the base body is attached cohesively.

such For example, ribs can be cost-effective Cut out of a sheet steel to be made. The flat, attached to the body cohesively Ribs are characterized by the longitudinal orientation of the Main body opposite the longitudinal and Transverse forces on a high rigidity.

According to one further advantageous embodiment, the ribs a connecting side edge and are with this in the longitudinal direction of the body on the body cohesively added.

The attached to the connecting side edge on the base body Ribs form between the main body and its side surfaces a ninety degree angle. This is the ribs on both sides enough space for attaching a weld or other cohesive joining process.

Further can be advantageously provided that the ribs starting from the pin over the entire length of the body extend.

A further advantageous embodiment of the invention provides that the attached to the body cohesively ribs a right angle to the longitudinal axis of the main body ver running support side edge to support the car body.

about the support side edge becomes longitudinal or lateral forces introduced into the car body.

It can also be considered advantageous in that the ribs a Have contour side edge, which corresponds to the desired Rigidity of the rib in a contour runs.

advantageously, can be further provided that each two ribs opposite are arranged on the base body.

A Further advantageous embodiment of the invention provides that Transverse stops cohesively on the pivot are attached.

The Object is according to the invention in a method of the type mentioned solved in that the body and the ribs are made independently and then the ribs are integrally attached to the body.

By the separate production of body and ribs can chosen for both different production methods which meet the requirements of geometry and stability the two parts are particularly well adapted. Thereby can particularly simple and inexpensive production process to get voted. By the cohesive on the body attached ribs will provide high stability of the Ensures pivot.

It can be advantageously provided that the ribs of a sheet be cut out.

This Manufacturing process is particularly simple and inexpensive. The sheet may be, for example, steel sheet. The cutting of the ribs from a sheet is due to the flat Geometry of the ribs particularly well on this part of the pivot customized.

It can also be considered advantageous that the main body and the pins are made independently.

A advantageous embodiment of the invention provides that the main body by separating a piece of pipe from a standard DIN Pipe is made.

According to this Embodiment, the main body of a especially inexpensive material.

It can also be considered advantageous that the main body is made by cutting out of a sheet metal.

According to this Embodiment, the body is flat and flat, with the main body of side edges is limited. The ribs can cohesively to the side edges or the side surfaces of the body be attached. Here, the main body itself form part of the ribs.

It can also be considered advantageous that the pin in the turning process is made from a pole.

It can also be considered advantageous that the ribs on the Body welded.

For example can the ribs by means of a Y-weld be welded to the body. The separated produced ribs and the main body are on it connected in a way that a particularly high stability ensured the pivot.

advantageously, can be further provided that in the pin for partially receiving the Base body extending in the direction of the longitudinal axis Recess is introduced.

Of the with the main body assembled pin can by means of partial uptake of the main body in more stable Way to be arranged on the body about the pin then add to the body.

It can also be considered advantageous that the pin on the body arranged and in the region of the base body facing end face of the pin on the body and / or at least one Rib end is materially attached.

Further expedient refinements and advantages of the invention are the subject of the description of exemplary embodiments the invention with reference to the figure of the drawing, wherein the same References to like components.

there show the

1 a pivot according to the invention in a perspective view in a schematic representation, and

2 a further embodiment of a pivot according to the invention in perspektivi shear view in a schematic representation.

