JPH0455057B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to a coffee maker for extracting coffee.

BACKGROUND ART A conventional coffee maker having a configuration as shown in FIG. 3 is known. Here, 101 is a commercial power source, 102 is a power switch, 103 is a heater that heats water, and 104 is a thermostat installed near the heater 103. When the user presses the power switch 102, the thermostat 10
4, the commercial power source 101 is applied to the heater 103, and the heater 103 generates heat. Here, the thermostat 104 has a characteristic of turning off at temperatures above 130°C and turning on at temperatures below 130°C.
Water is heated by the heater 103 and coffee is extracted. When the water runs out, the temperature of the heater 103 rises, so the thermostat 104 is turned off and the heater 103 stops generating heat.
This completes coffee extraction. After the extraction is completed, the temperature of the heater 103 is maintained at about 130° C. by the thermostat 104, and the extracted coffee liquid is kept warm.

Problems to be Solved by the Invention However, with this configuration, if the user uses the coffee maker for the purpose of heating water rather than brewing coffee, and adds water before the water runs out, the heater 103 Since the temperature does not rise, the thermostat 104 remains closed, and as a result, the heater 103 is continuously energized.
Since the temperature of each part of the coffee maker rises due to the heat of the heater 103, the lifespan of the parts used increases.
Reliability problems tend to occur, and therefore components with high heat resistance must be used.

The object of the present invention is to provide a coffee maker that solves these problems.

Means for Solving the Problems In order to solve the above problems, the coffee maker of the present invention controls the energization of the heater when the temperature of the temperature sensing element does not reach a predetermined temperature even after heating the heater for a certain period of time. Constant ON for switching means
It is equipped with a control signal that outputs an OFF signal.

Effect According to the above configuration, when the heater is heated for a certain period of time, the heater is heated intermittently after that, so the temperature of the heater does not become high for a long time, and as a result, the coffee is not heated. The aim is to improve the lifespan and reliability of the parts used by manufacturers.

Embodiment Hereinafter, an embodiment of the present invention will be described based on the accompanying drawings.

In FIGS. 1 and 2, 10 is a heater for heating water, and 20 is a switching means for controlling energization of the heater 10, which is composed of a relay contact 21, a relay coil 22, a transistor 23, and a resistor 24. 30 is a thermistor, and this thermistor 30 corresponds to a temperature sensing element. 40 is thermistor 3
Temperature detection means for determining whether or not the temperature of
44. 50 is a control means that receives the output signal of the temperature detection means 40 and outputs a control signal to the switching means 20; 60 is a constant voltage power supply;
It is composed of a capacitor 64 and a constant voltage diode 65. 70 is a starting means, resistor 7
1. Consists of a start switch 72. 75 is a commercial power source, 81 is a water tank,
82 is a check valve that regulates the flow of water; 83 is a pipe that guides the water in the tank 81 to the heater 1; 84 is a watering unit that reduces the force of water discharged from the pipe 83; and 85 is a basket that stores coffee grounds. ,
86 is a lid attached to the upper surface of the basket 85;
7 is a glass container into which extracted coffee liquid is placed;
88 is a discharge port.

