How Electric Kettle Works? Working of Hot Water Electric Kettle Explained with 3D Animation..
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LearningTranscript
00:00Unexpectedly, this seemingly simple electric kettle contains exquisite physical design.
00:08Today we will explore its internal structure and working principle.
00:11There are two main parts of the kettle.
00:13One is the switch on the top, which is also called the temperature control.
00:17The other is the heating component located at the bottom of the kettle or the steam switch,
00:22which is also the core part of the kettle.
00:25Resistance coils are usually used to convert electrical energy into heat energy.
00:29These resistance coils are usually made of high-temperature materials such as iron or
00:34nickel-chromium alloy.
00:36In addition, the kettle is also equipped with another key switch called the anti-dry switch.
00:42Its principle is similar to the steam switch on the top.
00:45Let's first take a look at the steam switch on the top.
00:47Its core part is a dish-shaped metal sheet.
00:50Here is a key knowledge point.
00:52This sheet is actually made of two different metals, usually iron and copper.
00:56The thermal expansion rates of these two metals are very different, but they have similar
01:01mechanical elasticity, which means that they will stretch and bend to varying degrees during
01:07the process of thermal expansion and contraction.
01:10When these two metals are laminated together and the temperature reaches a certain level,
01:14the metal piece with a high coefficient of thermal expansion will bend more than the
01:18one with a low coefficient of thermal expansion, causing the overall bending toward the lower
01:23side.
01:24With this in mind, let's go back to the kettle switch.
01:27When the water in the hot water kettle boils, a large amount of water vapor is generated.
01:32It enters the disk-shaped bimetal piece through the small hole at the bottom.
01:36The arrival of the steam causes the temperature of the metal piece to rise rapidly.
01:41Once it exceeds a certain value, the metal piece will bend and deform.
01:45There is a gap above the metal piece.
01:48There is another cylinder at the rear wire contact point of the cylinder.
01:52When the metal sheet is bent, the front cylinder will rise.
01:55Under the action of the lever, the rear cylinder will press down, causing the circuit wire
02:00contact point to disconnect, thereby stopping heating.
02:03The principle of the bottom anti-dry boil switch is similar to this but slightly different
02:09in structure and triggering temperature.
02:11The triggering temperature of the steam switch is usually around 100°C, while the triggering
02:16temperature of the anti-dry switch is higher.
02:19Circuit is usually triggered when the bottom is overheated.
02:22As shown in the picture, there is a piece of metal connected to the metal sheet.
02:26Once the cylinder overheats, the metal sheet begins to deform and bend downward, thus pushing
02:31down the wire contact piece under the cylinder and disconnecting the circuit.
02:36This means that the kettle's protection mechanism is successfully executed.
02:40In addition, the bottom of the kettle is also equipped with a small LED indicator light,
02:45which is connected to the main circuit connection.
02:47When heating, the indicator light lights up.
02:50When the circuit is interrupted, it goes out.
02:52Finally, let's take a look at the lid of the hot water kettle.
02:55The lid will open with just a slight press.
02:58This is because there is a special device inside the lid.
03:01The front end is stuck in the mouth of the pot.
03:03The rear end is connected to a spring.
03:05When the lid is buckled, the spring remains released.
03:08When the button is pressed, the spring is compressed.
03:11The front buckle is released to open the lid.
03:14In fact, the structure and working principle of the hot water kettle are not complicated.
03:18But it is not easy to design a tool that can benefit millions of families with such a clever
03:23combination.
03:24Hope you enjoy this video.
03:26Like, comment, share and follow for more 3D animation videos.