CA2124630C - Contactor operation control device - Google Patents

Abstract

This operation control device for a contactor including a pull-in coil (1) and a coil (2) for holding a moving assembly in active position, the supply to which is governed by control means (6, 7), is characterised in that the control means include separate means (6, 9, 10) for control of the supply to the coils, receiving, as input, information on the power supply voltage of the contactor, in order: - simultaneously to feed the two coils (1, 2) during engagement of the operation of the contactor; - cutting off the supply to the pull-in coil (1) at the end of a defined time after the engagement of the operation of the contactor; and - again supplying the pull-in coil (1) in the event of a defined fall in the power supply voltage of the contactor during the operation of the latter. <IMAGE>

Description

2I2 ~~~

The present invention relates to a device for control of the operation of a contactor.
More particularly, the device according to the invention relates to operating control a contactor of the type comprising a call coil and a crew holding coil in the active position mobile.
In the state of the art, the call coil and the holding coil are generally connected in series with each other and a switch is connected parallel to the terminals of the holding coil for cause this coil to short-circuit when of a first operating phase of the contactor after its trigger.
Indeed, during this first phase of operation, only the pick-up coil must be fed lied to cause rapid crew movement mobile.
Once this mobile crew is in position active, the opening switch is opened short-circuit of the holding coil so that this is connected in series with the call coil in order to reduce the current flowing in these coils.
However, this structure has a certain number of drawbacks, particularly in terms of the obligation to provide this short-circuiting switch one of the coils and the dimensioning thereof for get the different operating characteristics especially the traveling time of the moving crew towards its active position and towards its retracted position and limited heating of the coils.
In the state of the art the document FR-A-

2,611,981 describes and represents a starting relay of motor vehicle which has several coils in parallels which are fed successively in order to 21 ~~~ 3 ~

limit the appeal force. At first, only one coil is ordered, then two, then three coils, single the first coil remaining supplied for maintaining the relay in the event of a drop in the supply voltage tion. This document therefore teaches that it is known to separately separate several coils in parallel, in particular link simultaneously during the call phase but this document does not address the problem of maintaining the relay in the event of a drop in the supply voltage.
The document EP-A-0164.014 describes and represents a signaling relay which can operate under two different voltages, i.e. a high voltage which can vary between 20 and 26.5 Volts and a low voltage which can vary between 10.5 and 13.5 Volts. A resistance, can be shunted by a switch, is connected in series with relay. The document does not indicate that the relay can have several control coils. Yes the voltage is low, which is detected by a comparison the switch is closed and the relay is energized directly. If the voltage is high, closing the the switch is controlled by a monostable rocker and the duration of the rocker pulse transmitted by a OR circuit is such that the operation of the relay is assured. Then, the relay is supplied in series with the resistance whose value is chosen so as to set the minimum holding voltage on the relay. This document therefore does not in any way deal with the problem of maintenance in the event of a drop in the supply voltage.
GB-A-2.156.156 simply teaches controlling a circuit breaker relay by coils in parallel, one of which can be ordered separately the other.
None of these documents describes, or even suggests, the problem of maintaining the relay in the event of a fall Of voltage.

~ <

3 This problem is particularly important for starter relay because the current absorbed by the starter is very high, resulting in a significant voltage drop.
The object of the invention is therefore to resolve these problems.
To this end, the invention relates to a device for controlling the operation of a contactor comprising a call coil and an active position coil of a moving element, said coils having power supplies l0 controlled by separate control means, characterized in that that said control means comprise:
an input for receiving signals representing a value of control and supply voltages; and outputs connected respectively to the coils, to control the coil supplies according to the signals received at the input, so as to:
- simultaneously supply the call and maintenance when the operation of the contactor;
20 - cut off the supply of the call coil at the end a specified time after the start of operation the contactor; and - supply the call coil again in the event of determined drop in contactor supply voltage during operation of the contactor.
Preferably, the control means include separate means for controlling the supply of the coils.
Preferably, the control means comprise additional inputs for receiving logic signals from 30 control regulating the control means.
Preferably, protective members are respectively coupled in parallel with the coils.
Preferably, said control means include:
two transistors having collectors, bases and transmitters, the transmitters being connected to ground, the 3a collectors forming said outputs of the control means;
a control unit comprising an input forming said input of control means, and outputs connected respectively to the bases of the transistors, to drive the transistors;
each of said coils being connected between a supply terminal and the collector of one of said transistors.
Preferably, the control unit is connected to the mass.
Preferably, the collectors of the transistors are connected respectively to supply terminals by through resistances.
Preferably, the control unit includes entries forming said additional entries.
Preferably, the input of the control means is connected to a pair of diodes.
Other characteristics and advantages of the invention will appear on reading the detailed description which will follow for the understanding of which one will refer to annexed drawings in which:
- Figure 1 shows a block diagram of a device for controlling the operation of a contactor the state of the art;
- Figure 2 shows a block diagram of a device for controlling the operation of a contactor according to the invention; and - Figure 3 illustrates the operation of the control device according to the invention.

