WO2010003727A1

WO2010003727A1 - Glow tube, particularly for a sheathed-type glow plug

Info

Publication number: WO2010003727A1
Application number: PCT/EP2009/056169
Authority: WO
Inventors: Patrick Vedel; Albrecht Geissinger; Pavlo Saltikov
Original assignee: Robert Bosch Gmbh
Priority date: 2008-07-11
Filing date: 2009-05-20
Publication date: 2010-01-14
Also published as: US20110180525A1; DE102008040339A1; EP2297521A1

Abstract

A glow tube is proposed, particularly for a sheathed-type glow plug. The glow tube, which has a dome-shaped closed end section (27) and a cylindrical open end section (28), is composed of at least two glow tube parts disposed behind one another in the axial direction. The one glow tube part is produced at the closed end section (27) by a seamless glow tube cap (31), and the other glow tube part is produced at the open end section (28) by a substantially cylindrical glow tube extension (32).

Description

description

title

Glow pipe, in particular for a glow plug

The invention relates to an incandescent tube, in particular for a glow plug according to the preamble of claim 1.

State of the art

Annealing tubes are used in glow plugs use and form there the outer envelope of a projecting into the combustion chamber of an internal combustion engine glow plug. Such a glow plug is known for example from DE 94 12 268 Ul. The glow plug is sealed to the glow tube with a portion of its length in a longitudinal bore of a tubular metal housing. The thin-walled glow tube is closed at its combustion chamber end with a dome-shaped end portion and executed at the opposite end with an open cylindrical end portion. In the interior of the glow tube, a resistance element extending in the axial direction is embedded as a heater in a ceramic insulating material. The

Resistance element is provided brennraumfern with a connector for an electrical circuit. When closing the circuit, the heater is heated and the glow tube of the glow plug is heated at each annealing to an operating temperature of at least 1100 ⁰ C. The material of the glow tube is therefore a very strong thermal

Exposed to stress. As the material for the glow tube, for example, Ni-base alloys are used.

As glow tubes usually longitudinally welded pipes are used. Starting product for these tubes is a sheet metal strip, which bent into a tube and welded at the joint without additional. In order to eliminate the welding stresses, the tubes are then annealed. Thereafter, the tubes are pulled over a mandrel, wherein the degree of deformation is 10 to 50%. This is followed by another setting to adjust the mechanical properties and the structure

Recrystallization.

Modern diesel engines should start without appreciable preheating. Therefore, the glow plugs must be heated up very quickly. For a good cold running behavior of diesel engines also glow plugs with higher annealing temperatures are needed. Higher annealing temperatures in turn generate high temperature gradients, so that under these operating conditions after prolonged use, the glow tube has cracks along the weld. The cause of this failure pattern are thermomechanical loads. The thermomechanical

Strains caused by stress concentrate on the mechanically weakest area, namely the heat-affected zone of the weld, due to the different microstructures of the weld seam, the sheet material of the glow tube and the heat-affected zone of the weld.

To avoid such thermomechanical loads in the zone of the weld, it has already been proposed in DE patent application 102008010243.1 to use seamless glow tubes. The production of such glow tubes with a diameter of, for example, 4 to 7 mm and a length of, for example, 30 to 45 mm is not or only with great difficulty possible with conventional deep drawing methods.

The object of the present invention is to provide an incandescent tube which withstands higher thermal stresses and which can be produced with reasonable effort in terms of production engineering.

Presentation of the invention

The object of the invention is achieved with the characterizing measures of claim 1. The embodiment of the glow tube of at least two interconnected Glührohrteilen with a dome-shaped Glührohrkappe and a substantially cylindrical tubular Glührohrverlängerung makes it possible to produce the pointing into the combustion chamber and thermally most heavily loaded end portion of the glow tube with common manufacturing processes seamlessly. The subsequent cylindrical Glührohrverlängerung can then be carried out as in the usual longitudinally welded glow tubes or made of a less temperature-resistant and easier to cold-formable material seamlessly. This makes it possible to realize the seamless glow tube cap, which has only a small depth, with a common manufacturing process.

Advantageous developments are possible with the features of the subclaims.

The connection point for the glow tube cap and the glow tube extension is expediently in a glow plug at a point of the glow tube, which is exposed to a lower thermal load than the majority of Glührohrkappe. In this case, the connection point is formed by an annular end face formed on the glow tube cap and a further annular end face formed on the glow tube extension. At the junction, the glow tube cap and the Glührohrverlängerung are cohesively connected by means of a circumferential weld.

The glow tube cap has a closed tip and a substantially cylindrical portion. The axial length of the cylindrical portion is at most 8 times the diameter of the cylindrical portion after the annealing process of the glow tube, i. in the finished state. This is a favorable for deep drawing the Glührohrkappe

Diameter-length ratio of 1/2 to 1/3 before, which refers to a Glührohrkappe before the hammering process. Due to the multi-part design of the glow tube, it is possible to produce the thermally less heavily loaded portions of the glow tube from a less expensive material.

embodiment

An embodiment of the invention is illustrated in the drawing and explained in more detail in the following description.

Show it:

1 shows a basic structure of a glow plug according to the prior art,

FIG. 2a shows two glow tube parts of the glow tube according to the invention and FIG. 2b shows the glow tube parts according to FIG. 2a in the assembled state

Status.

The glow plug shown in Figure 1 has a tubular housing 11 with a longitudinal bore 12 into which a glow plug 13 is sealingly fixed with a portion of its length. The glow plug 13 has a thin-walled glow tube 14 with, for example, an inner diameter of 3 to 7.5 mm and a wall thickness of 0.5 to 1.0 mm.

