NL8402593A - CURRENT DETECTOR. - Google Patents

Description

m * \ - VO 6486.

Title: current detector.

The invention relates to a scanning device for scanning the current in one or more conductors, which device does not require an auxiliary power source for the signaling. The scanner according to the invention is of the type which is capable of either continuously or intermittently giving a light and / or sound indication when a current flows through one or more conductors, and is also capable of switching the "off" - " to indicate the "in" state of switch members, the latter in which case the indication is given when the switch is "in" or closed. In this regard, the invention does not relate to such devices which operate on a completely different principle, such as those which give an opposite indication, i.e. in the case of a switch, those indicating when the switch is in the "off" or open state. The scanner of the type to which the invention pertains usually comprises a transformer, which is designed to sense the flow of a current in one or more conductors. The signal generated in the secondary winding of the transformer is suitably amplified and processed by an electronic network for influencing a control circuit which is 20 τ, η capable of e.g. to give a light and / or sound indication.

Both the electronic network and the control chain Λ require a separate source, which makes the entire system heavier. In addition, under all circumstances, a power source is not available at the location where a smooth current is to be sensed, or it may be difficult to establish a tap. Therefore one has to resort to batteries.

The need for resources is in any case a cause of energy consumption, not only in the presence of the current to be sensed, but also in the absence thereof.

It is clear that all of the above drawbacks arise both in the case where the operating device causes the physical quantity (eg a light or sound intensity) to vary in proportion to the current to be scanned (electronic flow measuring instrument) and in in the case that the operating device 23 only operates at two levels, ie: below a target value 8402593 / - / - 2 - of the current to be scanned, the operating device gives no indication, while the device does provide an indication above this value.

The current sensing sensor according to the invention allows all of the above drawbacks to be eliminated by the fact that no power source is required and the energy for the indication is taken directly from the current to be sensed.

The scanning device according to the invention comprises a transformer, which is intended to scan the current through one or more conductors and to transfer the signal generated during the secondary winding of the transformer to a rectifier - which in combination with a voltage amplifier may be present - causing a downstream capacitor to be charged. When an intended voltage value - corresponding to the value of the current to be sensed - occurs at the ends of this capacitor, the latter discharges over a downstream network to a light and / or sound signaling device. The energy stored in the capacitor can also be used as a power source for electronic circuits.

The invention will be explained in more detail below with reference to the drawing. In the drawing: Fig. 1 shows a block diagram of the circuit associated with the scanning device according to the invention; Figures 2 and 3 schematically show two ways in which the scanning device can be connected to a conductor in which a scanning operation is to be performed; and FIG. 4 is a diagram for explaining the components of the block diagram of FIG. 1.

In the block diagram of FIG. 1, F denotes a conductor from which it is desired to sense the current flowing therein. T is a toroidal transformer which is designed to sense the current through conductor F and to influence light and sound indicators shown in FIG. 1 via the circuit components arranged downstream and described below. 35 in the form of an LED 1 and a buzzer B. Downstream of the transformer T there is a first network R consisting of a rectifier - which can cooperate with a voltage amplifier - a capacitor <2 and a second network S ', which is one or more solid state 8402593-3O / components such as e.g. a static switch.

The signal on the secondary winding of transformer T, which signal is generated when a current flows through conductor F, will charge capacitor C through network R. When a target voltage value - corresponding to the value of the current one wishes to sense - occurs at the ends of C, the latter suddenly discharges via network S to the light-emitting diode 1 and the buzzer B.

The network S remains in the open state until the capacitor C 10 has reached the preset voltage value, and once this voltage value occurs at the ends of C, the network S suddenly transitions from the open state to the closed state, causing the discharge of the capacitor C is promoted.

As soon as the capacitor is discharged, the network S is returned to the open or "off" state and the capacitor charging starts again. Therefore, the operation obtained is preferably of an intermittent type ie, that both the light from diode L and the sound from buzzer B are of a pulsating type. *

In other words, below the threshold of the current to be scanned, no indication is given, while once the threshold is reached, an intermittent signaling is obtained with time intervals, which gradually decrease as the threshold of the current is exceeded because when the current values increase , the capacitor C is charged faster, so that the signal 25 at the output of the transformer T increases.

. The scanning device according to the invention makes it possible for inexpensive devices for both home use and industrial use to be manufactured in a very simple manner. Two examples of these devices are shown in Figures 2 and 3, from which figures the simplicity of the installation is also evident.

The device of FIG. 2 does not require any mounting means. for the conductor in question because it is sufficient to guide the conductor (s) F through openings which are present for this purpose in the device.

In the case of the device according to Fig. 3, however, the conductor is cut in two parts and the ends of the latter are attached to the device by means of clamps.

The scanning device according to the invention is suitable for a large number of different applications.