2 ~~~~~~

4 As can be seen in Figure 1, it exist in the state of the art, contactors which have two coils, one called the call coil hindered by the general reference 1 in this figure and the other called holding coil designated by the reference general 2.
A short circuit breaker holding coil, designated by general reference 3, is provided in parallel on this coil.
It will be noted that these call and maintenance coils are connected in series between a power supply terminal and the collector of a supply transistor designated by the general reference 4 in this figure, this collector being connected to a positive terminal of the power supply to across a resistor 5. The emitter of this transistor is connected to ground and the base of it receives a signal piloting control means designated by the dream-general reference 6, receiving information on entries logic control commands designated by reference 7.
The control means have a structure classic based for example on a decoding controller informations.
It should be noted that a protection member is con connected in parallel on the call and holding coils and is designated by the general reference 8.
The operation of this device is as follows:
boast.
In the initial state of this device, the inter breaker 3 is closed so that the holding coil 2 is short-circuited.
The control means 6, under the control of information 7, cause the coil to feed call through transistor 4.
The moving part of the contactor is then attracted towards its active position.

~ I2 ~~ 3 ~
After a determined time, greater than the time necessary for the moving crew to arrive in position active, short-circuit switch 3 is open so the holding coil 2 is connected

5 in series with the call coil 1 in order to reduce the current flowing in these coils.
In an exemplary embodiment, the contactor is supplied by a direct voltage, VAlim, the nominal value is 28 Volts and which may vary within large proportions, for example from 10 to 32 V.
The call coil is supplied by a slot current of 40 mS for a voltage of 28 V and a temperature of 20 ~ C. The admissible accuracy for this duration of the slot depends on the value of the voltage (10 to 32 V.) and temperature, which can vary by example between -55 ~ C and + 85 ~ C.
The inrush current is equal to 1 A for the nominal voltage of 28 V and a temperature of 20 ~ C then that the holding current under the same conditions is than 250 mA.
The lower threshold voltage below which the call reel is reactivated is fixed between 12 V and 12.5 V and the upper threshold voltage above which the voice coil is deactivated when had been reactivated is set between 14 V and 14.5 V.
The contactor control voltage, VCde, must be at least equal to 3 V for a supply voltage, VAlim, which must be greater than 18 V. This is obtained at by means of an AND logic gate which receives as input two signals representative of the value of the voltages of control and supply and controls the delivery of call coil supply slot indicated above above. If the control voltage falls below this value of 3 V, the economizer control device according to the invention controls the opening of the contactor.

_ 2I2! ~ 6 ~~

6 The operation of the contactor is summarized on Figure 3 in the case of a drop in supply voltage mentation then in the case of an increase in this tension following a drop. Furthermore, the table below provides the different setting values in depending on the operating temperature.
-55c c 2oc 85c looc - Duration of the niche of conuuande 34 37,1 39,2 45 46 for 18 V <_ VAlim <32 V mS mS mS mS mS

and 3 V <VC of <28 V

- Duration of the control window 34 37, 39.2 45 46 for 3 V _ <VCde <28 V in mS I mS mS mS
mS

1 ~ applying 18 V <VAlim ~ 32 V

-Lower threshold voltage for 12.4 12.4 I2.4 12.412.4 3 V <VCde <28 VVVVVV

- Upper threshold voltage for 14 14 14 14 14 3 V <VCde <28 VVVVVV

- Minimum operating voltage 2.90 2.80 2.75 2,482.35 for 3 V <VCde <28 VVVVVV

- Minimum supply voltage 17.6517.67 717.7 17.74 17.74 to generate a VVVVV niche Z rJ - command for 3 V <VCde <28 V

As previously mentioned, this structure has a number of disadvantages of the made use of a shorting switch 20 holding coil circuit and the need for oversize the coils and in particular the coil call in order to cause a rapid displacement of the moving part towards its active position in the measurement where during this phase of operation, the coil of 25 maintenance does not participate in this displacement.
Furthermore, this structure also has coil heating problems and low ability to adapt to large variations in contactor supply voltage.
The control device according to the invention solves these problems.
A block diagram of this device is shown in Figure 2, in which elements similar to those shown in Figure 1 are designated 35 by the same reference numbers.

