DE2448482C2

DE2448482C2 - Exhaust pipe for internal combustion engines

Info

Publication number: DE2448482C2
Application number: DE19742448482
Authority: DE
Inventors: Heinz Dipl.-Ing. 5000 Köln Pluequet; Hans 5060 Bensberg Stadler
Original assignee: Kloeckner Humboldt Deutz AG
Current assignee: Kloeckner Humboldt Deutz AG
Priority date: 1974-10-11
Filing date: 1974-10-11
Publication date: 1984-08-16
Also published as: DE2448482A1

Description

Diese Aufgabe wird dadurch gelöst, daß die Isolierwandung der Sammelleitung längsgeteilt ist, wobei der
den Stutzen abgewandte Isolierwandungsteil im Quer- 65
schnitt gesehen eine so große Ringausschnittsausdehnung hat, daß die Querausdehnung des den Stutzen zugewandten Isolierwandungsteils kleiner ist, als der In-This object is achieved in that the insulating wall of the collecting line is divided lengthways, the
Isolierwandungteil facing away from the nozzle in the transverse 65
Section has such a large ring cut-out extension that the transverse extension of the insulating wall part facing the nozzle is smaller than the inside

Claims

diameter of the manifold. Has the solution

Claim: the advantage that the exhaust pipe with insulating walls

can be lined that is neither glued nor bonded

Exhaust pipe for internal combustion engines, in particular must be welded. By the invention those for multi-cylinder reciprocating piston combustion engine 5 arrangement is nevertheless ensured that the insulating rails, with a collecting line to which the walls are connected during the entire operation of the Securely hold the connecting piece on the internal combustion engine leading to the individual cylinder heads. Furthermore close, which are integral with the collecting line, and the insulating walls can be exposed at any time in the event of breakage are, with the manifold and the Stut- are changed without the exhaust pipe system zen have an insulating wall in their interior, destroy io. The transition of the nozzle into the collecting duct thereby characterized in that the insulation can be optimized in a flow-favorable manner the collecting line (2) is divided lengthways, where.

in the insulating wall facing away from the nozzle (3) The insulating wall thickness is dimensioned so that the at the

dung part (4) seen in cross-section such a large longitudinal extension involved parts of the exhaust pipe has annular section extension that the transverse 15 ährliche temperatures such. B. assume the crankcase expansion (L) of the insulating internal combustion engine facing the nozzle. Since the wall part (5) is now smaller than the inner diameter of the crankcase of the internal combustion engine and thus the water in the collecting line (2). Cylinder heads to each other about the same as the exhaust pipe

expansion, can dispense with expansion compensation

Turn 20. Furthermore, the low temperatures allow the use of cheap, non-heat-resistant materials in the wall of the exhaust pipe.

The invention relates to an exhaust pipe for. To further explain the invention, reference is made to the

Internal combustion engines referenced according to the preamble of the drawing, in the two exemplary embodiments Saying. 25 of the invention are shown in simplified form. It shows

A generic device is from DE-OS Fi g. 1 shows a longitudinal section through an inventive

22 42 857 known There is an exhaust gas line system, which is made in one piece is for an internal combustion engine for motor vehicles,

wrote, the pipes carrying the exhaust gas F i g. 2 shows a cross section through the exhaust pipe

are lined with sheet metal insulation on the inside. 30 measure F i g. 1 corresponding to the line H-II in FIG. 1. Between the inner lining and the outer in FIG. 1 and 2, 1 is an exhaust pipe. An air layer for insulation purposes, which comes from and on a collecting pipe 2, is drawn in advance. In addition, there is also a fitting 3 attached to the exhaust pipe. Inside the exhaust pipe example, there is the possibility of porous ceramic material device 1, insulating parts 4 and 5 are used. It is known from the inner wall part 4 that extends along the manifold of this citation, an exhaust gas manifold 2 and, as shown in FIG. 2 it can be seen, a device which is made in one piece with a connecting piece, with the cross-section that is to line a ring cutout of about 230 ° sheet metal parts inside. Here, the nozzle angle corresponds to the insulating wall part 5 closes dimensioned such that the sheet metal lining from which there is on the insulating wall part 4 on vna can be inserted from the flange side of the nozzle. 40 the rest of the ring section. This extends these insulation sheets are also fastened along the manifold and are welded in one piece. From this citation it is known to use the insulating walls within the connecting piece to form straight or simply curved pipe sections. The insulating wall parts will therefore clothe as follows. In addition, the lining is always installed there. First of all, the insulating wall part 5 is chosen in such a way that it is pushed in from the respective end of the collecting line to be drawn in until the pipe pieces clad in the insulating wall are pushed into them and the nozzles coincide with them. Arrival. then the insulating wall part is inserted transversely into the nozzle. Thereafter, the insulating wall sees that the connection pieces are always inserted at right angles into the sam- ple 4, which at the same time a locking cable must be attached and does not cause a 50 of the insulating wall part 5.

can have a streamlined shape.

It is also known from DE-PS 6 95 459 to fire this 1 sheet of drawings

solid insulation in pipelines for hot gases,

Forming vapors or the like as segment pieces. It
is not known from this citation, curved 55
or even to line two penetrating pipes.
The object of the present invention is, in exhaust pipes for internal combustion engines, consisting of
Nozzles and collecting line, a possibility to show how this can be done with low costs and construction effort in the 60th
Inside are lined with insulating walls
can.