The operation of the above configuration will now be described.
The commercial power source 75 is rectified by a resistor 61 and a diode 63, smoothed by a capacitor 64, and made constant voltage by a resistor 62 and a constant voltage diode 65.
0 power supply. The user fills the tank 81 with water, opens the lid 86, and pours coffee powder into the basket 85.
and close the lid 86 to complete the setting. At this point, the water in the tank 81 is removed by the check valve 82.
is led to pipe 83 through. When the user presses the switch 72, part a changes from HIGH to LOW, and this signal is input to the control means 50. With this signal, the control means 50 inputs an ON signal to the switching means 20. This signal is the resistor 24
is applied to the base electrode of transistor 23 through
2 is energized, and the relay contact 21 is closed. As a result, the AC voltage of the commercial power supply 75 is applied to the heater 10 . Then, the water in the pipe 83 flows to the heater 10.
It is heated and boils, producing steam. The pressure within the pipe 83 increases due to the generated steam, but due to the action of the check valve, the boiled water does not flow into the water tank, but is spouted from the upper part of the pipe 83 to the sprinkler lid 84. When boiling water spews out, the pressure inside the pipe 83 decreases, and water flows from the tank 81 back into the pipe 83.
The water turns into boiling water and squirts into the water sprinkling lid 84.
The boiling water spouted onto the sprinkler lid 84 drips onto the lid 86 from the discharge port 88. The boiling water dripped onto the lid 86 is poured into the coffee powder stored in the basket 85 through a hole in the lid 86, and the extracted coffee liquid is stored in a glass container 87 through a hole at the bottom of the basket 85. On the other hand, when the water in the tank 81 runs out, water is no longer guided to the pipe 83, so the temperature of the heater 10 increases and the resistance value of the thermistor 30 attached near the heater 10 decreases. Here, the resistances 42, 43 of the temperature detection means 40,
If the resistance value of 44 is set to the optimum value, tank 81
When there is water inside the heater 10, the resistance value of the thermistor 30 is large, so the output of the comparator 41 is HIGH. However, when the water disappears and the temperature of the heater 10 rises, the resistance value of the thermistor 30 becomes small, and the thermistor 30's resistance value becomes HIGH. When the predetermined temperature is exceeded, the output of the comparator 41 becomes LOW. Due to this change in the output of the temperature detection means 40, the control means 50 outputs an OFF signal to the switching means 20, and as a result, the heater 10 stops generating heat, and the extraction of coffee liquid is completed.

However, for purposes such as boiling water, tank 81
When the amount of water in the pipe 83 decreases and water is added as the amount of water decreases, water is continuously introduced into the pipe 83, so that the heater 10 is continuously energized. In this case, the thermistor 30 does not reach the predetermined temperature even after a certain period of time (a time set slightly longer than the time for the thermistor 30 to reach the predetermined temperature if no water is added) has elapsed, so the control means 50 causes the switching means 20 to 4 seconds ON, 4 seconds OFF ON-
An OFF signal is output, and the heater 10 is intermittently energized. The water in the pipe 83 is heated by the heater 10 with half the electric power that would be required when it is continuously energized, and is brought to a boil. When water is no longer added and water is no longer introduced to the pipe 83, the temperature of the thermistor 30 rises, as described above, and the heater 10 stops generating heat.

Effects of the Invention As described above, according to the present invention, even when a user uses a coffee maker for a purpose other than brewing coffee, such as boiling water, and water is added before the water in the tank runs out, After the heater is energized continuously for a certain period of time, the heater is energized intermittently by ON-OFF control, and the power is lowered to perform heating, which can suppress the rise in temperature of the heater, and as a result, the temperature of the heater and other parts used It is extremely practical, as it lowers the upper limit of temperature, improving reliability, and lowering the heat-resistant temperature of the parts used.As a result, material costs can be reduced.

[Brief explanation of the drawing]

FIG. 1 is a circuit diagram of a coffee maker showing an embodiment of the present invention, FIG. 2 is a partial sectional view of the same coffee maker, and FIG. 3 is a circuit diagram of a conventional coffee maker. 10... Heater, 20... Switching means,
30... Temperature sensing element, 40... Temperature detection means, 50
...control means.

Claims (1)

[Claims] 1. A heater that heats water, a switching means that controls energization of the heater, a temperature sensing element installed near the heater, and a temperature detection device that determines whether the temperature of the temperature sensing element is higher than a predetermined temperature. means, which receives the output signal of the temperature detection means as an input, and when the temperature of the temperature sensing element does not reach a predetermined temperature even if the ON signal is outputted to the switching means for a certain period of time, the switching means is provided with an ON signal of a certain period. OFF
A coffee maker equipped with control means for outputting a signal.