7 This is how we recognize in this figure 2, the take-up reel 1, the holding reel 2, the control means 6 and control information 7.
Unlike the classic device shown in FIG. 1, in the control device according to the invention, the means for controlling the supply of coils include separate means for controlling feeding them.
Indeed, in the device represented on this figure 2, one of the terminals of each coil 1, 2 is connected to a power terminal, while the other terminal of each of these is connected to the collector of a transistor respectively 9.10, these collectors being connected to a power supply terminal through resistors these 11 and 12.
The emitters of these transistors are connected to the mass and the bases of these are connected to control outputs of the control means 6 as a function control logic information 7.
Protective members 13 and 14 are connected in parallel to the terminals of the coils.
Furthermore, the control means receive also as input feed voltage information of the contactor, as will be described in more detail detail later.
It can therefore be seen that the separate control of coils improves the operating characteristics contactor operation.
Indeed, the separate control means of the coil supply can be adapted for simultaneously supply the call and holding coils when the operation of the contactor is triggered, to accelerate the movement of the moving part towards its active position.

8 The supply of the call coil 1 is then cut after a determined time greater than travel time of the moving part to its position active by checking the operation of transistor 9.
However, this call coil 1 can again be supplied in the event of a determined voltage drop in the contactor supply voltage, voltage drop which would risk bringing back the moving crew towards its retracted position.
The control means 6 continuously monitor the contactor supply voltage and trips the supply of the call coil when this voltage drops below a certain threshold, which product especially in case of heavy load of the rest of the circuit.
We can then imagine that the supply of the coils is controlled according to the evolution of the load in the rest of the circuit to allow better operation-contactor.
The supply of the call coil in case of significant drop in contact supply voltage tor allows to significantly reduce the current in the holding coil and therefore the volume of copper coils as well as the volume of iron in the circuit ma of this contactor.
Reduction of inrush and holding currents also results in reduced heating coils.
Furthermore, this structure also allows to ensure a faster movement speed of the moving part on the one hand from its retracted position towards its active position and secondly, its active position towards its retracted position, due to the higher energy weak stored in the coils.

i

9 Finally, it should also be noted that the inter-holding coil short circuit breaker is removed, this switch being relatively diffi-eyelash to adjust.

Claims (10)

1. Device for controlling the operation of a contactor comprising a call coil and a maintaining in active position of a moving assembly, said coils having power supplies controlled by means of separate control, characterized in that said means of order include:
an input for receiving signals representing a value of control and supply voltages; and outputs connected respectively to the coils, to control the coil supplies according to the signals received at the input, so as to:
- simultaneously supply the call and maintenance when the operation of the contactor;
- cut off the supply to the call coil at the end a specified time after the start of operation the contactor; and - supply the call coil again in the event of determined drop in contactor supply voltage during operation of the contactor. 2. Device according to claim 1, characterized in which the control means comprise separate means coil power control. 3. Device according to claim 1, characterized in that the control means include inputs additional to receive logic control signals regulating the control means. 4. Device according to claim 1, characterized in that protective members are respectively coupled in parallel with the coils. 5. Device according to claim 1, characterized in that said control means comprise:
two transistors having collectors, bases and transmitters, the transmitters being connected to ground, the collectors forming said outputs of the control means; and a control unit comprising an input forming said input of control means, and outputs connected respectively to the bases of the transistors, to drive the transistors;
each of said coils being connected between a supply terminal and the collector of one of said transistors. 6. Device according to claim 5, characterized in that the control unit is earthed. 7. Device according to claim 5, characterized in that the control means include inputs additional to receive logic control signals regulating the control means 8. Device according to claim 5, characterized in that the collectors of the transistors are connected respectively to power terminals through resistances. 9. Device according to claim 8, characterized in that the control unit comprises inputs forming said additional entries. 10. Device according to claim 1, characterized in that the input of the control means is connected to a pair of diodes.