KR19980025377U - Overheat prevention circuit of heat generator by thermo-temperature switch - Google Patents

Abstract

The present invention relates to an overheat protection circuit of a heating device by means of a thermal lead switch, and the overheat protection circuit of a conventional heating device is disconnected because a thermal fuse connected in series with the heater does not overcome its allowable limit when the heater is overheated. In this case, the power supply to the heater was cut off due to the disconnection of the temperature fuse, and the overheating of the heater was prevented.However, when replacing the parts of the electronic product damaged by the overheating of the heater, the entire electronic product must be disassembled. Not only is the operator uncomfortable, such as the need to replace the thermal fuse that is inserted and soldered, but also has a disadvantage in that the A / S property is significantly reduced.

Accordingly, the present invention, in the high temperature prevention circuit of the heating device is connected to the heater (H) via the power switch 30 and the fuse (F) to the AC power source (AC), as shown in the accompanying drawings, the heater ( When the temperature of H) is overheated, the fuse F is disconnected by the temperature-sensitive lead switch 20 connected in an on state, thereby preventing overheating of the heater H.

Description

Overheat prevention circuit of heat generator by thermo-temperature switch

The present invention relates to an overheat prevention circuit of a heating device by a thermal lead switch, and more particularly, to cut off power supplied to a heater when the heater is overheated above a pre-installed temperature in an electronic product using the heater. An overheat protection circuit of a heating device by a thermal lead switch is provided.

In general, the home appliances we use are generally supplied with AC power of 110V to 220V, and inside the electronics, components such as diodes, resistors, transistors, transformers, various ICs, and fuses are printed circuit boards (PCBs). The organic components are inserted into each other organically, and currents flow along a predetermined copper plate of a printed circuit board (PCB) to obtain a desired level of direct current or alternating current (AC) power.

The stabilized power is supplied to a circuit that performs various functions inside the electronic product so that the electronic product can be operated and controlled to perform normally.

On the other hand, among the electronic products that perform various functions, there are some electronic products that employ a heater to achieve a desired purpose as heat generated from the heater.

Exemplary Drawings FIG. 1 is a diagram illustrating a schematic diagram of an overheat prevention circuit among electronic products employing a conventional heater. The configuration is as follows.

That is, the application of AC power to the load side is controlled by the on / off of the power switch 30, the fuse F connected to the power switch 30 to prevent this when an overcurrent is applied in the circuit. In order to prevent the protection and breakage of the circuit when the internal circuit is disconnected or shorted, it is safely disconnected. In other words, the fuse F is automatically disconnected when an overcurrent flows through the network including the fuse F to cut off the current supplied to the internal load, thereby preventing damage to the internal circuit due to the overcurrent.

On the other hand, the heater (H) is used in home appliances that are used as a heater as the heat radiation by changing the electrical energy into thermal energy, and in order to prevent overheating of the heater (H), the temperature fuse 10 in series with the heater (H) It is connected.

The temperature fuse 10 may be used as a component that has a function of resistance and a temperature fuse built in the resistor, and is attached to a heat dissipation part such as a heat sink, and when the temperature is sensed above a predetermined temperature, the circuit is disconnected. Sensors are also used.

Therefore, when the power switch 30 is connected in the on state and the current is supplied to the heater H through the fuse F and the temperature fuse 10, the heater H is heated, but the heater H is heated to a predetermined temperature or more. When overheated, the temperature is sensed by the temperature fuse 10, which causes the temperature fuse 10 to be disconnected when the temperature fuse 10 is out of the allowable limit temperature of the temperature fuse 10, thereby cutting off the power supplied to the heater H. ) To prevent overheating.

However, in the conventional overheat prevention circuit, when the heater H is overheated, the temperature fuse 10 connected in series with the heater H is disconnected without overcoming its allowable limit temperature, thereby causing the The power was cut off from the heater H by disconnection, and overheating of the heater H was prevented.

However, in the case of replacing a component of an electronic product that has been damaged due to overheating of the heater H, that is, a temperature fuse, the entire electronic product must be disassembled and buried in the lead of the temperature fuse 10 inserted into the printed circuit board and soldered. After removing the lead, the replacement of the temperature fuse 10 and soldering again, as well as the inconvenience of the operator, there was a disadvantage that the resulting A / S significantly reduced.

The present invention has been made to solve the above-mentioned disadvantages of the prior art, and to provide an overheat prevention circuit of a heating device by a thermal lead switch that facilitates replacement of damaged parts of electronic products due to overheating of a heater. There is a purpose.