For example, the device can e.g. serve to provide the user with an indication that the upper limits of an acceptable overload are being approached so that the user is able to take the necessary measures (such as disconnecting a non-essential load) before a main switch or the switch installed by the competent electric power company will be activated due to this overload.

Furthermore, the device can be used to indicate the "off" or "in" state of a switch present in the conductor F, it being understood that an indication is given when the switch is in the "in or closed condition.

Since the signaling is preferably of the intermittent type, this allows the light indication to be perceived at a distance of many meters or the sound indication to be clearly heard in an apartment, even with closed doors.

Finally, both the light from the LED L and the sound 20 from the buzzer B may be able to generate an energy signaling circuit e.g. a siren, via a photo or sound coupling device respectively .. In this case, however, an auxiliary power source is required.

Furthermore, a distance transmission of the indication signal can be obtained using either conventional transmission means or an optical fiber system.

A possible application of the device according to the invention, which is of particular importance, is the use of the device for feeding electronic circuits downstream of the capacitor C by energy, which is taken from a single conductor through which a current flows. It therefore becomes possible to e.g. powering a switch influencing circuit even when the respective switch is closed - ("in"), it being understood that when the switch is open ("out"), a power source is available at its ends.

35 Now referring to.rfig. 4, in which the components of the block diagram of FIG. 1 are shown in detail - an example of the numerical values for these components, which are not to be considered in a limiting sense, is given below, whereby an 8402593 s-5 - pair of these components commercial symbols are indicated.

It should be noted that the capacitor and the diodes and in the schematic of FIG. 4 form a voltage rectifier and amplifier unit, such as the network R in the block diagram of FIG. 1, 5 while R ^, SBS and SCR in FIG. 4 form the network S according to Fig. 1.

- Example:

For the transformer T (the number of turns of the primary winding) = 1 and N ^ (the number of turns of the secondary winding) = 1,000.

Network R: = 0.47 ^ 1 P: 10 VDC (operating DC voltage) with 20% tolerance.

Dj and are 1 N 4003 diodes or bridges.

C = 10 µF; 50 VDC - 20% tolerance.

15 ""

Network 3:

Rj = 63 ki2) 0.25 W - 10% tolerance.

R ^ -33 kft; 0.25 W - 10% tolerance.

SBS: 2 N 4992.

SCR: C 106.

5422533

Claims (10)

Scanning device for sensing the current in one or more conductors (F) characterized by a toroidal transformer (T) which can sense the flow of a current in the conductor (s) (F) to influence light and / or sound signaling means when said stream is a. exceeds preset threshold value, wherein the device, between the transformer (T) and the signaling means, is provided with a first network (R), provided with a rectifier, which can cooperate with a voltage amplifier, a capacitor (C), and a second network (S), such that a signal on the secondary winding of the transformer (T) 10 causes the capacitor (C) to be charged over the network (R) and when at the ends of the (C) a suitable voltage value occurs, which voltage value corresponds to the current value for which a detection is desired, the capacitor (C) is suddenly discharged via the network (S) to the signaling means. Scanning device according to claim 1, characterized in that the network (R) comprises a capacitor (C ^) and 2 diodes (D) and (D2), and the network (S): two resistors (R ^):. err :-( R2) en- a / (S35) "and a '- (SCR). Scanning device according to claims 1 and 2, characterized in that for the best operation of the chain, the preferred values for the various components are as follows: - transformer T: = 1, N2 = 1,000; network R: C ^ * 0.47 F ± 20%, 100 VDCƒ; D and D: IN 4003 diodes; X Λ » 25. C: 10 ^ iF ± 20%, 50 VDC; - Network S: R ^ = 68 kft ± 10%, 0.25 W, R2, 93 kfl ± 10%, 0.25 W, SBS: 2 N 4992, SCR: C 106. Scanning device according to claim 1, characterized in that j- 'the light and sound signaling means resp. consist of an LED diode (L) and a buzzer (B), the signaling preferably being of the intermittent or discontinuous type, with increasing values of the current to be scanned above the threshold value. Scanning device according to claim 1, characterized in that the device determines the "off" or "in" state of switching members in the conductor (P), the signaling taking place when the switching members are in the "in" position thereof. Scanning device according to claim 1, characterized in that the connection of the conductor (s) (F) is obtained by passing the conductor (s) (F) through corresponding openings in the housing of the device. Scanning device according to claim I and one or more of claims 2 to β, characterized in that the connection of the conductor (F) is obtained by cutting the conductor (F) and then the two ends thereof by means of connect cable clamps to the device housing. Scanning device according to claim 1, characterized in that a distance transmission of the LED diode - (1) and 2emer (B) signaling can be obtained by grating. photo coupling devices and sound coupling devices. Scanning device according to claim 1, characterized in that the device can be used for supplying electronic circuits located downstream of the capacitor (C) with energy extracted from a conductor flowing through a current 20. (F). 84025S "