DE102008050325A1 - Housing or component e.g. compressor stator, ensemble e.g. exhaust turbo charger, has bearing surfaces arranged at counter-joining piece, turned away from joining plane and extended parallel to joining plane - Google Patents

Abstract

The ensemble has a set of engagement hooks (2) provided with bed-plates (18) perpendicular to a joining plane. Clamping surfaces facing the joining plane are provided at a counter-joining piece (1) in the joining plane. The clamping surfaces overlap bearing surfaces by clamping with clamping force perpendicular to the joining plane. The bearing surfaces are arranged at the counter-joining piece, and are turned away from the joining plane and extended parallel to the joining plane. The joining piece is arranged as a part of housing components e.g. compressor stator and turbine case. The stator is made of aluminum or plastic. The turbine case is made of steel. An independent claim is also included for a method for installing a housing.

Description

The The invention relates to built from several housing components built Casing, in particular turbochargers, with one as part of a first housing component arranged joining piece and a as part of another housing component arranged counter-piece, which at a joining level connects to the joining piece, or connectable is.

The casing known turbocharger, in particular provided for motor vehicles Exhaust gas turbocharger, consist of regular several gas or media leading Housing components, the typically have flanges or counterparts formed as flanges. It is customary screw the aforementioned flanges together or with the help of clamp a screw clamp together. This joining technique needed So additional components, such as screws and clamping rings or the like, Furthermore the assembly is relatively time consuming. Incidentally, that can housing built in this way be easily disassembled with standard tools, allowing unwanted manipulation can be performed on the turbocharger without difficulty.

task The invention is therefore to provide a housing whose housing components with put together little effort and after assembly only be dismantled with special tools can.

These Task is with a housing The type specified above solved according to the invention that at the joining piece at the Joining level several Latch hook with to joining level essentially vertical feet as well with adjoining the joining level provided facing clamping surfaces are, which arranged on the counter piece Support surfaces, from the joining plane facing away and extending substantially parallel to the joining plane, below Deadlock with one to the joining plane overlap or overlap substantially vertical clamping force capital.

The The invention is based on the general idea, for the connection of Joining and counter piece provide a "snap connection", which the joining piece with the Counter-piece automatically connects with high clamping force when the joining piece and the counter piece of their approximated common target position become.

The Invention has the advantage that a virtually tool-free installation allows becomes. Essentially, only precaution must be taken to ensure proper handling to be connected housing components be taken, that is the housing components have to relative to each other in a snap-action actuated Be moved direction. These are common assembly robots without further able.

According to one preferred embodiment of Invention may be provided that the latch hooks on their from the clamping surfaces Having facing free ends arranged chamfers, the tangential aligned to a virtual cone that is in the direction of the joining level rejuvenated and one to the joining level has vertical cone axis. In this embodiment, the latching hook of the form Fügestücks for the counter piece one centering channel narrowing in the feed direction during assembly, so that the counterpart piece is centric is positioned to a desired axis.

In this context is expediently provided that at the counter piece a randseitiger Projection is arranged, which cooperates with the chamfers and the latching hooks approaching the Counter piece to the joining plane allowed to spread apart.

Especially can the projection is rotationally symmetrical and the latching hooks corresponding annular be arranged on the joining piece.

Of the Projection can be as cylindrical surface or outer peripheral surface of a arranged on the backstop be formed flange-like collar, with the joining plane is formed substantially parallel flange plane.

at such an embodiment on the one hand the housing assembly is very simple, on the other hand is enough a simple visual inspection to check the correctness of the assembly.

According to one particularly preferred embodiment the latching hooks each have a predetermined breaking point formed on their feet, at a given excessive spread the snap hook breaks. This can in the simplest way an unwanted disassembly of the housing, for example, for the purpose of manipulation of an exhaust gas turbocharger avoided become.

Incidentally, will with regard to preferred features of the invention to the claims and the following explanation referred to the drawing, based on the assembly of a built according to the invention housing, in particular in connection with housings of turbochargers or exhaust gas turbochargers, is explained in more detail.

Protection is not only for specified or illustrated feature combinations but also in principle any combinations of the specified or illustrated individual features claimed.

