DE102006062309A1 - Pencil-type glow plug for arrangement in chamber of e.g. air compression internal combustion engine, has radio frequency identification-chip fixed to housing, where information is provided in which parameter is coded and stored in chip - Google Patents

Abstract

The plug (2) has a radio frequency identification (RFID)-chip (16') fixed to a housing (6), where machine readable information is stored in the RFID-chip in form of bar codes. The machine readable information is provided in which a plug specific parameter is coded, where the parameter is a resistance of a rod-shaped heating element (5) during desired glow temperature of the heating element and linear expansion coefficient of the heating element. The machine readable information is stored in a memory area (16) on an upper surface of the housing. An independent claim is also included for a control device for controlling a pencil-type glow plug.

Description

State of the art

The The invention relates to a glow plug for arrangement in a chamber of an internal combustion engine and an annealing system with such a glow plug. Specifically, the invention relates the area of the booster system for air-compressing, self-igniting internal combustion engines.

From the DE 100 30 924 A1 is known a glow plug for placement in a combustion chamber. In this case, a rod-shaped heating element is arranged in a concentric bore of the housing of the known glow plug having a first current-carrying layer, a second current-carrying layer and an insulating layer lying between the two current-carrying layers. At the combustion chamber end of the heating element, the two current-carrying layers are connected to one another via a Leitschichtsteg.

The from the DE 100 30 924 A1 known glow plug has the disadvantage that it is due to fluctuations in the manufacturing process and aging phenomena over the life of the glow plug candles to individual variations of the characteristics of the glow plug that affect the heating behavior and in particular the annealing temperature at the top of the heating element of the glow plug. Specifically, there is the problem that the required annealing temperature at the top of the glow plug is not achieved or too late.

Disclosure of the invention

The Inventive glow plug with the Features of claim 1, the invention Control unit with the features of claim 13 and the inventive annealing system with the features of claim 14 have the advantage that a deviation of the candle-specific Heating behavior of the desired heating behavior can be reduced. Specifically, there is the advantage that the required Annealing temperature of the glow plug even at manufacturing and / or age-related deviations of the characteristic Properties of the glow plug of the nominal properties can be achieved with high reliability.

By the measures listed in the dependent claims are advantageous developments of specified in claim 1 Sheathed-type glow plug, of the control device specified in claim 13 and the annealing system specified in claim 14 possible.

In the machine-detectable information that the glow plug is provided, is at least one candle-specific parameter coded. It is advantageous if several or all parameters, for example during or after production of the glow plug be measured, coded in the machine-collectable information are, if they are processed by the control unit can.

Advantageous is the coding of a resistance of a heating element of the glow plug at a certain annealing temperature of the heating element. For example The glow plug can be subjected to a glow current and a course of the resistance of the heating element over the time to be measured. As candle-specific parameters are suitable especially the resistance to the zero second during the application of the glow current, that is the resistance of the heating element in the de-energized state. Further is suitable as a candle-specific parameter of resistance to 60th second, when the glow plug at least substantially their Maximum temperature reached and a steady state is reached. Depending on the heating speed of the glow plug can Another time to determine the resistance in the steady state be based on. As another parameter, the thermal Coefficient of linear expansion of the heating element deposited become. Also, parameters higher Order are deposited, for example, the slope of the resistance characteristic at different times. In addition, you can Fluctuations of stored parameters over the lifetime the glow plug, that is in dependence from aging, determined and deposited in the information. It has been found that for a production batch, that is for glow plugs that under the same conditions have been produced, such fluctuations are coupled at least by non-linear correlations. Consequently can one or more glow plugs one Production batch as part of a sample examination exemplary Provide values for the variation of the parameters, the others Glow plugs are assigned to this batch. For example may be a simulation of the operation of a glow plug above the life span was carried out as part of a roughing test be in which the glow plug due to higher thermal stress accelerates aging. Specifically, a measurement the parameter by two measurements of the step response at 0 to 11 V and 0 to 9 V are examined before and after the Rafftest be performed.

The coded in the information parameters of a special glow plug are read by means of a detection device to deposit them in the control unit. This deposit may be separate for several glow plugs in the control unit respectively. The candle-specific information detected by the detection device can be stored in a memory of the control device so that the glow plugs can be activated in dependence on the information stored in the memory. As a result, a certain compensation of the characteristic properties of the individual glow plugs, which are generally different from each other, can be achieved for each individual candle. This compensation is preferably carried out in such a way that the desired course of the glow, in particular the desired annealing temperature, is uniformly passed through or accepted by all the glow plugs.

In Advantageously, the machine-detectable information is on attached to the housing. This allows the information from be detected externally by means of a detection device. This allows easy handling of the glow plugs.

