JPH0611245B2 - Electrical equipment - Google Patents

Description

TECHNICAL FIELD The present invention relates to an electric device in which a plurality of heaters are automatically connected in series or in parallel according to a power supply voltage supplied.

(B) Conventional technology The commercial voltage of each country in the world is different at present, but it is roughly divided into 100V countries and 200V countries. In addition, the number of overseas travelers has recently increased, and those travelers have come to carry electric devices such as small hair dryers as essential items. Generally, the hair dryers used in Japan are different from those in Japan. It has the drawback that it cannot be used in the United States where commercial voltage is different. Therefore, for example, Japanese Patent Publication Sho 56
As disclosed in Japanese Patent Laid-Open No. 50365, when two commercial switches are used, a plurality of heaters are connected in parallel to a power source when the commercial voltage is 100 V, and when the commercial voltage is 200 V, each heater is powered. Is connected in series. However, in the above configuration, since the respective switching switches are manually operated, and due to the positional deviation of the movable contact plate, a random time lag is usually generated between the respective switching switches. In some cases, the respective switching switches may be located between the first and second contacts at the same time. In such a case, since the insulation distance becomes short, an arc may occur between the first and second contacts via the switch, which may cause a short circuit of the power supply.

(C) Problems to be Solved by the Invention In consideration of the above-mentioned drawbacks, the present invention automatically connects a plurality of heaters in series or in parallel according to the supplied power supply voltage and short-circuits the power supply when switching the heaters. It is intended to prevent the formation of a circuit.

(D) Means for Solving the Problems The electric device of the present invention is provided with a first and a second heater, a plurality of switching switches for connecting the respective heaters in series or in parallel with a power source, and a power source voltage. The switching order of the switching switches includes a voltage detection circuit that outputs a detection signal when the value is equal to or more than a predetermined set value, and a drive circuit that drives the respective switching switches based on the output signal of the voltage detection circuit. In the case where a short circuit of the power source occurs due to the error of (1), the drive circuit opens the switching switch that opens and then closes the switching switch that closes.

(E) Operation Since the present invention is configured as described above, for example, if the respective heaters are connected in parallel in the initial state and the power supply voltage supplied is 100 V, the detection signal from the voltage detection circuit is detected. Is not output, and each heater maintains the parallel connection. When the voltage is 200 V, a detection signal is output from the voltage detection circuit. Therefore, the drive circuit opens the change-over switch that opens, and then closes the change-over switch that connects the respective heaters in series.

(F) Example An example of the present invention will be described with reference to the drawings. FIG. 1 is a side view of the hair dryer. In the figure, (1) is a hair dryer main body consisting of a pair of cases (2a) and (2b), and a handle (4) having a void (3) is provided with an inlet (5) and a discharge grill (6). An exit (7) is provided. (8) is a motor for driving the fan (9) provided on the side of the intake port (5) in the main body, (10) is a heater unit provided on the side of the discharge port (7) in the main body. As shown in, the first heater (11) and the second
The heater (12) is provided, and the first heater (11) is divided into a heating heater (11a) and a step-down heater (11b) for the motor (8). (13) The printed circuit board housed and fixed in the handle (4) and the space (3), (14) the first and second relays (15) housed in the lower part of the space (3),
(16) mounting board, (17) the printed circuit board (1) in the void (3)
A push-button type power switch disposed between 3) and the mounting substrate (14), which comprises a first switch (17a) and a second switch (17b) as shown in FIG. (18) is a power cord, and (19) is a cord protector for the power cord. As shown in FIG. 2, the first relay (15) is a relay coil (15a),
It consists of relay switches (15b) and (15c), and the second
The relay 16 comprises a relay coil 16a, relay switches 16b and 16c.

Fig. 2 shows an electric circuit diagram. (20) is an AC power supply, (21) is a capacitor for noise prevention, (22) is a diode for switching "strong" and "weak" of warm air, and (23) is For example, a resistor having a relatively large resistance value of about 10 KΩ is used to discharge the capacitor (21) when the power supply is stopped. (24) is a temperature fuse, and (25) is an overheat protector, which is provided at an appropriate position in the heater unit (10). (26) is a full-wave rectifier for the motor (8), and (27) is a half-wave rectifier circuit.
It consists of a) and a diode (27b). Reference numeral (28) is a voltage detection circuit, which is composed of voltage dividing resistors (28a), (28b) and a zener diode (28c). When the power supply voltage reaches 150V, the zener diode (28c) is made conductive. . (29) is a constant voltage circuit for converting the output voltage according to the half-wave rectifier circuit (27) into a constant voltage.
a), a smoothing capacitor (29b), and a Zener diode (29c). (30) is a drive circuit which operates based on the output signal of the voltage detection circuit (28), and is a SCR (31),
Bias resistor (32), relay coil (15a), (1
6a) and a relay switch (15b).