In the drawing shows, in each case schematically,

1 a detailed view of a housing component with means for joining a plurality of housing components,

2 a detailed view of two joined housing components in section with means for joining a plurality of housing components,

3 a detailed view of the construction of the means for joining a plurality of housing components for a turbocharger housing,

4 the functional principle of the assembly process of the housing components to be joined,

5 the functional principle of the disassembly process of the assembled housing components,

6 an application of the inventive means for joining a plurality of housing components,

7 an alternative application of the inventive means for joining a plurality of housing components, and

8th a further alternative application of the inventive means for joining a plurality of housing components.

These Means for joining several housing components should for the assembly of turbochargers or exhaust gas turbochargers, ATL for short, be used. The housing components of an ATL are usually due to the temperatures on the compressor side made of aluminum and on the turbine side of steel, they are with Assistance of tools assembled. The means for joining several housing components should then be a solid connection of these housing components of various Produce metals. On the compressor side prevail lower Temperatures, which is why plastics can also be used there. Also the bearing housing can be made of plastic, but usually it is made of aluminum.

An essential part of the inventive means for joining a plurality of housing components is in 1 shown. Here is a joining piece 1 a housing component with a plurality of elastically deformable latching hooks 2 to see. These snap hooks 2 but should only be elastically deformable insofar as this is necessary for joining the housing components. There can be any number of snap hooks 2 be provided minimal two opposite locking hooks are required. In order to achieve a tight connection of the two housing components, it is usually required six locking hooks 2 provided. In each case two are opposite each other and thus in all three spatial directions no displacement of the housing components to each other is possible.

The joining piece 1 can go to a compressor housing 21 or a bearing housing 22 and / or a turbine housing 23 belong, see 6 - 8th , The locking hooks 2 sit on the outer circumference of the cylindrical joining piece 1 ,

The locking hooks 2 have an outer curved surface 4 , This is followed by an oblique surface, the chamfer 12 , on, it lies on the inward side and can be in a straight section 3 end up. Below the section 3 there is a dent 13 , by the material thickness at this point, the supporting cross section d and the steepness of the chamfer 12 is determined with how much force the counter piece 8th axially in the joining piece 1 must be inserted. All chamfers 12 all locking hooks 2 together have the shape of a conical insertion space for the counterpart piece 8th ,

At the foot 18 of the latching hook 2 that the indentation 13 completes, there is a centering surface 5 that at the counterpart 8th has its counterpart, so that a tight and twist-proof connection of the means for joining a plurality of housing components can be achieved. This centering surface 5 effected with the leading edge 14 of the counterpart 8th together an optimal assembly, see 4 ,

If you add two housing components together by means of joining several housing components, so there is a structure as in 2 you can see. Here is in the opening 6 of the joining piece 1 the counterpart 8th inserted and locked. In this example, the joining piece belongs 1 to a compressor housing 21 and the counterpart 8th to a bearing housing 22 , At the counterpart 8th located on the outer circumference a rotationally symmetrical projection 9 , above which the locking hooks 2 engage. The leading edge 14 of the counterpart 8th sits tight at the ready 7 of the joining piece 1 ,

In 3 is a section through a latching hook 2 as well as the joining piece 1 and his counterpart 8th to see. As described above, the latch hooks on the projection 9 and its bearing surface 10 one. The lead 9 is cylindrical on the outer periphery of the counter-jig 8th educated. This structure is more stable than if the projection 9 only suitable for the locking hooks 2 he would exist also fulfills a certain additional sealing function. The seal is mainly impermeable to gases and media 15 in a suitable groove 11 inserted, or is trapped. In the area marked K, the latching hook is stuck 2 with its clamping surface 27 on the support surface 10 of the projection 9 , In this area K can also not shown mating grooves and beads on the clamping surface 27 of the latching hook 2 as well as the bearing surface 10 of the projection 9 be provided so that the deadlock is even stronger. The bearing surface 10 provides an abutment for the locking hooks 2 ,

The functional principle of the method for joining a plurality of housing components or the assembly process is in 4a and 4b shown. During assembly, the housing components to be joined by the mounting force axially along the arrow P1 against the elastic deformation of the locking hooks 2 pressed until the projection 9 of the counterpart 8th in the dent 13 intervenes.