In the interior 16 of the glow tube 14 extends in the axial direction, a resistance element 17 as a heater, which in a ceramic

Insulating material 18 is embedded. The resistance element 17 is contacted distant from the combustion chamber with a connection part 19 for connecting an electrical circuit. The combustion chamber-side end of the resistance element 17 is electrically conductively connected to the bottom of the glow tube 14.

The resistance element 17 consists for example of two series-connected resistance coils, wherein the combustion chamber-side resistance coil forms a heating coil and the combustion chamber remote resistance coil a control coil 21. The control coil 21 has the Task to limit the current in the circuit due to its high positive temperature coefficient with increasing temperature.

The glow tube 14 has, according to FIG. 1, a closed, dome-shaped end section 27 and an open, cylindrical end section 28. The

Glow tube 14 is designed in two parts according to the present invention. According to FIG. 2 a and FIG. 2 b, the glow tube 14 is formed at the closed end section 27 by a seamless glow tube cap 31 and at the open end section 28 by a cylindrical glow tube extension 32.

The cylindrical Glührohrverlängerung 32 is made as the previous glow tubes from a metal strip, which is bent into a tube and welded to an axial joint 33. However, the cylindrical glow tube extension 32 can also be produced from a material that is better cold-formed and less temperature-stable. At the open end portion 28 opposite an annular end face 34 is formed on the Glührohrverlängerung 32.

The glow tube cap 31 is seamless, d. H. it has no weld in the axial direction. The glow tube cap 31 is connected to a closed

End portion closed with a crest 35. The tip 35 is followed by a short cylindrical section 36 which, depending on the manufacturing method for the glow tube cap 31, has a length l of 10 to 30 mm and a diameter d of 3 to 7 mm. The dome 35 forms the tip of the glow plug 13. The cylindrical portion 36 terminates with an annular end face 37 on the Glührohrkappe 31st

The production of the seamless Glührohrkappe 31 is done for example by deep drawing a sheet. The relatively short depth of the Glührohrkappe 31 allows a favorable for deep drawing diameter-length ratio, which is in the present embodiment at 1/2 to 1/3, which refers to a Glührohrkappe 31 before a hammering process. But it is also possible to produce the Glührohrkappe 31 by a machining process. The glow tube cap 31 and the Glührohrverlängerung 32 are combined according to Figure 2b at the end faces 34, 37 at a joint and welded at the junction by means of a circumferential weld 39.

The use of a longitudinally welded tube for the cylindrical

Glow plug extension 32 is possible because the glow plug is exposed to a lower thermal load due to the temperature drop in the direction of the end remote from the combustion chamber. Such cylindrical Glührohrverlängerungen 32 can be made without the loss of quality in any length, which in turn allows the production of arbitrarily long from at least two parts assembled glow tubes 14. In addition to the production method of longitudinally welded tubes, a more cost-effective material than for the thermally highly loaded glow tube cap 31 can be used for the glow tube extension 32. The glow tube cap 31 is to be made of a material, the higher thermal

Stresses withstood. The less thermally stressed portion of the glow tube 14, which is formed by the Glührohrverlängerung 32, can be made of a material that needs to withstand only a lower thermal stress. The less costly Glührohrverlängerung 32 can also be designed as a variable component with, for example, different lengths, the same Glührohrkappe 31 is used for all possible variants.

In addition to the described two-part design of the glow tube 14, it is also conceivable to produce the glow tube 14 from more than two Glührohrteilen. The axial position of a seamless glow tube cap 31 is arbitrarily variable. Depending on the temperature profile along the glow tube 14, the seamless glow tube cap 31 can be positioned differently. However, the glow tube cap 32 described in the exemplary embodiment is advantageous on the side of the glow tube 14 facing the combustion chamber, because no serious changes in the design of the glow plug are required in this case. In addition, it is also conceivable to use the glow tube 14 for other high-temperature-stressed protective sleeves for active or passive components (eg temperature measuring probes, sensors, etc.).

Claims

claims

1. glow tube, in particular for a glow plug, with a dome-shaped closed end portion (27) and a cylindrical open

End portion (28), characterized in that the glow tube (14) is composed of at least two Glührohrteilen, and that one Glührohrteil at the closed end portion (27) of a seamless Glührohrkappe (31) and the other Glührohrteil at the open end portion (28) of a substantially cylindrical glow tube extension (32) is formed.

2. glow tube according to claim 1, characterized in that between the Glührohrkappe (31) and the Glührohrverlängerung (32) has a connection point (39) is formed, and that the connection point (39) at a location of the glow tube (14), the one lower thermal load than the majority of Glührohrkappe (31) is exposed.

3. glow tube according to claim 2, characterized in that the connection point (39) formed by a on the Glührohrkappe (31) annular end face (37) and formed on the Glührohrverlängerung (32) further annular end face (34).

4. glow tube according to claim 2 or 3, characterized in that the Glührohrkappe (31) and the Glührohrverlängerung (32) on the

Junction (39) are cohesively connected.

5. glow tube according to one of the preceding claims, characterized in that the Glührohrkappe (31) has a closed tip (35) and a substantially cylindrical portion (36), and that the axial length of the cylindrical portion (36) (8) the maximum times the diameter d of the cylindrical portion (36) after the hammering process of the glow tube.

6. glow tube according to one of the preceding claims, characterized in that the Glührohrkappe (31) and the Glührohrverlängerung (32) are made of different materials.

7. glow tube according to one of the preceding claims, characterized in that the Glührohrkappe (31) by deep drawing, MIM (Metal Injection Molding), powder extrusion, metal injection molding or by machining is made.