JPH084676B2 - Cordless iron - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a cordless iron in which a power cord is not led out from an iron body.

2. Description of the Related Art Conventionally widely used irons have only an iron body, and a power cord is led out from the iron body.
Power is supplied to the heating element inside the main body via the power cord. However, in the case where the power cord is derived from the iron body as described above, there is a problem that the cord becomes an obstacle during ironing and the movement of the iron body is limited by the length of the cord. From such a viewpoint, recently, a mounting table is provided separately from the iron body,
Power is supplied to the iron body by placing the iron body on the placing table, and a cordless iron that does not lead the power cord from the iron body has been developed.

Problems to be Solved by the Invention In such a cordless iron, power is supplied to the iron body only when the mounting table is present. Therefore, the iron is taken out from the mounting table, used for a long time, and then returned to the mounting table again. At times, the temperature of the base is often too low. In such a case, it is necessary to wait until the temperature of the base rises to some extent, but the conventional cordless iron has no means for knowing the temperature of the base, and it is unclear how long to wait. Therefore, the present inventors attach a heat-sensitive resistance element to the base, configure a pulse signal generation circuit on the iron body side in which the output interval of the pulse changes depending on the resistance value of the heat-sensitive resistance element, and place this pulse signal on the ironing board side. We have developed a cordless iron that can read the interval and know the temperature of the base. By doing so, it becomes possible to inform the user that the temperature of the base is low, or to inform that the temperature has reached an appropriate temperature, by using some kind of display means. However, the problem here is that the pulse signal due to noise may be mistaken as a regular pulse signal, the pulse interval may be erroneously read, and the temperature may be mistaken. When the temperature is mistaken, the user is informed that the temperature is high but low, or the temperature is high but low, and thus incorrect information is given to the user. Also,
When a relay is used for temperature control, if the temperature is high but low, and the relay is turned on, the temperature of the base becomes abnormally high, which is dangerous.

The present invention has solved such a conventional problem.
It is intended to provide a cordless iron capable of reliable temperature display and temperature control.

Means for Solving the Problems To solve such problems, the present invention provides a receiving means for receiving a pulse signal, and a pulse recognizing means for determining whether or not the width of the received pulse is within a specified range. Is provided on the mounting table.

Operation With this configuration, even if a pulse having a width other than the specified width due to noise or the like is received, it is recognized that the pulse is different from the regular pulse and is ignored. Therefore, reliable temperature display and temperature control can be performed without misrecognizing the temperature of the base.