Next, the operation will be described based on the electric circuit diagram of FIG. First, a case where the supplied power supply voltage is 100 V will be described first. If the power switch (17) is pressed once or twice while the power source (20) is connected (if it is once, the first switch (17a) of the power switch (17) will be closed and if it is twice) First and second switches (17a), (1
7b) is closed), the voltage detection circuit (28) detects the power supply voltage. However, since the power supply voltage does not exceed 150V, the Zener diode (28c) does not conduct. Therefore, the relay switches (15c) and (16c) are closed, and the relay switches (15b) and (16b) are kept in the open state, and the first heater (11) and the second heater (12) are powered. It is connected in parallel to (20).

Next, a case where the supplied power supply voltage is 200 V will be described. When the power switch (17) is pressed in the same way as above with the power supply (20) connected, the voltage detection circuit (28)
Detects the power supply voltage. At this time, the instantaneous value of the power supply voltage is 1
Since it exceeds 50V, the zener diode (2
8c) becomes conductive. Thus, the SCR (31) is a constant voltage circuit (2
Since the constant voltage is supplied by (9), the voltage detection circuit (2
8) The conduction signal is maintained by the detection signal output first. When the SCR (31) is turned on, the relay coil (15a) is first energized and the relay switch (15a) is turned on.
b) is closed and the relay switch (15c) is opened. Then, after the relay switch (15b) is closed, the relay coil (16a) is energized, the relay switch (16b) is closed, and the relay switch (16c) is opened.
The heater 11 and the second heater 12 are connected in series with the power source 20. Therefore, the relay switch (15b) does not operate until after the relay switch (15c) is completely opened. Does not occur and the power supply (20) does not short circuit.
Further, since the SCR (31) conductive state is maintained by the detection signal first output from the voltage detection circuit (28), even when the relay switch (15b) is used in the 150V zone in a part of the conron via, for example. ), (15
c) (16b) and (16c) do not cause chattering and do not cause problems such as welding.

In the present invention, the first heater (11) and the second heater
(12), relay switch (15c), (16b), (1
6c) is set as shown in FIG. 2, but the present invention is not limited to this, and it goes without saying that it may be set as shown in FIG. 1 or FIG. 2 of JP-B-56-50365. Is.

(G) Effect of the Invention Since the present invention is configured as described above, it is possible to automatically connect a plurality of heaters in series or in parallel according to the power supply voltage, so that the heaters may be disconnected due to high voltage, or low voltage As a result, it is possible to reliably prevent problems such as insufficient heat generation of the heater.

Also, since the circuit for automatically switching the connection of the heater is used to configure the means for preventing the short circuit of the power source, the simplification of the configuration can be realized, and the changeover switch has a special function for preventing the short circuit of the power source. It is excellent in versatility because it can use general relays instead of structural ones.

[Brief description of drawings]

FIG. 1 is a side view of the hair dryer of the present invention with one case removed, and FIG. 2 is an electric circuit diagram of the present invention. (11), (12) ... First and second heaters, (15c),
(16b), (16c) ... relay switch (switching switch), (15b) ... relay switch, (28) ... voltage detection circuit, (30) ... driving circuit.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Teruo Okuda Inventor Teruo Okuda 3-201 Minamiyoshikata, Tottori-shi, Tottori Sanyo Denki Co., Ltd. (56) References 58-98004 (JP, U)

Claims (1)

[Claims] 1. A short circuit for a power supply, comprising: first and second heaters; and a plurality of changeover switches for connecting the respective heaters in series or in parallel with a power supply, due to an error in the changeover order of the changeover switches. Where a power supply voltage is equal to or higher than a predetermined set value, a voltage detection circuit that outputs a detection signal, and a drive circuit that drives the respective changeover switches based on the output signal of the voltage detection circuit are provided. The drive circuit includes a first drive circuit that opens at least one change-over switch that performs an opening operation among the plurality of change-over switches, and the first drive circuit.
Is driven by the first drive circuit after the operation of the drive circuit,
An electric device comprising: a second drive circuit that closes a change-over switch that is closed among the plurality of change-over switches.