KR0141415B1 - The test circuit of heater using balanced magnetic flux - Google Patents

Abstract

The present invention relates to a heater inspection circuit using a magnetic flux balance that can check any heater whose current consumption is changed by disconnection or characteristic change among several heaters connected in parallel at the same time. The heater check circuit includes a signal input terminal for inputting an AC power source; A plurality of heaters connected in parallel by an AC power source input to the signal input terminal; By winding the input line of each of the plurality of heaters to the primary side of the transformer, the magnetic flux generated on the primary side of the transformer in the normal operation of the heater is characterized in that configured to cancel each other.

Description

Heater check circuit using flux balance

1 is a heater inspection circuit using the magnetic flux balance according to the present invention.

2 is a state diagram wound on the primary side of a transformer according to the present invention.

* Explanation of symbols for main parts of the drawings

HR1,… HRK: Heater R1: Resistance

LP: Lamp T: Trans

L1, L2, L3, L4: Line

The present invention relates to a heater inspection circuit using a magnetic flux balance that can check any heater whose current consumption is changed by disconnection or characteristic change among several heaters connected in parallel at the same time.

Conventionally, when a plurality of heaters are connected in parallel, an operation state check circuit is connected to each heater, and a lamp is installed on an input power line to turn on the lamp controlled by the check operation of the operation state check circuit. The operating state of the heater was checked.

As another method for checking the operation state of the heater, the operation state of the heater was checked by detecting the current flowing through the heater using a circuit for detecting a change in the current.

However, the conventional heater check circuit that connects an operation state check circuit or a circuit for detecting a change in current has a problem in that the configuration is complicated and a large space for installing the circuit is required, thereby increasing the overall volume of the apparatus.

Accordingly, the present invention is to provide a heater inspection circuit using the magnetic flux balance that can check the operating state of a plurality of heaters connected in parallel using the magnetic flux balance.

Heater inspection circuit according to the present invention for achieving the above object is a signal input terminal for inputting an AC power source; A plurality of heaters connected in parallel by an AC power source input to the signal input terminal; By winding the input line of each of the plurality of heaters to the primary side of the transformer, the magnetic flux generated on the primary side of the transformer in the normal operation of the heater is characterized in that configured to cancel each other.

Hereinafter, a heater inspection circuit using the magnetic flux balance according to the present invention will be described in detail with reference to the accompanying drawings.

First, the overall content according to the present invention is to separately input the power lines input to the heater connected in parallel to the primary side of the transformer, and the transformer so that the magnetic flux generated on the primary side of the transformer to cancel each other when the heater is operating normally Configure At this time, if an unspecified heater connected in parallel occurs or an abnormality occurs in the operating state, the magnetic flux on the primary side of the transformer becomes unbalanced and the magnetic flux is induced on the secondary side of the transformer. I'm driving a neon lamp that can.

The connection relationship will be described with reference to FIG. 1, which is a detailed circuit diagram of the heater inspection circuit according to the above description.

The signal input terminal 5 is wound N1 times on the primary side of the transformer T through the connection point A and connected to the first heater HR1. The input line of the second heater HR2 connects the connection point A. It is wound N1 times on the primary side of the transformer T, and wound in a direction opposite to the direction wound on the first heater HR1. 2 shows that the input line to the heater is wound in the opposite direction.

Therefore, the direction of the magnetic flux Q1 generated by the current I1 flowing to the first heater HR1 and the direction of the magnetic flux Q2 generated by the current I2 flowing to the second heater HR2 are mutually different. In the opposite direction. At this time, the current flowing to the first heater and the second heater has the same magnitude, and the number of turns N1 is also the same.

In this structure, the heaters of the same size are connected and operated in parallel to the primary side of the transformer so that the sum of the magnetic fluxes generated on the primary side of the transformer T may be canceled with each other.

The lamp LP is connected to the secondary side of the transformer T via a resistor R1.

In the heater check circuit having the above structure, when AC power is input to the signal input terminal 5, the magnetic flux Q1 is generated by the current I1 input to the first heater HR1, and the current I1. Since the second heater HR2 for inputting a current having the same magnitude as) is wound in a direction opposite to the input line of the first heater HR1, the second heater HR2 is wound in a direction opposite to the magnetic flux Q1 of the first heater HR1. Magnetic flux (Q2) occurs.

At this time, the magnetic flux (Q1, Q2) is only opposite to the direction, and have the same size, so that they cancel each other.

Since magnetic fluxes Q3, ..., QK generated in a plurality of heaters, which are not described, are also canceled with each other by this process, no voltage is induced on the secondary side of the transformer T.

Therefore, the lamp LP connected to the secondary side is not turned on because no voltage is supplied.

On the other hand, the magnetic flux generated on the primary side of the transformer (T) is unbalanced when the current consumed by a particular heater is disconnected or the characteristics of the heater is changed among a plurality of heaters connected in parallel, the transformer Magnetic flux is generated on the primary side of (T) and voltage is induced on the secondary side of the transformer (T).

Therefore, the voltage induced on the secondary side of the transformer T is supplied to the lamp LP through the resistor R1 to turn on the lamp LP. When the lamp LP is turned on by the above process, the user can grasp the failure of the heater.

That is, in the heater check circuit using the magnetic flux balance according to the present invention, if the K heater input lines are wound on the transformer primary side so that the sum of the generated magnetic fluxes cancels each other, the voltage is not induced to the secondary side in the normal state, and the heater When a current change occurs due to an abnormality, the voltage is induced on the secondary side, so that the operating states of the plurality of heaters can be checked.

As described above, the present invention can display the failure of a plurality of heaters connected in parallel as a simple transformer and a lamp without the configuration of a special circuit, so that the circuit is easy and simple to maximize the function of the heater inspection circuit. It can be effective.

In addition, the present invention is not limited to the heater inspection circuit described in the present embodiment, but is usefully used to determine whether the normal operation of equipment or circuits with a small change in current when AC power is supplied and operating normally. Can be.

Claims (2)

A signal input terminal for inputting an AC power source; A plurality of heaters connected in parallel by an AC power source input to the signal input terminal; And winding the input lines of the plurality of heaters on the primary side of the transformer so that the magnetic fluxes generated on the primary side of the transformer cancel each other during normal operation of the heater. The method of claim 1, wherein a lamp is connected to the secondary side of the transformer, and the lamp has induced magnetic flux generated on the primary side of the transformer when a failure occurs in any of the plurality of heaters to the secondary side of the transformer. Heater inspection circuit using the magnetic flux balance, characterized in that the lighting is made by the signal.