DD218865A1 - GLOWING TIME LIMITING AND PROGRESSING IN ENGINE INDEPENDENT VEHICLE HEATERS WITH PROGRAMMABLE TIMING CIRCUIT - Google Patents

Abstract

For the Gluehzeitbegrenzung and the Vorgluehen motor-independent vehicle heaters only a programmable timer circuit should be used. The required switching time for pre-heating is based on a divider output that does not set the total time. With this adjustable time on the timer circuit then the switching times of all other divider outputs are determined according to the integrated program. The pulse for the Gluehzeitbegrenzung is taken from the total time adjusting divider output and passed to a transistor. The transistor in turn controls the time domain input. If, after the start, the first LH edge occurs, which leads to no reaction in the direct connection of divider output and time domain input, the transistor controls and at the time domain input a HL edge appears, as a result of which the glow time limitation, after half, itself from the standard circuit. Fig. 1

Description

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The circuit described according to the invention is provided in the case of engine-independent vehicle heaters equipped with atomizing burners for the control of the times of preheating and annealing time limitation after switching on combustion air and fuel.

But it can also be applied wherever two times are to be realized with a programmable time circuit, which are part time to total time in a fixed ratio, but do not result in the standard circuit.

It is customary to realize the times for the preheating and the Glühzeitbegrenzung with two separate discretely constructed time circuits in heaters, which operate on the principle of capacitor charging or discharge.

A control with such time circuits is described in DD-WP 68069. The time circuits are constructed with electrolytic capacitors, which must have extremely small residual currents in order to realize the necessary times. Electrolytic capacitors have the property of being highly temperature and time dependent. The manufacturing tolerances of the capacitance require adjusting the times. *. ·.

Time circuits with high-quality capacitors (MKT) and MOS-FET transistors are also used, but they are very high-impedance. The disadvantage is that such high-impedance time circuits are very sensitive to moisture and therefore special protective measures, such as shedding, are necessary. At the same time, the expenses for repairs increase. '

A further development of the prior art is described in DE-AS 2140621. The control receives impulses from, a motor belonging to the engine-independent heating. These pulses are used via a counter and decoder for timing. This has the disadvantages that an additional effort for pulse generation is necessary and that the production-related Drehzahltoieranzen the engine affect the timing. In addition, the heater to be controlled must have a second motor, which does not serve the combustion air promotion. If the control pulse is tapped by the combustion air motor, no pre-glow time can be realized. Thus, the universal applicability of the control is limited because a heater with an engine driving the combustion and fresh air fan can not be operated with this control. ':'.].

Aim of the invention " ,.

The aim of the invention is to realize at a programmable Zeitschaitkreis with minimal effort a second switching time, which is twice as long in relation to the total time as the pulse length at a low, unused divider output at Stardardbescha! ,,,

Explanation of the essence of the invention -

Programmable time circuits designed for the realization of a delay time divide the relatively high frequency of an oscillator over several delay stages until the desired delay time and are reset in an edge-triggered manner.

Some Teilrstufen are out to determine the Zeitboreichs. These divider outputs can also be used to control other times. However, the pulse lengths at the divider outputs are due to the integrated divider ratio

determined in relation to the total time. , ,

With the solution shown, it is to be achieved that, while maintaining the total delay time of the time circuit at the consumer outputs, pulses of double length can be tapped to control a part-time. According to the invention this object is achieved in that the signal of a selected divider output is not given directly to the time domain input, but is used to drive a transistor, which then switches the time domain input. The associated load output of the timer circuit is used to control the glow plug relay. From a, the selected divider output upstream divider stage, the signal for the delayed switching on the combustion air engine and the fuel delivery is removed.

For programmable time delay trips, the delay time ends with the first H-L edge after the start of the time range input. With direct connection of divider output and time domain input, the L-H edge which occurs after half the delay time has no effect with the usual circuit.