The arrows indicate directions of movement of the housing components and their parts. If you push the counter piece 8th in the direction of the arrow P1, ie axially with a force F, into the opening 6 of the joining piece 1 so it presses the latching hook 2 in the direction of the arrow P2 upwards, because of the projection 9 of the counterpart 8th at the chamfers 12 the locking hook 2 of the joining piece 1 attacks. The sliding surface 16 of the projection 9 of the counterpart 8th then slides the chamfers 12 the locking hook 2 along while the backstop 8th is pushed further in the direction of the arrow P1 with the force F. It presses the latching hooks 2 keep up in the direction of the arrow P2. At the end of the chamfer 12 the locking hook 2 comes the sliding surface 16 of the projection 9 of the counterpart 8th in contact with the sections 3 which are perpendicular to the joint plane surfaces, where the projection 9 with its sliding surface 16 along slides. Has the lead 9 complete the section 3 the locking hook 2 happened, so grab all catch hooks 2 in the direction of the arrow P3 back to their original positions (see 4b ). This leads to a jamming of the latching hook 2 and its clamping surface 27 with the support surface 10 of the projection 9 in the area marked K.

This assembly of the joining piece 1 and his counterpart 8th is accomplished by means of tools that can generate a force F of sufficient magnitude to assemble the housing components. By an advantageous structural design of the geometry of the housing components to be joined, the snap-clamp connection described above can be realized. These means for joining multiple housing components are simple, inexpensive and easy to install. Furthermore, they require a small number of parts, because it eliminates the use of screws and clamping elements.

In the process of joining multiple housing components, make sure that the maximum outside diameter of the protrusion 9 of the counterpart 8th smaller than the maximum outer diameter of all bevels 12 the locking hook 2 together. The chamfers 12 several snap hooks 2 of the joining piece 1 together form a conical shape. The elastic springback of the locking hooks 2 into its starting position with the help of an advantageous embodiment of the clamping surface 27 the locking hook 2 for joining the two assembled housing components. The advantageous geometric design of the latching hook 2 is to be done so that a minimum installation force is needed. In the operation of the engine or vehicle, however, the means for joining a plurality of housing components must generate the necessary holding force by the axial clamping of the housing components together. Thus, a required reliability is achieved.

The foot 18 the latching hook has a load-bearing cross-section d. In this supporting cross-section d is advantageously a predetermined breaking point 25 brought in. During disassembly (see 5a to c) of the housing components are characterized by a bending force in the direction of the arrow 1 must be applied, the locking hooks 2 bent outwards. If the bending force is chosen too large, it may lead to an activation of the predetermined breaking point 25 in the catch hook 2 lead so that they break off. Therefore, the assembled housing components can not be opened with standard tools, but only with special tools or after heating or not at all.

In the 6 . 7 and 8th various applications of the means for joining several housing components are shown.

With the reference number 22 is always meant a bearing housing, and with 21 respectively. 23 the compressor or the turbine housing.

The means for joining a plurality of housing components may be as in 6 be shown shown. In this application example, the counterparts are 8e and 8f mirror image of each other at both ends of the bearing housing 22 appropriate. In the bearing housing 22 becomes the wave 20 stored the turbocharger. The compressor housing 21 has accordingly a joining piece 1f that with the counter piece 8f interacts. At the other end of the bearing housing acts the counter-piece 8e with the joining piece 1e of the turbine housing 23 together men.

The housing components of the turbocharger are mounted as in the process for 4 described.

Alternatively, an application may occur that is in 7 is shown. Here is the bearing housing 22 now the two mirror images of each other Fügestücke 1c and 1d on. The respective matching counterparts 8c and 8d are on the compressor housing 21 and on the turbine housing 23 appropriate. In this application, the bearing housing 22 be very short, it must be made somewhat thicker, as in the first application example. However, if the bearing housing should be longer, you can also, as in 7 to see a gradation 26 make the housing components.

In 7 A third and fourth alternative application of the means for joining a plurality of housing components is to be seen. Here now has the bearing housing 22 either a joining piece at both ends 1b or a counterpart 8a , Fits this has now either the compressor housing 21 or the turbine housing 23 one counter piece each 8b or a joining piece 1a , In 7 is shown that the compressor housing 21 a joining piece 1a and the turbine housing 23 a counterpart 8b having. But it can also be the other way round.

The different applications arise from the different requirements of the housing components in terms of their materials, the temperature resistance and the other requirements for the turbocharger.

As usually the turbine housing 23 is very hot, it is usually made of steel. The warehouse- 22 and the compressor housing 21 however, they do not get so hot that they can be made of aluminum or even plastic.