The 1 shows a perspective view of a pivot according to the invention 1 , The pivot 1 consists of a basic body 2 , on the four pairs of opposing ribs 5 are arranged. Ribs 5 are flat and flat and are from side edges 6 . 7 . 8th . 9 limited. Every rib 5 is with a going in the direction of the main body longitudinal axis 10 extending connecting side edge 6 at the base body 2 welded. For example, the on the main body 2 adjacent connecting side edge 6 on both sides along their longitudinal edges 6a . 6b be welded by means of a Y-weld. The main body 2 has a body end 3 on which a pin 4 is trained. The at the base end 3 arranged cones 4 has one at the base end 3 fitting front side 11 on and extends along its longitudinal axis 12 up to a pin head area 13 , The at the base body 2 welded ribs 5 put with their rib ends on the front side 11 of the pin 4 on. For fixing the pin 4 at the base body 2 can the pin 4 at the base end 3 and / or at the rib ends in the region of the side edges 9 be welded, for example by means of a Y-weld in the region of the longitudinal edges 9a . 9b the side edge 9 and sections along the beveled edge 3a around the main body end 3 around. The pin 4 has according to the illustrated embodiment, a round cross section, which hereby normal to the longitudinal axis 12 of the pin 4 extending cross-section is meant. A zap fen 4 with round cross section is particularly easy to manufacture, for example by the pin 4 is made by turning from a bar. The cross section of the pin 4 increases in the direction of the body 2 out. Together with the arcuate contour of the ribs 5 which through the arcuate contour side edge 8th the ribs 5 is effected, thus results in a total of the head area 13 of the pin 4 starting widening shape of the pivot 1 , About the course of the contour side edges 8th can the rigidity of the ribs 5 be set. The widening shape of the pivot 1 is advantageous for the transmission of forces, which in the head area 13 in the pivot 1 and over the pivot 1 in one on the pad side edges 7 resting element (not shown), such as a car body of a rail vehicle, are introduced. To forward these forces, the has at the side edges 6 welded together trunnions 1 sufficient stability. Ribs 5 and the main body 2 are separated from each other and thus the pivot 1 produced inexpensively.

The 2 shows a perspective view of another embodiment of a pivot according to the invention 16 , The pivot 16 has a basic body 2 on, at its base end 3 a square cone 4 is trained. The pin 4 due to its quadrangular cross-section, it is particularly secure against rotation about the longitudinal axis of the pivot 16 on a component of the environment (not shown) are arranged - in addition, the feather keyway 15 the position of the pin 4 serve. The main body 2 of the pivot 16 is flat and flat and is made of side edges 17 . 18 . 3 limited, being along the two in the longitudinal direction of the main body 2 extending side edges 17 to the body 2 two ribs 5 are attached. Ribs 5 are flat and flat and border with their side surfaces on the side edges 17 on, with the attached ribs 5 on both sides of the side edges 17 one ninety degree angle to the main body 2 form.

Despite the flat body 2 has the pivot 16 a high stability in the cones 4 initiated and over the side edges 7 to an environment (not shown) forwarded longitudinal and transverse forces. This is partly due to the body 2 arranged at ninety degree angle ribs 5 causes, which together with the main body 2 form a stable H-shaped structure. Depending on the embodiment, the narrow body end 3 and / or the rib ends 9 with the front side 11 of the pin 4 be connected cohesively. The rib ends 9 and the body end 3 form a stable H-shaped floor plan on the front side 11 of the pin 4 , Through the course of the contour side edges 8th as well as the side edges 17 widens the pivot 16 in the direction of the support side edges 7 out. This additionally increases the stability of the pivot 16 opposite to the pivot 16 acting longitudinal and lateral forces. Due to the flat design of the body 2 this can be made particularly inexpensive, for example by the body 2 is cut out of a metal sheet. In the same way can the flat ribs 5 be produced inexpensively. For cohesive joining of the pivot 16 welds can be provided, for example in the region of the side edges 17 , the body end 3 as well as the rib ends 9 ,

1

pivot

2

body

3

Base-end

3a

Bevel Edge of the body end

4

spigot

5

rib

6

Connecting side edge of the rib 5

6a

Longitudinal edge of the connecting side edge 6

6b

Longitudinal edge of the connecting side edge 6

7

Support side edge of the rib 5

8th

Contour side edge of the rib 5

9

Side edge of the rib 5

9a

Longitudinal edge of the side edge 9

9b

Longitudinal edge of the side edge 9

10

Base body longitudinal axis

11

Front side of the pin 4

12

Longitudinal axis of the pin 4

13

Head area of the pin 4

14

cross stop

15

Feather key groove

16

pivot

17

Side edge of the main body 2

18

Side edge of the main body 2

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• DE 2343121 A1 [0004]

Claims (22)