EXAMPLES Examples of the present invention will be described below with reference to the drawings. In FIG. 1, reference numeral 1 is an iron body, a heater 2 for heating a base, a heat-sensitive resistance element 3 for sensing the temperature of the base, and a pulse signal for generating pulses having different intervals depending on the resistance value of the heat-sensitive resistance element 3. The generation circuit 4 and the transmission means 5 for transmitting the pulse signal of the pulse signal generation circuit 4 are internally provided. Reference numeral 6 denotes a mounting table on which the iron body 1 is mounted, and a microcomputer 9 (hereinafter referred to as a microcomputer) having a receiving means 7 for receiving a pulse signal from the transmitting means 5 and a pulse recognizing means 8 for judging whether the received pulse signal is a regular signal or not. A temperature control relay 10, a relay drive circuit 11 for driving the relay 10, and a constant voltage circuit 12 for securing a power supply voltage of the microcomputer 9 are internally provided. When the iron main body 1 is placed on the mounting table 6, the power supply terminals 13a, 13b and 14a, 14b come into contact with each other, and power is supplied to the pulse signal generation circuit 4 of the iron main body 1. When power is supplied to the pulse signal generation circuit 4, the circuit will
A pulse signal as shown in FIG. 2 (a) is output to 15. Second
In the figure (a), t _ON is always constant and has a fixed length. t _OFF is determined by the resistance value of the thermal resistance element 3, and when the resistance value changes, t _OFF also changes. When a pulse signal as shown in FIG. 2 (a) is output to the terminal 15, the transmitting means 5 causes a current as shown in FIG. 2 (b) to flow through the terminal 16. On the other hand, a constant current always flows through the pulse generating circuit 4, and as a result, a current as shown in FIG. 2 (c) flows through the terminal 17. The receiving means 7 extracts only the pulse component from the current as shown in FIG. 2 (c), and further outputs a signal as shown in FIG. 3 (d) to the terminal 18 as a voltage signal matching the signal level of the microcomputer 9. . Therefore, the microcomputer 9 is provided with a pulse signal whose t _{ON is} constant and whose t _OFF length changes depending on the resistance value of the thermosensitive resistance element 3. Since the resistance value of the thermosensitive resistance element 3 correlates with the temperature of the base, the microcomputer 9 can know the temperature of the base by measuring the length of t _OFF . In this way, the microcomputer 9 knows the temperature of the base, sends a signal to the relay drive circuit 11 as necessary, turns on / off the relay 10, controls the power supply to the heater 2, and controls the temperature. Further, in this embodiment, the temperature display means 19 is provided,
If necessary, temperature is displayed by LED etc. In such a configuration, if noise is superimposed on the circuit due to some influence and the pulse signal becomes as shown in FIG. 2 (e), if the microcomputer 9 recognizes the pulse due to noise as a normal pulse, The temperature is mistakenly recognized and malfunction occurs. This malfunction sometimes causes an erroneous temperature display, and sometimes causes the relay to turn on even when the temperature is high, which may cause a danger. Therefore,
It is necessary to have a reliable pulse recognition means that recognizes only regular pulses as pulses and ignores uncertain pulses due to noise or the like. Therefore, in this embodiment, a reliable pulse recognition means is realized by the program of the microcomputer 9 as shown in FIG. Hereinafter, FIG. 3 will be described. First, when the program starts, it does nothing and waits until the pulse rises. When the pulse rises, it waits for the pulse fall while measuring the pulse length. If the pulse length is
When t ₂ is exceeded, this pulse is regarded as not a regular pulse and the state immediately after the start is returned. If the pulse falls before the pulse length exceeds t ₂ , compare the pulse length with t ₁ this time, and if the pulse length is shorter than t ₁ , consider this pulse as not a normal pulse and immediately after the start. Then, when the pulse length is t ₁ or more, the pulse is regarded as a normal pulse and the next operation is performed. Therefore, a pulse having a pulse length of t ₁ or more and t ₂ or less is regarded as a regular pulse, and the first pulse is recognized in this manner. The reason why the regular pulse has a width such as t ₁ or more and t ₂ or less is
This is because there are some variations in the regular pulse. 1
When the recognition of the second pulse is completed, the next pulse is waited for again. However, at this time, wait while measuring the pulse interval corresponding to the base temperature. When the pulse rises, it waits for the pulse to fall while measuring the pulse length. Here, if the pulse length exceeds t ₂ before the pulse falls, the process returns to the beginning and the first pulse is confirmed. If it falls before the pulse length exceeds t ₂ , if the pulse length is smaller than t ₁ , this pulse length is added to the pulse interval measured earlier, and the pulse falls while measuring the pulse interval again. Wait for When the pulse length is t ₁ or more, it is regarded as a regular pulse and the timing of the pulse interval is completed. Then, temperature control and temperature display are performed based on the measured pulse interval, that is, the temperature information of the base. To measure the pulse interval again, the process returns to the beginning and the first pulse is recognized. By doing so, the temperature of the base can be surely known without erroneous recognition of temperature due to noise or the like, and the malfunction due to erroneous temperature recognition can be almost prevented.

EFFECTS OF THE INVENTION As described above, according to the present invention, a pulse signal having a constant width is transmitted from the iron body as the temperature information of the base with its interval changed, and the pulse signal of the base is received by the mounting table. A cordless iron that knows the temperature can reliably receive temperature information and can supply a cordless iron that does not malfunction.

[Brief description of drawings]

FIG. 1 is a block diagram of a circuit of an embodiment of the present invention, FIG. 2 is a voltage / current waveform diagram in each part of the circuit of FIG. 1, and FIG.
The figure is a flow chart of the microcomputer which is the pulse recognition means. 1 ... Iron body, 4 ... Pulse signal generation circuit, 5 ...
... Sending means, 6 ... Mounting table, 7 ... Reception means, 8 ... Pulse recognition means, 9 ... Microcomputer.

Claims (1)

[Claims] 1. An iron main body and a mounting table on which the iron main body is placed. The iron main body outputs a thermosensitive resistance element and a pulse signal of a constant width, and the output interval of the pulses is A pulse signal generating circuit that changes according to the resistance value of the thermosensitive resistance element and a transmitting unit that transmits the pulse signal are provided, while the mounting table has a receiving unit that receives the pulse signal and a width of the received pulse. A cordless iron provided with pulse recognition means for determining whether or not it is within the range.