CS261012B1 - Stick glow plug for compression ignition engines - Google Patents

Abstract

Quick-acting rod glow plug The start of the working temperature is intended for air heating at the start of diesel engines. The purpose is to simplify production technology these glow plugs and improve heat inertia after starting the engine. This has been achieved by modifying the glow plug construction control parts of a spiral of one material by annular shaping of the glow section spirals and inserting the ceramic mandrel inside spirals.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a glow plug rod for diesel engines and units used to heat them when starting.

Previously known embodiments of rod glow plugs are solved due to the need for rapid start-up of the heating of the active part to a temperature of at least 850 ° C in less than ten seconds such that in the heating rod there is a dual-wire wire spiral design. For self-heating, a high-resistance material is used and a material control element assigned in series, having a suitable coefficient of change of resistance depending on the temperature of the self-heating glow coil.

A number of different designs based on this principle are patented and these patents are realized on top foreign products. In this way, the heating-up time of the heating rod has been significantly reduced to seven seconds, the initial current at which the glow coil is heavily overloaded is reduced by up to 37% of the original value according to the temperature rise. Without this regulation, the glow life would be so low that it would not be practically usable. The disadvantage of this embodiment is the very complicated production of the heating and regulating spiral housed in a protective fireproof housing.

The essence of the glow plug rod according to the invention is that both the glow and the regulating part of the spiral are made of one type of material, namely the Ni, Wo, Mo,

Fe or their alloys, and because of their lower resistance, a method of locating the longer heater portion of the coil by ring-shaped it in such a way that the standardized external dimensions were maintained was solved. In order to increase the efficiency of the glow plug and to improve the manufacturing technology, a ceramic mandrel is incorporated in the inner cavity of the spiral.

The main advantage of the proposed solution is the possibility to use one type of material and consequently simplify the production technology. The annular arrangement of the glow part of the coil makes it possible, on the one hand, to handle the required length of the coil in a given space and, on the other hand, to intensify the output of the glow part of the coil in the region of the most efficient heating. In order to cope with the technology of reducing the heat-resistant sleeve, the inner diameter of the spiral is supported by a ceramic mandrel, which, in addition to its thermal properties, positively acts as a heat accumulator for additional heating after engine start.

The drawing shows the overall arrangement in cross-section. In the metal casing 2 of the glow plug having a threaded surface, a mounting surface for mounting in the motor and a hexagon for tightening, the actual heating rod consisting of a refractory casing 2 is pressed at the end of which a tension bolt T is pressed. Inside the refractory sleeve 2 there is an active element where the upper part acts as a control part of the spiral, the lower part of the annular spiral is the actual heating part 5 of the spiral and its end is welded to the center of the front of the refractory sleeve. A ceramic mandrel 8 is inserted in the inner diameter of the spiral to strengthen the spiral in the reduction technology, where the insulation medium is compacted.

Claims (2)

A glow plug for compression ignition engines comprising a metal housing with a crimped heating rod consisting of a heat-resistant housing inside which the heating and regulating part of the coil is surrounded by an insulating medium, characterized in that the control part (4) of the coil and the heating part (5) the spiral is made of one type of Ni, Wo, Mo, Fe or alloys thereof, wherein the coil heating portion (5) is annularly shaped. 2. The glow plug according to claim 1, characterized in that a ceramic mandrel (6) is arranged in the spiral axis.