Pivot ( 1 ) for longitudinal and transverse force transmission between a bogie and a car body with - a basic body longitudinal axis ( 10 ) having basic body ( 2 ), at whose one end of the main body ( 3 ) for the arrangement of the pivot ( 1 ) on the bogie a pin ( 4 ) is formed, whose longitudinal axis ( 12 ) with the main body longitudinal axis ( 10 ) is aligned, - and ribs ( 5 ) for supporting the car body on the base body ( 2 ), characterized in that the ribs ( 5 ) on the base body ( 2 ) are attached cohesively. Trunnion according to claim 1, characterized in that the ribs ( 5 ) on the base body ( 2 ) are welded. Trunnion according to claim 1 or 2, characterized in that the pin ( 4 ) on the base body ( 2 ) and / or at least one rib end of a rib ( 5 ) is attached cohesively. Trunnion according to one of claims 1 to 3, characterized in that the main body longitudinal axis ( 10 ) normal running cross-section of the main body ( 2 ) is round or square. Trunnion according to one of the preceding claims, characterized in that the longitudinal axis ( 12 ) of the pin ( 4 ) normal running cross section of the pin ( 4 ) is round or square. Trunnion according to one of the preceding claims, characterized in that the longitudinal axis ( 12 ) of the pin ( 4 ) normal running cross section of the pin ( 4 ) in the direction of the main body ( 2 ) widened. Trunnion according to one of the preceding claims, characterized in that the ribs ( 5 ) flat and level and from side edges ( 6 . 7 . 8th . 9 ), each rib ( 5 ) in the longitudinal direction of the main body ( 2 ) on the base body ( 2 ) is attached cohesively. Trunnion according to claim 7, characterized in that the ribs ( 5 ) a connection side edge ( 6 ) and with this in the longitudinal direction of the base body ( 2 ) on the base body ( 2 ) are attached cohesively. Trunnion according to claim 7 or 8, characterized in that the ribs ( 5 ) of the pin ( 4 ) starting over the entire length of the basic body ( 2 ). Trunnion according to one of claims 7 to 9, characterized in that on the base body ( 2 ) cohesively attached ribs ( 5 ) a right angle to the longitudinal axis of the body ( 10 ) running side edge ( 7 ) to rest the car body. Trunnion according to one of claims 7 to 10, characterized in that the ribs ( 5 ) a contour side edge ( 8th ) corresponding to the desired rigidity of the rib ( 5 ) runs in a contour. Trunnion according to one of the preceding claims, characterized in that in each case two ribs ( 5 ) opposite to the base body ( 2 ) are arranged. Trunnion according to one of the preceding claims, characterized in that transverse stops ( 14 ) are integrally attached to the pivot. Method for producing a pivot ( 1 ) for longitudinal and transverse force transmission between a bogie and a body with a body longitudinal axis ( 10 ) having basic body ( 2 ), at whose one end of the main body ( 3 ) to the arrangement of the pivot ( 1 ) on the bogie provided pin ( 4 ) is formed and with on the base body ( 2 ) and provided for supporting the car body ribs ( 5 ), characterized in that the basic body ( 2 ) and the ribs ( 5 ) are produced independently of each other and then the ribs are materially attached to the body. Method according to claim 14, characterized in that the ribs ( 5 ) are cut out of a metal sheet. Method according to one of claims 14 or 15, characterized in that the basic body ( 2 ) and the pin ( 4 ) are produced independently. Method according to one of claims 14 to 16, characterized in that the basic body ( 2 ) is made by separating a piece of pipe from a standard Din tube. Method according to one of claims 14 to 16, characterized in that the basic body ( 2 ) is made by cutting out of a metal sheet. Method according to one of claims 14 to 18, characterized in that the pin ( 4 ) is made in a turning process from a bar. Method according to one of claims 14 to 19, characterized in that the ribs ( 5 ) to the main body ( 2 ) are welded. Method according to one of claims 14 to 20, characterized in that in the pin ( 4 ) for partially receiving the basic body ( 2 ) one in the direction of the longitudinal axis ( 12 ) extending recess is introduced. Method according to one of claims 14 to 21, characterized in that the pin ( 4 ) on the base body ( 2 ) and in the region of the base body facing end face ( 11 ) of the pin on the base body ( 2 ) and / or at least one rib end ( 9 ) is attached cohesively.