Further it is advantageous that one attached to the housing Sticker is provided on which the information is stored. Specifically, the information may be in the form of a bar code on the Sticker be stored. This allows the use a bar code reading unit in the detecting device, so that a cost-effective design of the annealing system and easy handling is possible.

In Advantageously, the information is in a memory area stored on a surface of the housing. The information can be eroded by the housing be stored in the memory area. This allows a permanent storage of information, specifically a high resistance to media, in particular Diesel fuel, high temperatures and pollution ensured is. Specifically, by cleaning the storage area, a reliable readout the information takes place.

Further It is advantageous that the information described on a RFID chip stored in a housing or is applied to this. For reading then a corresponding Serving reader, allowing a reading over a relatively large distance, for example a few meters, is possible.

Short description of the drawing

One preferred embodiment of the invention is in the following description with reference to the accompanying drawings explained in more detail. It shows:

1 A preferred embodiment of an annealing system with a glow plug and a detection device in a schematic representation.

Embodiment of invention

1 shows a preferred embodiment of an annealing system 1 , which can serve in particular as jump start system. The annealing system 1 includes a glow plug 2 , a control unit 3 and a detection device 4 , The glow plug 2 can be used as a glow plug 2 be designed for an air-compressing, self-igniting internal combustion engine. A rod-shaped heating element 5 the glow plug 1 protrudes in pre-and swirl chamber engines in the chamber of the internal combustion engine and in direct injection engines in a combustion chamber of the engine, wherein the heating element 5 as a metallic or ceramic heating element 5 can be trained. The annealing plant according to the invention 1 , the glow plug according to the invention 2 and the control device according to the invention 3 However, they are also suitable for other applications.

The glow plug 2 has a housing 6 on, which preferably consists of a metallic material. The housing 6 includes a protective tube 7 from which the rod-shaped heating element 5 protrudes. Further, on the housing 6 a thread 8th designed to screw in the glow plug 2 in a bore of the internal combustion engine, wherein the housing 6 over the engine block with electrical ground 9 is connected. On the case 6 is a polygon 10 formed, the screwing in the glow plug 2 into the hole allows.

The glow plug 2 has a Glühstromleitung 11 on that at a contact 12 via an external line 13 with the control unit 3 is connectable. The control unit 3 is also with the electrical ground 9 connected. The control unit 3 is used to control a glow current that goes to the glow plug 2 is guided and at least substantially by the rod-shaped heating element 5 flows. This causes the heating of the rod-shaped heating element 5 , especially in the area of a tip 14 the rod-shaped heating element 5 , The circuit is thereby via the electrical ground 9 closed.

The annealing system 1 ensures as constant as possible heating behavior of the glow plug 2 especially in the area of the tip 14 the rod-shaped heating element 5 , It can, for example, a constant temperature at the top 14 the rod-shaped heating element 5 be guaranteed for a certain duration. Further, after a certain, predetermined time a desired temperature at the top of the glow plug 14 reached. However, arise due to manufacturing influences in the production of the glow plug 2 and due to aging phenomena in the materials of the glow plug 2 , in particular of the rod-shaped heating element 5 which is periodically heated and cooled, candle specific deviations in the characteristic properties of the glow plug 2 , in particular the heating rate and the temperature reached at the top 14 in a steady state. Further influences result from engine conditions such as engine speed, combustion temperature and cooling water temperature. The control unit 3 compensates for such influences, so that the required annealing temperature in the region of the tip 14 the rod-shaped heating element 5 achieved and maintained over a period of time. For this purpose, the control unit 3 a memory 15 in which candle-specific parameters are stored. These candle-specific parameters may be a resistance of the heating element 5 in the de-energized state, a resistance of the heating element in a steady state and a thermal expansion coefficient of the heating element 5 act. Furthermore, predicted changes of these parameters with respect to the passage of time can be used as further parameters of the glow plug 2 in the store 15 be deposited.

Especially for the functions temperature control, resistance control and aging compensation of the control unit 3 Parameters required due to the manufacture and aging of the glow plug 2 vary. These parameters may be, for example, the resistance of the radiator 5 in the de-energized state, to the resistance of the radiator 5 in the steady state and the thermal expansion coefficient of the radiator 5 act. The variation of these parameters over aging is coupled within a production batch by non-linear correlations. These couplings can be examined by sampling, for example a Raff test, and by measuring the parameters considered before and after the Raff test and the production batch and thus each glow plug of the production batch, in particular the glow plug 2 , be assigned. Furthermore, for each glow plug this production batch, in particular the glow plug 2 After measurements, measurements were taken to determine the initial values of the parameters considered. The resulting candle-specific parameters, ie the measured data and the data of the roughing tests, are converted into an encrypted and compressed data word. The compression can be realized by various coding methods, for example Hamming coding or one's complement binary coding. This results in a data word. This obtained data word is in the form of a machine-detectable information locally to the respective glow plug 2 saved. In particular, the machine-detectable information in which the candle-specific parameters are encoded on the housing 6 to be appropriate.