The present invention for realizing the above object is a conventional thermal protection circuit in which a heater and a temperature fuse are connected in series, parallel to the heater a thermosensitive switch that is shorted when the temperature of the heater is overheated above a certain temperature To replace the temperature fuse.

Therefore, the present invention overheats the heater because the fuse in the circuit is disconnected and the power supplied to the heater is cut off by the short action of the thermal lead switch connected to the on state by the bimetal curvature when the temperature of the heater is overheated above a certain temperature. In addition to achieving a predetermined purpose to prevent the to repair the electronics generated by the overheating of the heater is usually to be able to easily replace the fuse from the outside.

1 is an exemplary diagram of a conventional overheat prevention circuit diagram,

2 is an overheat prevention circuit diagram according to the present invention.

* Description of the symbols for the main parts of the drawings *

F-fuse, H-heater,

10-thermal fuse, 20-thermal switch,

30-power switch.

Hereinafter will be described in detail with reference to the accompanying drawings and the configuration and effect for the preferred embodiment of the present invention.

The present invention is an overheat prevention circuit of a heating device in which a heater (H) is connected to an AC power source (AC) via a power switch 30 and a fuse (F), when the temperature of the heater (H) is overheated The thermally sensitive lead switch 20 is configured to be connected in parallel to the heater H at the rear end of the fuse F.

Exemplary Drawings FIG. 2 is a diagram illustrating an overheat prevention circuit diagram according to the present invention.

As is well known, in the conventional overheat prevention circuit, the heater H and the temperature fuse 10 are connected in series with each other, but in the present invention, the fuse F for removing the temperature fuse 10 from the basic circuit and preventing the overcurrent is provided. At the rear end, the thermal lead switch 20 is configured to be connected to the heater H in parallel.

The thermal lead switch 20 is composed of a bimetal 40 rolled by attaching two metal plates having different coefficients of expansion, and the bimetal 40 is remarkably curved to one side while being heated in accordance with a change in ambient temperature. This change is achieved by the switch.

Hereinafter, the operation and effects of the overheat prevention circuit to which the temperature sensitive switch according to the present invention is applied are as follows.

The present invention is composed of the AC power supply (AC) is supplied to and cut off to the heater (H) side by the on / off of the power switch 30, when the power switch 30 is connected in the on-state AC power is a fuse ( Passed through F) is applied to the heater (H). As a result, the heater H is heated to perform normal operation.

On the other hand, when the heated heater H is overheated due to an abnormality of an internal circuit when an AC power source AC is applied, the superheated temperature is transmitted to the thermally sensitive lead switch 20 which is connected in parallel with the heater H and opened. At this time, the bimetal 40 inside the temperature-sensitive lead switch 20 is activated until the switch is turned on.

When the thermal lead switch 20 is connected in the on state due to the operation of the bimetal 40, a short phenomenon occurs at the rear end of the fuse F, and an overcurrent flows through the fuse F by the short. Will be disconnected.

That is, when the heater H is overheated, the heat generated from the heater H is sensed by the thermosensitive switch 20, and when the heater H is heated above the temperature installed in the bimetal 40, the bimetal 40 is heated. When the switch is turned on, the two lines of the AC power supply are shorted so that the fuse F is disconnected so that no more power is supplied to the heater H.

As mentioned above, AC power is applied to the input unit and passes through numerous parts, and current and voltage generate a loss without output while drawing an abnormal cycle of 100%. This loss is converted into heat and organic It is well known to cause catastrophic damage to the life of the component to which it is acting.

In addition to the overheating of the above-described heater (H), each component in all electronic products generates a voltage drop due to the consumption of current, which generates heat. In order to dissipate heat using a heat sink.

The parts that generate such high temperatures operate normally within their own limit temperature, and malfunctions when the temperature rises above the allowable temperature. ) Can be connected to the circuit, as well as to overloaded parts of the circuit.

As described above, the present invention connects the thermal lead switch to both ends of the heater in parallel to detect the thermal lead switch when the heater is overheated, and short-circuits the AC power by shorting the AC power. This prevents overheating, so it is easy to repair the fuse only when the electronics generated by the overheating of the heater are replaced.

Claims (1)

In a high temperature prevention circuit of a heating device in which a heater (H) is connected to an AC power source (AC) via a power switch (30) and a fuse (F), a thermal lead that is turned on when the temperature of the heater (H) is overheated Overheat prevention circuit of the heating device by the temperature-sensitive switch, characterized in that made in parallel to the heater (H) at the rear end of the switch 20 and the fuse (F).