When the supply voltage is applied, the divider outputs of the time circuit are at rest. Thus, the transistor connected to a divider output is turned on and gives L level to the time domain input. If the timer circuit programmed in the wiping function is started, the glow plug stimulus picks up and all divider outputs switch on L. Thus, already at start-up, an LH edge at the time domain input is dispensed with by the transistor. If now the oscillator frequency is selected to be half as high as would be necessary for direct connection of the consumer output to the time domain input for the realization of the glow time limitation, then the first switchover from L to H at the consumer outputs occurs twice in each case. This pulse time is used for the delayed start of the combustion air engine and the fuel delivery. . ' . ' ,

Switches the transistor controlling part output from L to H, created by the transistor at the time range input already a HL edge, which leads to shutdown of the glow plug relay and all divider outputs again sets to H. Thus, -ι: _Λ κ «; WiraUnrUorWn ^ iinn fioo Toiloraiicnonno "with-Hem 7eithpr (iip.hBftinr! Ann after rtp.r half Verzöaerunaszeit occurring

-2- 252 801 5

embodiment

For the control of engine-independent vehicle heaters with Glühkerzenzündung it is necessary that immediately after starting the glow plug and starts after a delay time (pre-glow) of the combustion air engine and the fuel delivery. If the device does not ignite, the glow time must be limited and the combustion air motor must be switched off with a delay.

With the solution shown in Fig. 1, it is possible to easily realize a ratio pre-glow time for Glühzeitbegrenzung of 1: 6, although in standard circuit of the divider output OD1 with the time domain input IT1, the pulse length at the divider output OC1 is only Vi2 of the total time.

The combustion air motor, not shown, is connected to the relay 2 and the glow plug, not shown by means of relay. 1

Both relays are each controlled by a programmable time circuit IS1 and IS2. With the resistors R1 and R2 and the capacitor C1, the oscillator frequency of the timing circuit IS1 is set, with the resistors R8 and R9 and the capacitor C3, the oscillator frequency of the timing circuit IS2. The time circuit IS1 is programmed as a wiping function. Via the resistor R3, the divider output OD1 is loaded and the connection of the transistor T1 is possible, which activates the time domain input ITI. At the load output ORsI, the relay -1 is connected to control the glow plug. Via the resistors R4 and R5 and the transistor T2, a signal dependent on the divider output 0C1 and set output 0S1 is applied to the start input ISt2 of the time circuit IS2. By means of resistor R7, L level is generated at the time domain input ISt2 when the transistor T2 is turned off. The timer circuit IS2 is programmed off-delay and controls the relay 2 at. ^

When the operating voltage and the Η level at the time domain input IStI are present, the L level at 0S1 is 0C1,0D1 and 0RS1 is Η level, the relay 1 is at rest.

By the locked output OD1, the transistor T1 has turned on and at IT1 is L level. By the L level at Os 1, the transistor T2 is turned on and is at ISt2 Η level, the relay 2 is also at rest. If the time circuit IS1 is started by means of L level at the time domain input ISt 1, all divider outputs OA1 to OD1 switch to L, the set output Os 1 switches to H. Due to the programmed wiping function, the relay 1 picks up immediately after the start. The H-L edge occurring at the start at the divider output OD1 is converted by the transistor T1 into an L-H edge, which, however, does not lead to any reaction of the circuit. Since at the start of the divider output OC1 switches to L level, the transistor T2 remains open despite Η-level at Os 1. The time circuit IS 2 and thus also relay 2 remain at rest, the preheating time is running. After a time determined by the oscillator frequency and the integrated divider ratio, 0C1 turns to H, thereby turning off the transistor T2, and the timer circuit IS 2 is started. With this start, relay 2 picks up and the combustion air engine starts. The delay time of the circuit IS2 is greater than the pulse length at 0C1, so that relay 2 remains energized despite the following level change at the divider output OC1.

After three switching sequences at OC1, OD1 switches to 6 1 level due to the integrated divider ratio 0C: 0D. This L-H edge is converted by the transistor T1 into an H-L edge at IT1, which prematurely terminates the timing at the circuit IS1. The relay 1 drops out, the glow time limit has become effective. At the same time, all divider outputs switch back to H and the set output OsI to L. Thus ISt2 is constantly at Η level. After the switch-off delay, relay 2 drops out and the system returns to its initial position.

Claims (1)

  , -i_ 252'801; 5 Invention claim - · '. , Glühzeitbegrenzung and preheating in mo'coruinabhängigen vehicle heaters with programmable time circuits, characterized in that only one programmed in wiping or tilt function timer circuit (IS1) with integral integrated Teiieretufen and flankengetriggerier Rücksstzung to realize a pre-glow and a Glühzeitbegrenzung is used by a divider output (GC ) Delays the motor relay (2) and a higher divider output (ODD via a transistor (Ti) in conjunction with the Zeitbereichseingsng (IT1) and the load output (ORS1), the glow plug relay (1) switches.