The different embodiments with different uses of the means for joining a plurality of housing components relate to the design Ausges of the bearing housing 22 regarding the joining piece 1 or the counterpart piece 8th , Whether on the bearing housing 22 joining piece 1 or counterpart 8th are also dependent on the thermal and mechanical loads during operation and the appropriate choice of materials for the housing with respect to their rigidity and strength.

In an ATL without bearing housing 22 For example, the means for joining several housing components either directly at the compressor 21 or on the turbine housing 23 to be appropriate.

Claims (13)

Housing or component ensemble comprising a plurality of housing components, in particular a turbocharger or exhaust-gas turbocharger, having a joining piece arranged as part of a housing component (US Pat. 1 ) and arranged as part of another housing component counter-piece ( 8th ), which at a joining level to the joining piece ( 1 ) is connected or connectable, characterized in that at the joining piece ( 1 ) at the joint level several latching hooks ( 2 ) with feet substantially perpendicular to the joining plane ( 18 ) and adjoining, the joining plane facing clamping surfaces ( 27 ) are provided, which at the counter piece ( 8th ) arranged bearing surfaces ( 10 ), which are remote from the joining plane and extend substantially parallel to the joining plane, are able to overlap or overlap under clamping with a clamping force substantially perpendicular to the joining plane. Housing or component ensemble according to claim 1, characterized in that the latching hooks ( 2 ) on their of the clamping surfaces ( 27 ) facing away from free ends chamfers ( 12 ), which are aligned tangentially to a virtual cone, which tapers in the direction of the joining plane and has a cone axis perpendicular to the joining plane. Housing or component ensemble according to claim 1 or 2, characterized in that at the counter-piece ( 8th ) a marginal projection ( 9 ) is arranged, which with the chamfers ( 12 ) and the locking hooks ( 2 ) on approach of the counterpart ( 8th ) allowed to spread apart to the joining plane. Housing or component ensemble according to claim 3, characterized in that the projection ( 9 ) is rotationally symmetrical and the latching hook ( 2 ) corresponding ring on the joining piece ( 1 ) are arranged. Housing or component ensemble according to one of claims 2 to 4, characterized in that the projection as a cylindrical surface or outer peripheral surface of a on the counter piece ( 8th ) arranged flange-like collar is provided, which is provided with the joining plane substantially parallel flange plane. casing or component ensemble according to one of Claims 1 to 5, characterized that one of the housing components made of metal, in particular aluminum or steel. Housing or component ensemble according to one of claims 1 to 6, characterized gekennzeich net that the housing components of a turbocharger a compressor housing ( 21 ) made of aluminum or plastic and a turbine housing ( 23 ) of steel. Housing or component ensemble according to one of claims 1 to 7, characterized in that the housing components of a turbocharger a compressor housing ( 21 ) made of aluminum, a bearing housing ( 22 ) made of plastic and a turbine housing ( 23 ) of steel. Housing or component ensemble according to one of claims 1 to 8, characterized in that in a turbocharger housing two pieces ( 1c . 1d ) mirror images of each other at both ends of a bearing housing ( 22 ) and with matching counterparts ( 8c . 8d ,) on a compressor as well as a turbine housing ( 21 . 23 ) are connected or connectable. Housing or component ensemble according to one of claims 1 to 8, characterized in that in a turbocharger housing two counter-pieces ( 8e . 8f ) mirror images of each other at both ends of a bearing housing ( 22 ) and with matching joining pieces ( 1e . 1f ) on a turbine and a compressor housing ( 21 . 23 ) are connected or connectable. Housing or component ensemble according to one of claims 1 to 8, characterized in that in a turbocharger housing at the two axial ends of a bearing housing ( 22 ) a joining piece ( 1b ) as well as a counterpart ( 8a ) and with a counterpart ( 8b ) as well as a joint ( 1a ) of a compressor and a turbine housing ( 21 . 23 ) are connected or connectable. Housing or component ensemble according to one of claims 1 to 11, characterized in that the feet ( 18 ) the latching hook ( 2 ) each have a predetermined breaking point ( 25 ), which at a predetermined excessive spreading of the latching hooks ( 2 ) breaks. Process for the construction of a housing according to one of claims 1 to 12, characterized in that adjoining housing components with matched fitting and counter pieces (( 1 . 8th ) aligned with their axes coaxially to each other and pushed against each other in the direction perpendicular to the joining plane.