In the described embodiment, the housing 6 the glow plug 2 a storage area 16 on a surface 17 of the housing 6 in which the information is stored. This information is in the form of a dot code by laser eroding the memory area 16 in the surface 17 of the housing 6 burned. Thus, storage of the information in which the candle-specific parameters are coded is given with high durability and thus high data security. In particular, a reliable protection against contamination or minor mechanical damage of the housing 6 guaranteed. In addition, a reliable protection against media, especially fuel, guaranteed.

Alternatively, instead of the memory area 16 on the surface 17 of the housing 6 also a sticker 16 ' be provided on which the information is stored in the form of a bar code.

The detection device 4 has an information consumer 18 on, for losing weight in the storage area 16 stored information is used. The accepted information in which the candle-specific parameters are stored is provided by the acquisition device 4 evaluated. The codeword obtained by the evaluation, that is to say the candle-specific parameters stored in the information, are then transmitted via a data interface 19 to the control unit 3 where they are stored in memory 15 be filed. This process is preferably for each glow plug 2 the annealing system 1 taken from the control unit 3 is driven in the operation of the internal combustion engine, repeatedly, so that in the memory 15 Several records of candle-specific parameters are stored to the individual control of the glow plugs, in particular the glow plug 2 to enable. This procedure can be carried out as part of the calibration of the engine control unit, wherein the detection device 4 Can be part of a diagnostic tester. In case of replacement of a glow plug 2 As part of a maintenance of the internal combustion engine, a correspondingly required updating of the memory in a simple manner 15 data contained. Due to the consistent design of the storage area 16 In addition, a refresh of the in the memory 15 of the control unit 3 data contained.

Instead of the sticker 16 ' can also be an RFID chip 16 ' be provided in which the information described is stored. Alternatively, the RFID chip may also be in the housing 6 provided or in a housing part of the housing 6 be integrated, for example, in a plastic ring in the area of the polygon 10 , This has the advantage that a berüh uninterrupted telemetry over several meters is possible.

The Invention is not on the described embodiment limited.

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 10030924 A1 [0002, 0003]

Claims (14)

Glow plug ( 2 ) for arrangement in a chamber of an internal combustion engine with a housing ( 6 ), characterized in that a mechanically detectable information is provided in which at least one candle-specific parameter is encoded. Glow plug according to claim 1, characterized in that the machine-detectable information on the housing ( 6 ) is attached. Glow plug according to claim 2, characterized in that a sticker attached to the housing ( 16 ' ) is provided, on which the information is stored. Glow plug according to claim 3, characterized in that the information on the sticker ( 16 ' ) is stored in the form of a bar code. Glow plug according to claim 2, characterized in that the information in a memory area ( 16 ) on a surface ( 17 ) of the housing ( 6 ) is stored. Glow plug according to claim 5, characterized in that the information in the memory area ( 16 ) is filed by erosion. Sheathed-type glow plug according to claim 1 or 2, characterized in that the information is stored in an RFID chip is. Sheathed-type glow plug according to one of the claims 1 to 7, characterized in that a plurality of candle-specific Parameters are encoded in the information. Glow plug according to one of claims 1 to 8, characterized in that the candle-specific parameter is a resistance of a heating element ( 5 ) at a certain annealing temperature of the heating element ( 5 ). Glow plug according to claim 9, characterized in that the candle-specific parameter is a resistance of the heating element ( 5 ) is in a de-energized state. Glow plug according to claim 9, characterized in that the candle-specific parameter is a resistance of the heating element ( 5 ) is in a steady state. Glow plug according to one of claims 1 to 8, characterized in that the candle-specific parameters, a thermal expansion coefficient of the heating element ( 5 ). Control unit ( 3 ) for glow plugs ( 2 ), which are arranged in chambers of an internal combustion engine, wherein the control unit at least temporarily with a detection device ( 4 ) is connectable, which for machine detection of the glow plugs ( 2 ) is used, in which candle-specific parameters of the glow plugs ( 2 ) and a memory ( 15 ), in which the candle-specific information supplied by the acquisition device ( 4 ), are storable, and wherein the glow plugs ( 2 ) depending on the in the memory ( 15 ) parameters can be controlled. Annealing plant with a control unit ( 3 ) according to claim 13 and at least one glow plug ( 2 ) according to one of claims 1 to 12, wherein the control device ( 3 ) the glow plug ( 2 ).